That explains a bit more: (1) neuro-surgery introduces gene-virus to putamen and caudate nucleus; (2) virus delivers gene that produces micro-RNA; (3) the micro-RNA blocks the messenger RNA of the bad gene, reducing bad protein production.
The 2023 study is said to have 39 patients (BBC and their recent statement reports 29). The reported findings may be significant but seem small (e.g., low dose: 0.39 of 14.1 points). Earlier they reported composites from the Unified HD Rating Scale, which has the usual caveats for the behavioral and functional sub-measures (vs. the more reliable motor and cognitive). Today's statement instead focuses on the more objective measures instead of the composite.
Earlier, high-dose responders reportedly didn't just stabilize but got better -- unclear how. The more recent findings report that the disability still progressed, but slowed relative to "propensity-matched" controls. (Note 4 of 10 controls opted to join the trial after 12 months.)
Both mention improvement in NfL (neurofilament light chains), which is an objective but nonspecific (and highly variable) measure of the degree of neuronal decomposition. The statement quantifies this at ~8% -- unclear if this level is convincing.
For such an invasive treatment for a slowly progressing, relatively rare disease, they're probably gathering and publishing data as fast as possible. The short-term results seem good, and it will be good to see long-term results over time.
It's possible some effect seen is due e.g., to immune adjuvants or something else during the therapy, and I would want experts to review the propensity matching.
I would be concerned that the micro-RNA produced either also binds with epitopes from other messenger RNA or induces some immune response. Remember, there's no reversal agent or half-life elimination for such genetic treatments.
Huntington's is among the best candidates for a genetic cure: well known gene and mechanism, definitive pre symptomatic diagnosis, slow progression.
But I am still reluctant. It's phase 1/2 (ie exploratory) and the phase 3 is the hard part that takes many years. Also it's disease slowing not stopping.
The FDA has already agreed that data collected from this trial could be used to support a future BLA, and UniQure said this morning they're moving ahead with the BLA. In other words, uniQure likely will not need to run another trial before obtaining FDA approval for AMT-130.
One of my mom's best friends when I was a kid had Huntington's. She was a few years older than mom, and her sons were a few years older than my brother and I. One of them chose to get tested. The other chose not to. I remember thinking that was foolish, but I was seven years old. In retrospect, it's strange that a seven-year-old was privy to such things.
I chose not to get tested when the test was new. I still haven’t, but I feel confident I dodged the bullet based on my age vs my relatives’ age of onset. I used to wonder if I could take the news of having HD. Now I wonder how life would have been different knowing for sure I don’t have it.
This is incredible, what a miraculous thing for sufferers and their families. Feels rare to see such a such an unquestionably good news story these days.
What part of this discovery was made thanks to NIH and/or NSF funding from the USA, or the NIHR in the UK?
I don't ask to strictly bring up politics, but instead to try and address the broad lack of understanding of how medical breakthroughs like this are made.
It's not done just by drug companies. The article says:
> UniQure says it will apply for a licence in the US in the first quarter of 2026 with the aim of launching the drug later that year.
That's true, but that doesn't talk about the tens to hundreds of research papers that have been published over likely decades to make this discovery a reality. And it doesn't talk about how much public money went into this discovery.
Many people reading this article probably have a vague idea that more than just this company was involved, but I feel it is not at all clear to the vast majority of people, since the vast majority of people are not involved in biomedical research.
I wish there was an easy way to figure out how many dollars, how many grants, how many researchers, went into achieving this breakthrough. And that the media would put that into news articles like this. Trace all the citations back a few orders, and I bet you'll find a massive number of NIH and NIHR grants.
There is unfortunately not more massive, bipartisan public outcry in the US over defunding the essential basic research the NIH does... and it's not new to the current administration, since it was attempted to be done back in 2017, too [1].
Scientists need better messaging or else we're going to stop having breakthroughs like this... and the breakthroughs are already going to slow down thanks to things like the $783 million in cuts to NIH grants that the US SCOTUS authorized in August [2].
The problem is the soundbite of some of these studies on the surface is ridiculous to lay people but even good studies with bad sound bites are used as weapons against science funding in the USA. The shrimp on a treadmill study is still used as argument against science funding today.
https://www.npr.org/2011/08/23/139852035/shrimp-on-a-treadmi...
> Scientists need better messaging or else we're going to stop having breakthroughs like this
Sure, but it's really sad that scientists need to justify their funding to the public - they already spend so much time justifying it to the NIH and others for funding.
So many people have had their careers jeopardized by finding pulled mid-project. I am really concerned about our research pipeline, because my post-doc friends are all applying to jobs outside the US now.
This is where the funders really ought to step up.
A spokesperson from (say) NINDS really ought to be shouting to anyone who will listen about how excited they are to see their <many year>, <many dollar> investment in Huntington's pay off.
I'd love it if they highlighted some of the especially "weird" studies that went into this to demonstrate how important fundamental research is and how it goes in unexpected directions.
>Sure, but it's really sad that scientists need to justify their funding to the public
No, it's not sad that you need to justify the use of public money.
Unless you think it's sad that the military needs to justify their funding to the public to get more. The military could have a $2 trillion dollar budget but people would ask "why!" when it clearly doesn't need to be justified. Agree?
Here's another thing you'll no doubt agree on: we should fund science with no justifications - I say that we need a $100b invested into more research into the link between vaccines and autism. No justification needed, of course.
> No, it's not sad that you need to justify the use of public money.
You don't ask your plumber which computer network you should build for a fortune 500 company for the same reason I don't ask a computer programmer how to fix leaky pipes. People who study in an area actually have much stronger basis for having opinions rather than keyboard warriors who are upset that there mythological studies have been debunked time and time again. That's not science that is cult behavior. If you want to influence that decision process work in that field and provide justifications for that vaccine research and some new angle that's been missed. The American public is not a intelligent member of the medical community there opinion should not have the same weight in day to day operations as the medical community. They can allocate an amount we want to do research and should ask the NIH to do board research because that is effective and has an overwhelmingly strong record having done the background research for basically ever medical advancement made for a long long time.
So, no I think we should allow a panel of experts to evaluate what is worth funding in research. Give the NIH a budget to hire a panel of field experts like they have been for a long time and fund research that panel says is worth it. Autism and vaccine linkage is studied and has been shown several times to have no strong correlation with vaccination. The idea we need to study that more is stupid and experts say it is stupid because it steals funding from actual research into other environmental factors that haven't been studied yet. Maybe its PFAS chemicals maybe its something else.
That's a fantastic way to fall victim to grift. Your "panel of experts" can easily be as biased as anyone else.
When you give people vast authority on the basis of their expertise (even assuming the expertise is genuine), anything that challenges it becomes not a novel idea worth exploring, but a direct challenge to their authority.
Planck's principle- that science advances one funeral at a time- is rather apropos here.
We even do not need to calculate NIH grants; I am pretty sure that all databases that were used here are from NCBI. If there were no NIH, all research would be impossible in modern biology.
I think it is a UK study. It actually has been going on for a number of years, I've seen one of the PIs giving a number of big conference talks (Tabrizi) for a while
I'm pretty sure some of it is direct funding by governmental agencies, but even if that wasn't the case, all the basis of the theory, and the groundwork was laid by researchers and universities using those grants. You need public money for a healthy society
Even that quote is a bit of a disservice to modern science: it's a massive pyramid made of thousands and thousands of individual contributions, including many bits of deep background and outright "failures".
Biology is tough in that you can't just "reason" your way to success; it often really does require trying something to see if an approach works.
There's little money to be made with HD. It's a 1 in 30,000 disease. There's been little reason for anyone other than state sponsors to support its treatment. Add this to the reason's to be disgusted by capitalism. Spoken as a widower of an HD wife.
How common a disease is doesn't have much to do with treatment efforts. Cystic Fibrosis has practically been cured by Big Pharma and only ~40,000 people in the entire US have it.
That is because the Cystic Fibrosis foundation funded some of the research and drug development to make the first treatment possible. They had to essentially operate in a VC model to get the treatments that these CF patients need.
Most disease categories have advocacy and funding groups, with varying amounts of success. The point is that rare diseases get new treatments all the time from private for-profit firms. In fact, orphan diseases are extremely profitable, and the FDA offers fast tracked approval decisions, making them an enticing niche to focus on.
It really has nothing to do with capitalism. There are special grants in the US for researching rare diseases, specifically to ensure money isn't the barrier.
As an aside because I'm pedantic about the language, apostrophes are never used to show pluralism.
I am scared that special grants to research rare diseases will go away, too.
If we're trying to figure out what the most benefit for each taxpayer dollar is, then a rare disease won't win out over, say, cancer research.
Someone may consider researching a rare disease as "waste," even though to everyone including the previous poster who is a widow because of HD, it is far from a waste.
When there is not much of a profit motive to do something - whether going to the moon or fighting a rare disease - public money is the best way to do it. And even throwing a fairly small percentage at it can create big achievements.
And that's one reason I'd like to see how much money and time went into this. We might be surprised that it's fairly small in the grand scheme of biomedical research costs!
Medical progress has been insane in the last few years through technological breakthroughs. It's not out of reach to think that most types of cancers will be curable 20 years from now on.
> AMT-130 consists of an AAV5 vector carrying an artificial micro-RNA specifically tailored to silence the huntingtin gene, leveraging our proprietary miQURE™ silencing technology. The therapeutic goal is to inhibit the production of the mutant protein (mHTT)
This isn't an mRNA treatment. The m in mRNA stands for "messenger", not micro. mRNA covid vaccines don't mess with the genome anything like this treatment does, and indeed, this treatment is much more dangerous than any vaccine would be.
Thanks for sharing this information. Do you (or anyone else here) know if these trends might be expected based on how the treatment works? For example, given than the treatment is only injected into certain parts of the brain, could we expect that some aspects of the disease will be treated better than others?
The major hurdle of current gene therapies is delivery to the tissue where the defective gene product is causing damage. For instance lipid nanoparticles are only being used to deliver gene therapies to the liver, because if you inject them they just end up there and not much anywhere else. In this case they are using an virus called "adeno asociated virus 5" (AAV5), which does not naturally infect the brain AFAIK. The blood brain barrier (basically just extra impermeable blood vessels), as well as other immunological features in brain tissue, evolved specifically to keep the brain as unaffected as possible from anything bad going on in the body, seeing as any infection/poisoning of the brain is varying degrees of catastrophic and would easily kill you in the ancestral environment.
I don't know the details of why AAV5 in particular is their vector of choice in this case, but for whatever reason thats what they've gone with. AFAIK there are no viral or other vectors that consistently infect all brain tissue when injected/ingested, so maybe that's just the best option available. Anyways, it seems that in order to get it to the actual brain tissue that is damaged by the huntington protein (all of it? One particular area?), the best way is to inject it where it needs to go. If you could just pump it into the CSF that would perhaps make things a little bit more tolerable, seeing as you could then just do a spinal tap and inject it that way, but apparently that doesn't work. Or maybe a generalized AAV5 infection has more side effect then targeted injections. Just speculating here.
The brain is slightly elastic, so you'd want to advance a needle glacially slowly (microns/second) into it so it ends up at the right position. The injection itself is also done slowly (microliters/minute) so you don't cause pressure damage.
They might also do some intraoperative imaging (some ORs have MRI or CT machines), which slows things down, and of course there's tons of cleaning and repair work afterward.
The video specifies that the drug is infused over 8-10 hours. Probe placement - again, as depicted in the video, because I don’t see a real methods section - should take about 1-2 hours. The video isn’t clear if this is interactive MRI or just a preop scan that is then loaded into a stereotactic navigation system in a regular operating room, but the former would add another hour at least. MRI is not fast.
The brain-blood barrier typically only allows small, non-polar molecules to pass through into the brain, which complicates a lot of neuro/psych treatments.
"The data also shows the treatment is saving brain cells. Levels of neurofilaments in spinal fluid – a clear sign of brain cells dying – should have increased by a third if the disease continued to progress, but was actually lower than at the start of the trial."
What do those progression numbers mean in terms of outlook? For example, if someone is treated before showing symptoms (as they know they inherit it) is the progression slowing enough to give them a normal life expectancy and quality of life?
>It means the decline you would normally expect in one year would take four years after treatment, giving patients decades of "good quality life", Prof Sarah Tabrizi told BBC News.
>The first symptoms of Huntington's disease tend to appear in your 30s or 40s and is normally fatal within two decades – opening the possibility that earlier treatment could prevent symptoms from ever emerging.
I don’t think this quite answers the curiosity of whether starting treatment e.g. at birth would virtually eliminate morbidity, or whether it only slows the decline once it has started.
Consider that the disease typically manifests in your 30s — does this mean it would begin 4x later (and thus basically never manifest), or that your 15 year progressive decline from ~35-50 would take 4x longer (giving you a normal lifespan, albeit perhaps with some limitations in your later years)?
> In the UK, the NHS does pay for a £2.6m-per-patient gene therapy for haemophilia B.
A misleading data point. This group of people were treated so poorly by the state that something had to be done. I don’t think this is setting a benchmark.
Don't often comment on HN but have to point this out as a med student in the UK: the cost-benefit roughly works out for those in favour of giving the therapy when the alternative is a lifetime of coming to hospital 3 times a week for Factor IX infusions, and the additional cost of stays in hospital for bleeds/haemarthroses and the complications thereof. Of course, this also ignores the human cost, particularly the extra care/stress around avoiding cuts/bruises in every aspect of life. In this respect these gene therapies appear lifechanging for those who suffer from the disease. [1]
I will also say I know the team who wrote the guidelines for use of these therapies. I believe they were mostly finished before the infected blood scandal became a big story. Politics didn't come into it.
I lost my first wife to HD in 2013. She was one of the lucky few whose optimism and love of humanity stayed with her through to the end.
If there is a God, I'll never accept it as "loving" as HD is as cruel a slow torture as it comes.
EDIT: Also, a Trump NIH would never have done the years of work to lead up to this sort of treatment. They've been working to suppress mRNA-based treatments because of politics.
Get your politics out of good science, you heartless assholes.
I don't see one yet -- but the main people mentioned in the article have a long publication record on Huntington's. This trial has been going on for a while and this is an interim media report. I don't think they've reached an endpoint yet.
"If one of your parents has Huntington's disease, there's a 50% chance that you will inherit the altered gene and will eventually develop Huntington's too."
Have they never heard of genetic diagnostics? For example with a combination of preimplantation generic testing and in-vitro fertilization you can prevent passing on known genetic mutations to the next generation.
While technically possible, that option isn’t really available to most people. Tho I suppose 17 hour brain surgery with gene therapy is also not available to most people, so fair enough.
Anyway, they’re just describing the heritability of the disease there.
An optimal society would provide no-cost embryo screening and IVF to couples with the gene for HD, because that cost is certainly far <50% of the lifetime cost of living with HD in treatment costs, lost income, and lost QALY's.
I hope that we can work towards such a society.
(And of course this research is still worth doing to help the population who already have the illness)
This needs to be said, with Trump's cutting of College Basic Research Funds, many of these great breakthroughs will occur in other Countries. The US is/was the lead in biotech, it is now giving up its lead. That means one of the US largest industries, employing many with high pay, will shrink, due to US policies. In a few years it may not exist unless funding is restored soon. I personally know people who's grants have been cancelled due to these cuts.
But, glad to see other Countries funding their research. I wonder in face of one of the largest blunders made by the US, are they increasing funds ?
There’s another connection here, between trump and huntingtons.
Folk singer Woody Guthrie wrote the song “old man trump” about fred trump (donny’s dad), while suffering from huntingtons and living in a building owned by fred.
This is off topic, slightly but I think a good place to say this:
I wish the media outlets would mention the fact that at least one of the scientists in this post is an immigrant in the UK. (in this case I’m not sure 1st or 2nd gen)
In the current climate of anti-immigrantion rhetoric around the world, simple things like that might help a little with the perception of immigrants as freeloaders.
This seems helpful, but I think the misattribution of a general "anti-immigrant" sentiment to immigration detractors is part of the problem.
Very few detractors in the west have any issues with highly qualified immigrants occupying scientific or research roles. Being opportunistic with which kind of immigrants one offers as Good is partly what's aggravating the issue. It's a radical kind of dismissiveness and denialism which is provoking people and ignoring their issues.
The broad western detraction against immigration at the moment is targeted at specific waves of mass immigration with specific compositions that have specific effects on the places those immigrants have landed.
People are primarily concerned about the ability of state, social and corporate institutions to absorb immigrants at this pace and scale without significant zero-sum effects. And, in addition, the significant amount of state support segments of those populations (eg., esp. asylum seekers) have to receive at a time when gov. are under inflationary pressures, debt pressures, etc. and cannot service their own welfare obligations.
Going, "oh but we get good cancer research from immigration!" is so dismissive to these concerns, that the backfire against this messaging is one of the major contributors to people's disaffection.
The idea that people need to be told that there are people who want to immigrate that are in our national interest to absorb, is just plainly absurd. This is uncontroversial and obvious.
I'll point out that educational achievement and upward economic mobility in second-generation immigrants is generally excellent. That holds true regardless of their parents' education or income level.
Over a longer view, accepting a construction worker now, because his daughter might cure cancer later, might be an advantageous bargain.
"Very few detractors in the west have any issues with highly qualified immigrants occupying scientific or research roles."
Laughable, these 'few' reside in the highest seats of power and exist among the 'advisors' to the cabinet.
"It's a radical kind of dismissiveness"
People keep telling me I'm wrong in the wrong way, if they were nicer I'd consider their opinions. This is an irrational position to stake out, it should go without saying.
"The broad western detraction against immigration at the moment is targeted at specific waves of mass immigration with specific compositions that have specific effects on the places those immigrants have landed."
This is such a laborious way to say "poor, brown or both". Do you get tired of dancing around like this?
"People are primarily concerned about the ability of state, social and corporate institutions"
If you were actually "concerned", you'd advocate for punishing institutions that use cheap (or 'free' if you steal their passport) immigrant labor, rather than targeting those that arrived to fill those positions. Do you have an understanding of why this never happens?
It goes without saying that much of the 'specific immigrant labor' you despise is used to fill the welfare obligations related to care-taking that you are also deeply concerned about.
"dismissive to these concerns"
I was assured that 'tone policing' was the domain of the 'woke', yet here it is a second time in the same comment.
"uncontroversial and obvious."
You might want to speak to your fellow travelers about which are 'good' immigrants and which are 'bad'. It suffices to say that if they agree in general, but disagree about which group is good, then it is not actually 'uncontroversial'.
I personally don't care about immigration. I have yet ever to be negatively affected by it, and have tended to find immigrants more pleasant than my own citizens. I'm more worried about our aging, obsese, immobile populations who arent breeding, and need 3-to-1 worker ratios to support, that we cannot provide. I am, personally, relatively open borders -- for at least that reason. I am more motivated by welfare demands and geopolitics, both of which benefit from larger active populations in our borders.
However, what I want doesn't really matter. It's a democracy, and half of a country will not be ignored. You either listen and find some way to give them what they want in the least objectionable way; or they will take what they want, and take revenge on you for your obstinacy. They will do to you what you insist on doing to them: not listening to you at all as they enact the most extreme form of policies which they agree with.
You speak as if your views express those of a powerful majority who will impose them on your detractors. This a dangerous power fantasy. The castle has been ransacked, the draw bridge is down, and you've no army left.
You either draw up terms of surrender, or they will be drawn up for you.
> The castle has been ransacked, the draw bridge is down, and you've no army left.
Well, no, not that either. You're making the same mistake from the other side. The side you say has "no army left" also is half the country. And that half of a country will not be ignored either.
Both sides demand to be listened to, but neither side is willing to compromise or to admit defeat, even temporarily.
So I expect that power will continue to swap back and forth, that when in power both sides will do their best to implement their plans, and when they are out of power they will suffer the other side's vengeance for their obstinacy. I don't see it improving soon. I suspect we'll see at least another two election cycles of this viciousness.
Maybe. Certainly if detractors go to excess then they'll breed resentment from the supporters, and round and round.
At the moment though, i think there's lots of people speaking as if it were 2022 and all of that ammunition has now been expended and the stores are bare
This isn't addressing the main point of your comment, but a side issue:
> Very few detractors in the west have any issues with highly qualified immigrants occupying scientific or research roles. Being opportunistic with which kind of immigrants [...].
I'm not a detractor of any individual immigrant, certainly not a very skilled one. But I am dumbfounded when I hear people say how wonderful immigration is "for the economy", "for the health system", etc., because we can lure all these bright people over from poor countries with offers they can't get at home.
Like... Mozambique needs good doctors and nurses too. Sudan needs good engineers. Syria needs entrepreneurs.
I don't begrudge the immigrant one bit for moving to get more money or a better life or whatever it is that motivates them, and they sure do contribute to the place they move to. But harvesting the best and brightest minds from poor countries on an industrial scale isn't something that sits too well for me at all. The merits and effects could be debated and disagreed, but it certainly requires much deeper thought than just the greed driven "good for my economy, good for my healthcare, good for me" type quips.
I actually think of it as neocolonialism. The most valuable resource in this day and age is people, and wealthy countries are plundering the human capital from the poor ones like they did with resources in previous centuries. Throwing a bit of charity at them whenever the next outbreak or famine or civil war rolls around doesn't make up for it.
I strongly disagree with this. While I am generally pro-immigration, injecting a political view into an article ostensibly about a new scientific discovery is how science loses credibility and objectivity. See the "trust the science" phrase weaponized during COVID in the US.
Let people draw all the inferences they want about the origins of the scientists involved, but a hamfisted paragraph about a.b scientist being an immigrant from y country does not have a place here.
Also it sends a message that only scientists are welcome as immigrants. There's millions of immigrants who contribute positively to the society, who aren't scientists.
I have a feeling this migrant didn’t get off a dinghy with all the other engineers and scientists so probably isn’t raising a lot of concern for most. Conflating “immigration is too high” with “anyone who thinks immigration is too high is a racist who thinks they are all freeloaders” doesn’t work anymore, no amount of media propaganda will change that.
There has been a strong push back against illegal-immigration in the west. The media has completely reframed the discussion to "How can they be opposed to immigration" because if they said "how can they be opposed to illegal-immigration" their argument would fall apart pretty quickly.
No one with a brain is arguing that immigration doesn't provide tremendous value.
>How can they be opposed to immigration" because if they said "how can they be opposed to illegal-immigration" their argument would fall apart pretty quickly.
Isn't this also disingenuous? A significant proportion of the groups against immigration are against any immigration and have been floating trial balloons for "remigration" for non-white citizens.
(non-expert)
This is promising but needs publication and expert review.
Here's the actual company statement from today:
There's also a June 2024 article: That explains a bit more: (1) neuro-surgery introduces gene-virus to putamen and caudate nucleus; (2) virus delivers gene that produces micro-RNA; (3) the micro-RNA blocks the messenger RNA of the bad gene, reducing bad protein production.The 2023 study is said to have 39 patients (BBC and their recent statement reports 29). The reported findings may be significant but seem small (e.g., low dose: 0.39 of 14.1 points). Earlier they reported composites from the Unified HD Rating Scale, which has the usual caveats for the behavioral and functional sub-measures (vs. the more reliable motor and cognitive). Today's statement instead focuses on the more objective measures instead of the composite.
Earlier, high-dose responders reportedly didn't just stabilize but got better -- unclear how. The more recent findings report that the disability still progressed, but slowed relative to "propensity-matched" controls. (Note 4 of 10 controls opted to join the trial after 12 months.)
Both mention improvement in NfL (neurofilament light chains), which is an objective but nonspecific (and highly variable) measure of the degree of neuronal decomposition. The statement quantifies this at ~8% -- unclear if this level is convincing.
For such an invasive treatment for a slowly progressing, relatively rare disease, they're probably gathering and publishing data as fast as possible. The short-term results seem good, and it will be good to see long-term results over time.
It's possible some effect seen is due e.g., to immune adjuvants or something else during the therapy, and I would want experts to review the propensity matching.
I would be concerned that the micro-RNA produced either also binds with epitopes from other messenger RNA or induces some immune response. Remember, there's no reversal agent or half-life elimination for such genetic treatments.
So: room for hope but also for caution.
If the approach works, wouldn't this also be really good news for other progressive generic disorders?
>Remember, there's no reversal agent or half-life elimination for such genetic treatments.
Another virus that removes/breaks the inserted gene?
The bane of most gene therapy research is lack of persistence. With how serious and morbid HD is, I’d guess patients will take their chances.
Huntington's is among the best candidates for a genetic cure: well known gene and mechanism, definitive pre symptomatic diagnosis, slow progression.
But I am still reluctant. It's phase 1/2 (ie exploratory) and the phase 3 is the hard part that takes many years. Also it's disease slowing not stopping.
The FDA has already agreed that data collected from this trial could be used to support a future BLA, and UniQure said this morning they're moving ahead with the BLA. In other words, uniQure likely will not need to run another trial before obtaining FDA approval for AMT-130.
One of my mom's best friends when I was a kid had Huntington's. She was a few years older than mom, and her sons were a few years older than my brother and I. One of them chose to get tested. The other chose not to. I remember thinking that was foolish, but I was seven years old. In retrospect, it's strange that a seven-year-old was privy to such things.
I chose not to get tested when the test was new. I still haven’t, but I feel confident I dodged the bullet based on my age vs my relatives’ age of onset. I used to wonder if I could take the news of having HD. Now I wonder how life would have been different knowing for sure I don’t have it.
The Science Media Centre (UK) has a round up of expert reactions https://www.sciencemediacentre.org/expert-reaction-to-announ...
This is incredible, what a miraculous thing for sufferers and their families. Feels rare to see such a such an unquestionably good news story these days.
What part of this discovery was made thanks to NIH and/or NSF funding from the USA, or the NIHR in the UK?
I don't ask to strictly bring up politics, but instead to try and address the broad lack of understanding of how medical breakthroughs like this are made.
It's not done just by drug companies. The article says:
> UniQure says it will apply for a licence in the US in the first quarter of 2026 with the aim of launching the drug later that year.
That's true, but that doesn't talk about the tens to hundreds of research papers that have been published over likely decades to make this discovery a reality. And it doesn't talk about how much public money went into this discovery.
Many people reading this article probably have a vague idea that more than just this company was involved, but I feel it is not at all clear to the vast majority of people, since the vast majority of people are not involved in biomedical research.
I wish there was an easy way to figure out how many dollars, how many grants, how many researchers, went into achieving this breakthrough. And that the media would put that into news articles like this. Trace all the citations back a few orders, and I bet you'll find a massive number of NIH and NIHR grants.
There is unfortunately not more massive, bipartisan public outcry in the US over defunding the essential basic research the NIH does... and it's not new to the current administration, since it was attempted to be done back in 2017, too [1].
Scientists need better messaging or else we're going to stop having breakthroughs like this... and the breakthroughs are already going to slow down thanks to things like the $783 million in cuts to NIH grants that the US SCOTUS authorized in August [2].
1. https://pmc.ncbi.nlm.nih.gov/articles/PMC5468112/
2. https://www.scotusblog.com/2025/08/supreme-court-allows-trum...
The problem is the soundbite of some of these studies on the surface is ridiculous to lay people but even good studies with bad sound bites are used as weapons against science funding in the USA. The shrimp on a treadmill study is still used as argument against science funding today. https://www.npr.org/2011/08/23/139852035/shrimp-on-a-treadmi...
I always thought the shrimp was a random meme. This is even better!
My understanding is There's also studies of "duh!" Things, so theres a paper to cite instead of an assumption.
> Scientists need better messaging or else we're going to stop having breakthroughs like this
Sure, but it's really sad that scientists need to justify their funding to the public - they already spend so much time justifying it to the NIH and others for funding.
So many people have had their careers jeopardized by finding pulled mid-project. I am really concerned about our research pipeline, because my post-doc friends are all applying to jobs outside the US now.
This is where the funders really ought to step up.
A spokesperson from (say) NINDS really ought to be shouting to anyone who will listen about how excited they are to see their <many year>, <many dollar> investment in Huntington's pay off.
I'd love it if they highlighted some of the especially "weird" studies that went into this to demonstrate how important fundamental research is and how it goes in unexpected directions.
>Sure, but it's really sad that scientists need to justify their funding to the public
No, it's not sad that you need to justify the use of public money.
Unless you think it's sad that the military needs to justify their funding to the public to get more. The military could have a $2 trillion dollar budget but people would ask "why!" when it clearly doesn't need to be justified. Agree?
Here's another thing you'll no doubt agree on: we should fund science with no justifications - I say that we need a $100b invested into more research into the link between vaccines and autism. No justification needed, of course.
You missed the second part of that sentence buddy.
Your examples would match if every base commander had to write public messaging on their bases’ budgets and projects.
> No, it's not sad that you need to justify the use of public money.
You don't ask your plumber which computer network you should build for a fortune 500 company for the same reason I don't ask a computer programmer how to fix leaky pipes. People who study in an area actually have much stronger basis for having opinions rather than keyboard warriors who are upset that there mythological studies have been debunked time and time again. That's not science that is cult behavior. If you want to influence that decision process work in that field and provide justifications for that vaccine research and some new angle that's been missed. The American public is not a intelligent member of the medical community there opinion should not have the same weight in day to day operations as the medical community. They can allocate an amount we want to do research and should ask the NIH to do board research because that is effective and has an overwhelmingly strong record having done the background research for basically ever medical advancement made for a long long time.
So, no I think we should allow a panel of experts to evaluate what is worth funding in research. Give the NIH a budget to hire a panel of field experts like they have been for a long time and fund research that panel says is worth it. Autism and vaccine linkage is studied and has been shown several times to have no strong correlation with vaccination. The idea we need to study that more is stupid and experts say it is stupid because it steals funding from actual research into other environmental factors that haven't been studied yet. Maybe its PFAS chemicals maybe its something else.
That's a fantastic way to fall victim to grift. Your "panel of experts" can easily be as biased as anyone else.
When you give people vast authority on the basis of their expertise (even assuming the expertise is genuine), anything that challenges it becomes not a novel idea worth exploring, but a direct challenge to their authority.
Planck's principle- that science advances one funeral at a time- is rather apropos here.
We even do not need to calculate NIH grants; I am pretty sure that all databases that were used here are from NCBI. If there were no NIH, all research would be impossible in modern biology.
I think it is a UK study. It actually has been going on for a number of years, I've seen one of the PIs giving a number of big conference talks (Tabrizi) for a while
I'm pretty sure some of it is direct funding by governmental agencies, but even if that wasn't the case, all the basis of the theory, and the groundwork was laid by researchers and universities using those grants. You need public money for a healthy society
It's standing on the shoulders of giants, and the one on top gets to reap all the benefits.
Even that quote is a bit of a disservice to modern science: it's a massive pyramid made of thousands and thousands of individual contributions, including many bits of deep background and outright "failures".
Biology is tough in that you can't just "reason" your way to success; it often really does require trying something to see if an approach works.
There's little money to be made with HD. It's a 1 in 30,000 disease. There's been little reason for anyone other than state sponsors to support its treatment. Add this to the reason's to be disgusted by capitalism. Spoken as a widower of an HD wife.
I'm sorry to hear about the passing of your wife.
How common a disease is doesn't have much to do with treatment efforts. Cystic Fibrosis has practically been cured by Big Pharma and only ~40,000 people in the entire US have it.
That is because the Cystic Fibrosis foundation funded some of the research and drug development to make the first treatment possible. They had to essentially operate in a VC model to get the treatments that these CF patients need.
https://www.cff.org/about-us/our-venture-philanthropy-model
Most disease categories have advocacy and funding groups, with varying amounts of success. The point is that rare diseases get new treatments all the time from private for-profit firms. In fact, orphan diseases are extremely profitable, and the FDA offers fast tracked approval decisions, making them an enticing niche to focus on.
It really has nothing to do with capitalism. There are special grants in the US for researching rare diseases, specifically to ensure money isn't the barrier.
As an aside because I'm pedantic about the language, apostrophes are never used to show pluralism.
I am scared that special grants to research rare diseases will go away, too.
If we're trying to figure out what the most benefit for each taxpayer dollar is, then a rare disease won't win out over, say, cancer research.
Someone may consider researching a rare disease as "waste," even though to everyone including the previous poster who is a widow because of HD, it is far from a waste.
When there is not much of a profit motive to do something - whether going to the moon or fighting a rare disease - public money is the best way to do it. And even throwing a fairly small percentage at it can create big achievements.
And that's one reason I'd like to see how much money and time went into this. We might be surprised that it's fairly small in the grand scheme of biomedical research costs!
> apostrophes are never used to show pluralism.
in Dutch they are for some words, e.g., 1 ski, 2 ski's. i have no idea how that arose historically.
The Nords are a pox upon us all. TIL though, thanks - I probably should've been clear I only meant in English :)
Medical progress has been insane in the last few years through technological breakthroughs. It's not out of reach to think that most types of cancers will be curable 20 years from now on.
I think its like WW2, loads of amazing tech came from war. Covid was a bit like that for bioTech.
Let's hope the defunding of medical research can stop so this can become true
it's great, it feels like the first mRNA vaccine opened a dam.
More information on the approach: https://www.uniqure.com/programs-pipeline/huntingtons-diseas...
> AMT-130 consists of an AAV5 vector carrying an artificial micro-RNA specifically tailored to silence the huntingtin gene, leveraging our proprietary miQURE™ silencing technology. The therapeutic goal is to inhibit the production of the mutant protein (mHTT)
and the actual announcement: https://uniqure.gcs-web.com/news-releases/news-release-detai...
> 75% slowing of disease progression as measured by Unified Huntington’s Disease Rating Scale (p=0.003)
> 60% slowing of disease progression as measured by Total Functional Capacity (p=0.033)
> 88% slowing of disease progression as measured by Symbol Digit Modalities Test (p=0.057)
> 113% slowing of disease progression as measured by Stroop Word Reading Test (p=0.0021)
> 59% slowing of disease progression as measured by Total Motor Score (p=0.1741)
It always seemed that an mRNA treatment was going to be the way forward for treating HD, speaking as an HD widower.
And here my government is actively working to suppress mRNA therapies because of fucking politics. Fuck them.
This isn't an mRNA treatment. The m in mRNA stands for "messenger", not micro. mRNA covid vaccines don't mess with the genome anything like this treatment does, and indeed, this treatment is much more dangerous than any vaccine would be.
Thanks for sharing this information. Do you (or anyone else here) know if these trends might be expected based on how the treatment works? For example, given than the treatment is only injected into certain parts of the brain, could we expect that some aspects of the disease will be treated better than others?
Why does it have to be delivered through brain surgery?
The major hurdle of current gene therapies is delivery to the tissue where the defective gene product is causing damage. For instance lipid nanoparticles are only being used to deliver gene therapies to the liver, because if you inject them they just end up there and not much anywhere else. In this case they are using an virus called "adeno asociated virus 5" (AAV5), which does not naturally infect the brain AFAIK. The blood brain barrier (basically just extra impermeable blood vessels), as well as other immunological features in brain tissue, evolved specifically to keep the brain as unaffected as possible from anything bad going on in the body, seeing as any infection/poisoning of the brain is varying degrees of catastrophic and would easily kill you in the ancestral environment.
I don't know the details of why AAV5 in particular is their vector of choice in this case, but for whatever reason thats what they've gone with. AFAIK there are no viral or other vectors that consistently infect all brain tissue when injected/ingested, so maybe that's just the best option available. Anyways, it seems that in order to get it to the actual brain tissue that is damaged by the huntington protein (all of it? One particular area?), the best way is to inject it where it needs to go. If you could just pump it into the CSF that would perhaps make things a little bit more tolerable, seeing as you could then just do a spinal tap and inject it that way, but apparently that doesn't work. Or maybe a generalized AAV5 infection has more side effect then targeted injections. Just speculating here.
I guess it needs to get across the blood-brain barrier. But that shouldn’t take 10+ hours of surgery, I don’t think.
Surgery can be slow, and brain surgery doubly so.
The brain is slightly elastic, so you'd want to advance a needle glacially slowly (microns/second) into it so it ends up at the right position. The injection itself is also done slowly (microliters/minute) so you don't cause pressure damage.
They might also do some intraoperative imaging (some ORs have MRI or CT machines), which slows things down, and of course there's tons of cleaning and repair work afterward.
I’m assuming the viral vector can’t pass the blood-brain barrier.
But it doesn’t take 10+ hours to surgically get a virus across the blood-brain barrier, right?
The video specifies that the drug is infused over 8-10 hours. Probe placement - again, as depicted in the video, because I don’t see a real methods section - should take about 1-2 hours. The video isn’t clear if this is interactive MRI or just a preop scan that is then loaded into a stereotactic navigation system in a regular operating room, but the former would add another hour at least. MRI is not fast.
The brain-blood barrier typically only allows small, non-polar molecules to pass through into the brain, which complicates a lot of neuro/psych treatments.
Guessing: bypassing the blood-brain barrier.
What does 113% slowing mean? I thought if the speed is x then 80% slowing means the speed is now 0.2x
Perhaps it means the effects of the disease are actually reversed?
"The data also shows the treatment is saving brain cells. Levels of neurofilaments in spinal fluid – a clear sign of brain cells dying – should have increased by a third if the disease continued to progress, but was actually lower than at the start of the trial."
What do those progression numbers mean in terms of outlook? For example, if someone is treated before showing symptoms (as they know they inherit it) is the progression slowing enough to give them a normal life expectancy and quality of life?
It’s covered in the article
>It means the decline you would normally expect in one year would take four years after treatment, giving patients decades of "good quality life", Prof Sarah Tabrizi told BBC News.
>The first symptoms of Huntington's disease tend to appear in your 30s or 40s and is normally fatal within two decades – opening the possibility that earlier treatment could prevent symptoms from ever emerging.
I don’t think this quite answers the curiosity of whether starting treatment e.g. at birth would virtually eliminate morbidity, or whether it only slows the decline once it has started.
Consider that the disease typically manifests in your 30s — does this mean it would begin 4x later (and thus basically never manifest), or that your 15 year progressive decline from ~35-50 would take 4x longer (giving you a normal lifespan, albeit perhaps with some limitations in your later years)?
To me, as an HD widower, it would have meant that my dead wife would had lived until 2043 and had a decade more of a mostly normal life.
> In the UK, the NHS does pay for a £2.6m-per-patient gene therapy for haemophilia B.
A misleading data point. This group of people were treated so poorly by the state that something had to be done. I don’t think this is setting a benchmark.
https://haemophilia.org.uk/public-inquiry/the-infected-blood...
Don't often comment on HN but have to point this out as a med student in the UK: the cost-benefit roughly works out for those in favour of giving the therapy when the alternative is a lifetime of coming to hospital 3 times a week for Factor IX infusions, and the additional cost of stays in hospital for bleeds/haemarthroses and the complications thereof. Of course, this also ignores the human cost, particularly the extra care/stress around avoiding cuts/bruises in every aspect of life. In this respect these gene therapies appear lifechanging for those who suffer from the disease. [1]
I will also say I know the team who wrote the guidelines for use of these therapies. I believe they were mostly finished before the infected blood scandal became a big story. Politics didn't come into it.
[1]: https://www.bbc.co.uk/news/articles/c4nnn51rdrzo
Wow. Just an incredible medical development
Tearing up at this.
I lost my first wife to HD in 2013. She was one of the lucky few whose optimism and love of humanity stayed with her through to the end.
If there is a God, I'll never accept it as "loving" as HD is as cruel a slow torture as it comes.
EDIT: Also, a Trump NIH would never have done the years of work to lead up to this sort of treatment. They've been working to suppress mRNA-based treatments because of politics.
Get your politics out of good science, you heartless assholes.
Quick skimmed, is there a peer reviewed paper?
I don't see one yet -- but the main people mentioned in the article have a long publication record on Huntington's. This trial has been going on for a while and this is an interim media report. I don't think they've reached an endpoint yet.
I believe this is the clinical trial they are reporting on: https://clinicaltrials.gov/study/NCT04120493
This trial also appears be open at UCSF...
Awesome
It is strange times as I watch House MD series for first time
Unfortunately this discovery is coming a little late for 13
"If one of your parents has Huntington's disease, there's a 50% chance that you will inherit the altered gene and will eventually develop Huntington's too."
Have they never heard of genetic diagnostics? For example with a combination of preimplantation generic testing and in-vitro fertilization you can prevent passing on known genetic mutations to the next generation.
While technically possible, that option isn’t really available to most people. Tho I suppose 17 hour brain surgery with gene therapy is also not available to most people, so fair enough.
Anyway, they’re just describing the heritability of the disease there.
An optimal society would provide no-cost embryo screening and IVF to couples with the gene for HD, because that cost is certainly far <50% of the lifetime cost of living with HD in treatment costs, lost income, and lost QALY's.
I hope that we can work towards such a society.
(And of course this research is still worth doing to help the population who already have the illness)
Thats actually the case in New Zealand
This needs to be said, with Trump's cutting of College Basic Research Funds, many of these great breakthroughs will occur in other Countries. The US is/was the lead in biotech, it is now giving up its lead. That means one of the US largest industries, employing many with high pay, will shrink, due to US policies. In a few years it may not exist unless funding is restored soon. I personally know people who's grants have been cancelled due to these cuts.
But, glad to see other Countries funding their research. I wonder in face of one of the largest blunders made by the US, are they increasing funds ?
There’s another connection here, between trump and huntingtons.
Folk singer Woody Guthrie wrote the song “old man trump” about fred trump (donny’s dad), while suffering from huntingtons and living in a building owned by fred.
Even more: mRNA. Trump is trying to kill mRNA research because he sees it as tied to the politics of COVID.
Good science is not political. Politicians making it so are idiots at best and evil at worst. See also "Hanlon's Razor"
This is off topic, slightly but I think a good place to say this:
I wish the media outlets would mention the fact that at least one of the scientists in this post is an immigrant in the UK. (in this case I’m not sure 1st or 2nd gen)
In the current climate of anti-immigrantion rhetoric around the world, simple things like that might help a little with the perception of immigrants as freeloaders.
Just a thought.
This seems helpful, but I think the misattribution of a general "anti-immigrant" sentiment to immigration detractors is part of the problem.
Very few detractors in the west have any issues with highly qualified immigrants occupying scientific or research roles. Being opportunistic with which kind of immigrants one offers as Good is partly what's aggravating the issue. It's a radical kind of dismissiveness and denialism which is provoking people and ignoring their issues.
The broad western detraction against immigration at the moment is targeted at specific waves of mass immigration with specific compositions that have specific effects on the places those immigrants have landed.
People are primarily concerned about the ability of state, social and corporate institutions to absorb immigrants at this pace and scale without significant zero-sum effects. And, in addition, the significant amount of state support segments of those populations (eg., esp. asylum seekers) have to receive at a time when gov. are under inflationary pressures, debt pressures, etc. and cannot service their own welfare obligations.
Going, "oh but we get good cancer research from immigration!" is so dismissive to these concerns, that the backfire against this messaging is one of the major contributors to people's disaffection.
The idea that people need to be told that there are people who want to immigrate that are in our national interest to absorb, is just plainly absurd. This is uncontroversial and obvious.
I'll point out that educational achievement and upward economic mobility in second-generation immigrants is generally excellent. That holds true regardless of their parents' education or income level.
Over a longer view, accepting a construction worker now, because his daughter might cure cancer later, might be an advantageous bargain.
"Very few detractors in the west have any issues with highly qualified immigrants occupying scientific or research roles." Laughable, these 'few' reside in the highest seats of power and exist among the 'advisors' to the cabinet.
"It's a radical kind of dismissiveness" People keep telling me I'm wrong in the wrong way, if they were nicer I'd consider their opinions. This is an irrational position to stake out, it should go without saying.
"The broad western detraction against immigration at the moment is targeted at specific waves of mass immigration with specific compositions that have specific effects on the places those immigrants have landed."
This is such a laborious way to say "poor, brown or both". Do you get tired of dancing around like this?
"People are primarily concerned about the ability of state, social and corporate institutions"
If you were actually "concerned", you'd advocate for punishing institutions that use cheap (or 'free' if you steal their passport) immigrant labor, rather than targeting those that arrived to fill those positions. Do you have an understanding of why this never happens?
It goes without saying that much of the 'specific immigrant labor' you despise is used to fill the welfare obligations related to care-taking that you are also deeply concerned about.
"dismissive to these concerns" I was assured that 'tone policing' was the domain of the 'woke', yet here it is a second time in the same comment.
"uncontroversial and obvious." You might want to speak to your fellow travelers about which are 'good' immigrants and which are 'bad'. It suffices to say that if they agree in general, but disagree about which group is good, then it is not actually 'uncontroversial'.
I personally don't care about immigration. I have yet ever to be negatively affected by it, and have tended to find immigrants more pleasant than my own citizens. I'm more worried about our aging, obsese, immobile populations who arent breeding, and need 3-to-1 worker ratios to support, that we cannot provide. I am, personally, relatively open borders -- for at least that reason. I am more motivated by welfare demands and geopolitics, both of which benefit from larger active populations in our borders.
However, what I want doesn't really matter. It's a democracy, and half of a country will not be ignored. You either listen and find some way to give them what they want in the least objectionable way; or they will take what they want, and take revenge on you for your obstinacy. They will do to you what you insist on doing to them: not listening to you at all as they enact the most extreme form of policies which they agree with.
You speak as if your views express those of a powerful majority who will impose them on your detractors. This a dangerous power fantasy. The castle has been ransacked, the draw bridge is down, and you've no army left.
You either draw up terms of surrender, or they will be drawn up for you.
> The castle has been ransacked, the draw bridge is down, and you've no army left.
Well, no, not that either. You're making the same mistake from the other side. The side you say has "no army left" also is half the country. And that half of a country will not be ignored either.
Both sides demand to be listened to, but neither side is willing to compromise or to admit defeat, even temporarily.
So I expect that power will continue to swap back and forth, that when in power both sides will do their best to implement their plans, and when they are out of power they will suffer the other side's vengeance for their obstinacy. I don't see it improving soon. I suspect we'll see at least another two election cycles of this viciousness.
Maybe. Certainly if detractors go to excess then they'll breed resentment from the supporters, and round and round.
At the moment though, i think there's lots of people speaking as if it were 2022 and all of that ammunition has now been expended and the stores are bare
This isn't addressing the main point of your comment, but a side issue:
> Very few detractors in the west have any issues with highly qualified immigrants occupying scientific or research roles. Being opportunistic with which kind of immigrants [...].
I'm not a detractor of any individual immigrant, certainly not a very skilled one. But I am dumbfounded when I hear people say how wonderful immigration is "for the economy", "for the health system", etc., because we can lure all these bright people over from poor countries with offers they can't get at home.
Like... Mozambique needs good doctors and nurses too. Sudan needs good engineers. Syria needs entrepreneurs.
I don't begrudge the immigrant one bit for moving to get more money or a better life or whatever it is that motivates them, and they sure do contribute to the place they move to. But harvesting the best and brightest minds from poor countries on an industrial scale isn't something that sits too well for me at all. The merits and effects could be debated and disagreed, but it certainly requires much deeper thought than just the greed driven "good for my economy, good for my healthcare, good for me" type quips.
I actually think of it as neocolonialism. The most valuable resource in this day and age is people, and wealthy countries are plundering the human capital from the poor ones like they did with resources in previous centuries. Throwing a bit of charity at them whenever the next outbreak or famine or civil war rolls around doesn't make up for it.
I strongly disagree with this. While I am generally pro-immigration, injecting a political view into an article ostensibly about a new scientific discovery is how science loses credibility and objectivity. See the "trust the science" phrase weaponized during COVID in the US.
Let people draw all the inferences they want about the origins of the scientists involved, but a hamfisted paragraph about a.b scientist being an immigrant from y country does not have a place here.
Also it sends a message that only scientists are welcome as immigrants. There's millions of immigrants who contribute positively to the society, who aren't scientists.
> Also it sends a message that only scientists are welcome as immigrants.
This is not a conclusion I would make without trying to make an anti-immigrant argument.
I have a feeling this migrant didn’t get off a dinghy with all the other engineers and scientists so probably isn’t raising a lot of concern for most. Conflating “immigration is too high” with “anyone who thinks immigration is too high is a racist who thinks they are all freeloaders” doesn’t work anymore, no amount of media propaganda will change that.
This is disingenuous.
There has been a strong push back against illegal-immigration in the west. The media has completely reframed the discussion to "How can they be opposed to immigration" because if they said "how can they be opposed to illegal-immigration" their argument would fall apart pretty quickly.
No one with a brain is arguing that immigration doesn't provide tremendous value.
>How can they be opposed to immigration" because if they said "how can they be opposed to illegal-immigration" their argument would fall apart pretty quickly.
Isn't this also disingenuous? A significant proportion of the groups against immigration are against any immigration and have been floating trial balloons for "remigration" for non-white citizens.
Has anybody thought about changing the name from Huntington's disease to after the lead person or team that found the cure?
Is that a thing that happens in the medical field?
Are we going to rename Polio to The Bill & Melinda Gates Foundation?
Polio is short for Poliomyelitis, but I'd call it Jonas Salk disease.