With ‘great promise’ for treating Huntington’s disease, four drug programs press ahead (Part II)

 

At the recent 20th Huntington’s Disease Therapeutics Conference in February, four pharmaceutical companies provided updates on their key clinical trial programs, demonstrating that they had overcome basic safety hurdles and revealing plans to have their drugs potentially approved as therapies (treatments) for delaying the progression of HD symptoms.

 

All four programs use drugs to lower the amount of harmful mutant huntingtin protein in the brain cells of patients.

 

In the first of two articles on these programs, I described the projects of PTC Therapeutics and Roche.

 

In this article, I cover the presentations made by Wave Life Sciences and uniQure.

 

These updates took place during the conference’s first session on February 25, the first day of the three-day event.

 

In a post-conference interview Robert Pacifici, Ph.D., the chief scientific officer for CHDI Foundation, Inc., the conference sponsor, told me that that there is “great promise” regarding these four programs’ potential HD therapies.

 

Attacking only the bad protein, preserving the good one

 

Jane Atkins, Ph.D., Wave’s senior vice president for portfolio strategy and program management, provided an update on the company’s groundbreaking program.

 

Like Roche’s tominersen, Wave’s WVE-003 is an antisense oligonucleotide, an artificial strand of DNA that blocks or lowers the production of the huntingtin protein.

 

However, whereas tominersen and PTC’s votoplam (a splicing modulator) reduce both the mutant and normal huntingtin protein, Wave’s drug is uniquely allele-selective: it attacks just the bad protein and allows the good one to carry out its essential actions unhampered.

 

Clinical trials for drugs usually go through three phases. If the last is successful, the drug can receive approval from the U.S. Food and Drug Administration (FDA).

 

In 2021, in small clinical trials, precursors WVE-120101 and WVE-120102 failed to reduce the bad protein. Wave then developed WVE-003, which entered a clinical trial that same year.

 

At the conference, Dr. Atkins reported that in June 2024 the Phase 1b/2a SELECT-HD study of WVE-003 produced positive results, “including the first allele-selective silencing in any disease.”

 

“A growing body of literature” supports the importance of the good huntingtin protein, she explained, as it sustains the health of brain cells.

 

Slowing the shrinking of the brain

 

In the clinical trial, the bad protein was reduced as much as 46 percent in some volunteers, exceeding the overall goal of 30 percent, Dr. Atkins said, noting that the drug was safe and well-tolerated.

 

Significantly, the study also demonstrated a slowing in the atrophy (shrinking) of the caudate, a key part of the brain dramatically affected in HD, leading to a decline in cognition, function, and movement, Dr. Atkins said. Such atrophy occurs before symptoms appear, she noted, so being able to observe this change early makes the atrophy a good measure of a drug’s effectiveness.

 

The slower shrinking “was the first time this was shown in the clinic,” Dr. Atkins said. “We were super-excited to see this.”

 

With these promising results, Wave plans to put WVE-003 into a combined Phase 2/3 clinical trial, Dr. Atkins said. The company later this year expects to seek FDA approval of the trial. Wave proposes to use caudate atrophy as a primary endpoint, that is, a main measure of WVE-003’s effectiveness.

 

Wave is also investigating WVE-003’s potential impact on somatic expansion, Dr. Atkins said. Somatic expansion is the tendency of the mutant huntingtin gene to continue expanding over time. Many scientists now believe that this process triggers HD symptoms.

 

Somatic expansion is understood as a two-step process where expansion of the gene (step 1) triggers disease (step 2) that drives HD. Wave believes that lowering the bad protein selectively (with WVE-003) is likely to address the second step.

 

As with tominersen, WVE-003 is administered via a spinal tap. Votoplam is a pill.

 

 

Dr. Jane Atkins of Wave Life Sciences displays a slide demonstrating the slowing of caudate atrophy in the WVE-003 clinical trial (photo by Gene Veritas, aka Kenneth P. Serbin).

 

uniQure drug slows disease progression in trial

 

David Margolin, M.D., Ph.D., uniQure’s vice president for clinical development, gave a presentation on the latest developments regarding AMT-130, the firm’s gene therapy drug that reduces the levels of both the good and bad huntingtin protein.

 

In the uniQure clinical trial, a neurosurgeon injects AMT-130 directly into the brains of the volunteers under the guidance of an MRI. As a gene therapy, AMT-130 requires just this one application. (Watch the uniQure video about how AMT-130 is administered here).

 

This small, long-term uniQure Phase 1/2 trial began in 2020. As of April, the number of participants had reached 45, including people from the U.S. and Europe.

 

An interim analysis in mid-2024 showed that “AMT-130 high dose … strongly and significantly reduced disease progression,” Dr. Margolin pointed out. Another analysis found “substantial reduction in risk of clinically meaningful worsening,” he added.

 

As patients continue to go through the trial and beyond, with follow-up, “with every data cut we see… a promising treatment effect becoming more and more evident,” Dr. Margolin said.

 

 

Dr. David Margolin of uniQure presents data illustrating the slowing of HD disease progression in the AMT-130 clinical trial (photo by Gene Veritas).

 

Hoping to accelerate approval

 

The positive results have led uniQure to seek acceleration of FDA approval for AMT-130.

 

Because of HD’s status as a rare disease, in 2017 uniQure received the financially beneficial orphan drug designation from the FDA for AMT-130. In 2019, FDA granted AMT-130 fast track status to further facilitate development of the drug and expedite review.

 

As explained by Dr. Margolin at the conference, in 2024 the FDA defined AMT-130 as a regenerative medicine advanced therapy (RMAT).

 

This category includes life-threatening diseases such as HD. Dr. Margolin said it is applicable to new kinds of drugs such as gene therapy, cell therapy, and tissue-engineered products, and it further accelerates FDA review.

 

In achieving this designation, uniQure presented to the FDA the data from the Phase 1/2 trial, and the FDA agreed that this data can serve as the primary basis for a drug application, Dr. Margolin said.

 

Dr. Margolin indicated that this determination means that uniQure will not need to put AMT-130 into a Phase 3 trial.

 

“An additional investigational study will not be required,” he emphasized. “That accelerates by several years the timeframe in which AMT-130 might become available to a wider U.S. cohort of patients.”

 

Swaying the FDA to be more flexible

 

Because of the lack of therapies that modify the course of this rare and devastating disease, the uniQure project and the company’s dialogue with the FDA have indicated the willingness of the agency to allow flexibility in clinical trial programs and a faster timeline.

 

Dr. Margolin’s talk title included the phrase “alignment on a US Regulatory Path Via RMAT.” Alignment with the FDA could lead to an “accelerated approval” for AMT-130, he observed.

 

Dr. Margolin asserted that uniQure’s dialogue with the FDA “has meaningfully advanced HD regulatory science.”

 

In response to a question from Dr. Pacifici about the negotiations with the FDA, Dr. Margolin stated that uniQure hopes that the lack of disease-modifying therapy is “swaying FDA to be more liberal than they have been in the past.”

 

Dr. Pacifici asked what additional studies uniQure will conduct if it secures the accelerated approval, which would still be only conditional.

 

Dr. Margolin replied that uniQure will discuss that matter with the FDA.“Importantly, even an accelerated approval means the drug will be available to patients,” Dr. Margolin stressed. “It does constrain promotional materials in certain ways, but would have no relevant impact on its potential availability and accessibility to U.S. patients.”

 

A Breakthrough Therapy designation

 

AMT-130 gained RMAT designation because it is a gene therapy. Since the conference, the AMT-130 program has made yet further progress.

 

On April 17, uniQure announced that the FDA granted Breakthrough Therapy designation to AMT-130.

 

“Receiving Breakthrough Therapy designation underscores both the urgent need for effective treatments for Huntington’s disease and the encouraging interim data demonstrating that AMT-130 has the potential to slow disease progression,” said Walid Abi-Saab, M.D., chief medical officer of uniQure, in a press release. “We look forward to working closely with the agency to bring AMT-130 to the Huntington’s disease patient community as quickly as possible.”

 

As explained in the press release, Breakthrough Therapy designation for AMT-130 means that the drug “may demonstrate substantial improvement over available therapy on a clinically significant endpoint(s).” 

 

The firm expects to provide a further FDA update this quarter. In the third quarter, it aims to present data on AMT-130 to support its potential drug application submission.

With ‘great promise’ for treating Huntington’s disease, four drug programs press ahead (Part I)

 

At the recent 20th Huntington’s Disease Therapeutics Conference, four companies provided updates on their key clinical trial programs, demonstrating that they had overcome basic safety hurdles and revealing plans to have their drugs potentially approved as therapies (treatments) for delaying the progression of HD symptoms.

 

PTC Therapeutics, Roche, Wave Life Sciences, and uniQure made 15-minute presentations. This clinical trials update took place during the first session on February 25, the first day of the three-day event.

 

Sponsored by the nonprofit CHDI Foundation, Inc., the largest private funder of HD research, the conference took place in Palm Springs, CA.

 

Possible impact

 

All four programs use drugs to lower the amount of harmful mutant huntingtin protein in the brain cells of patients. Blocking the bad protein could help prevent the death of brain cells, a major driver of HD.

 

In a post-conference interview with me, CHDI Chief Scientific Officer Robert Pacifici, Ph.D., said that the companies’ plans to move their programs towards drug approval is “great news.”

 

“All of them expressed their commitment to moving forward with their interventions, and that’s not trivial,” Dr. Pacifici said. “That means a lot of time, a lot of money invested on their part. They wouldn’t be doing it if they didn’t think there was great promise there.”

 

Each firm has overcome the basic safety hurdles necessary for moving to a Phase 3 clinical trial, the final step before the U.S. Food and Drug Administration (FDA) approves a drug, Dr. Pacifici added.

 

This article, the first of two, focuses on trials from PTC and Wave. Part II will examine the Wave and uniQure updates.

 

Votoplam, a potential pill for HD

 

With 60 companies represented at the conference, CHDI selected those “that had something new to say” in terms of clinical development, Dr. Pacifici told the attendees.

 

Amy-Lee Bredlau, M.D., PTC’s senior medical director, began her talk on the company’s huntingtin-lowering drug by noting progress: the compound, PTC518, is now called votoplam, a nonproprietary drug name assigned by PTC’s new, larger partner on the project, the international pharmaceutical firm Novartis.

 

“I think this is a really great collaboration,” Dr. Bredlau said.

 

As Dr. Bredlau explained, votoplam is a huntingtin splicing modulator, reducing the production of both the mutant and normal huntingtin proteins.

 

In contrast with riskier delivery methods, some presented in the session, votoplam is a pill. That makes it easy for patients to take the drug.

 

CHDI and PTC started the search for a huntingtin-lowering pill with a joint project initiated in 2018.

 

A delay in HD progression

 

PTC ran a successful Phase 1 clinical trial of votoplam in 2020 and 2021, providing initial evidence of safety and the lowering of the huntingtin protein.

 

At the conference, in an interim analysis, Dr. Bredlau presented data from the first 32 of the 156 volunteers enrolled in PIVOT-HD, PTC’s one-year global Phase 2 trial, which has verified the safety and tolerability of the substance. The first group of participants in PIVOT-HD began in 2022.

 

PIVOT-HD demonstrated that, by the third month, votoplam enters trial volunteers’ brains and lowers the huntingtin protein, she said. At month 12, the lowering was sustained. The trial also showed no spikes in neurofilament light chain (Nfl), a protein whose presence indicates degeneration of brain cells in diseases like HD. Scientists hope that lowering huntingtin will limit Nfl.

 

Significantly, Dr. Bredlau observed that these volunteers had a delay in the progression of HD symptoms, as indicated by several key clinical measures.

 

She said PTC is “very excited” about those trends, which “look very promising,” adding that “we’re really hopeful that we’ll see a strengthening of the signal at the end of the 12-month study,” when results from the remaining volunteers will be studied.

 

PTC will release full results of PIVOT-HD in this (second) quarter of 2025, said Dr. Bredlau, adding that the firm hopes that the results secure permission for a Phase 3 trial, to be run by Novartis.

 

Dr. Amy-Lee Bredlau of PTC Therapeutics presents data from the PIVOT-HD clinical trial demonstrating trends of a delay in progression of Huntington's disease symptoms (photo by Gene Veritas, aka Kenneth P. Serbin).

 

GENERATION HD2 fully in progress

 

Peter McColgan, M.D, Ph.D., global development leader for Roche, updated the pharmaceutical giant’s HD program. He focused on the Phase 2 trial of the huntingtin-lowering drug tominersen.

 

Tominersen is an antisense oligonucleotide – a “laser-guided missile” against HD – originally developed by Ionis Pharmaceuticals, Inc. Like votoplam, tominersen lowers both the normal and mutant huntingtin protein.

 

After Roche’s unsuccessful trial of tominersen in 2021, the company redesigned a less ambitious and more focused trial of the drug in people less affected by the disease. Called GENERATION HD2, it started in early 2023.

 

Dr. McColgan reported that GENERATION HD2, by January, had fully recruited its target of 301 volunteers at 70 sites in 15 countries.

 

“This is a massive achievement,” he said.

 

The trial will assess tominersen’s safety, the use of biomarkers (signs of a disease and a medication’s efficacy), and the drug’s effectiveness.

 

Tominersen is not a pill. It is administered via a spinal tap.

 

Roche aims to complete the trial by the end of 2026.

 

Dr. Peter McColgan of Roche with a slide showing the global recruitment for the GENERATION HD2 clinical trial (photo by Gene Veritas)

 

Roche’s multiple approaches

 

Dr. McColgan also described how Roche has expanded its focus to include other possible HD treatments and related research.

 

“We believe the fastest way to get treatments to patients is to pursue multiple programs in parallel,” Dr. McColgan said.

 

In collaboration with its colleagues at Spark Therapeutics – acquired by Roche in 2019 – Roche scientists are exploring other potential molecules for targeting HD. Spark specializes in gene therapies.

 

HD researchers continue to weigh the approach of drugs such as votoplam and tominersen, which lower both the mutant and normal huntingtin protein, versus those that attack only the mutant. The latter types are known as allele-selective. They leave the normal protein to carry out its essential actions unhampered.

 

Dr. McColgan said that Roche and Ionis are investigating an allele-selective antisense oligonucleotide.

 

Roche is also participating in the HD Regulatory Science Consortium. Using data from the original tominersen trial and other patient data, this collaboration seeks to improve the measurement of clinical trial volunteers’ performance in clinical trials, said Dr. McColgan.

 

Roche is also collaborating with CHDI to improve the measurement of Nfl (neurofilament light chain) as a key biomarker.

 

“Nfl increases across the stages of HD,” Dr. McColgan observed.

 

The latest news on tominersen

 

All clinical trials are regularly checked by an independent data monitoring committee.

 

Volunteers in the tominersen trial not on placebo have received either 60mg or 100mg of the drug.

 

On April 17 Roche issued a letter to the HD community stating that the committee overseeing the tominersen trial has found “no concerns … regarding participant safety or signs of symptom worsening with either tominersen dose.”

 

In addition, the letter said, “the 100mg dose was found to be more likely than the 60mg dose to result in clinical benefit. Therefore for the remainder of the study only the 100mg dose will be tested against placebo, and the 60mg dose will be discontinued.” Those receiving 60mg will now get 100mg.

 

“We are incredibly grateful to the 301 participants and their companions enrolled in GENERATION HD2,” the letter stated. “Each study visit contributes to collecting data that helps the entire HD research community learn more about tominersen, Huntingtin-lowering strategies, and the further understanding of HD.”

 

In Part II of this article I will report on Wave’s and uniQure’s clinical trial updates

 

(Disclosure: I hold a symbolic amount of Ionis shares.)

Savoring 20 years of my Huntington’s disease blog

 

This month I am celebrating the 20 years of this blog.

 

I began At Risk for Huntington’s Disease on January 10, 2005, wanting to “squeeze as much life into my days as possible” before experiencing the debilitating HD symptoms that led to my mother’s death a year later. Because I lived in what I called the “terrible and lonely HD closet” – fearful of genetic discrimination – I used the pseudonym “Gene Veritas,” “the truth in my genes.” That name reflected the fact that I had tested positive for the HD gene in 1999.

 

My mother died at 68, after two decades of debilitating symptoms, which was very painful to watch.

 

I turned 65 last month. By this age, I had expected to have full-blown HD, which would have left me unable to work, drive, or write.

 

But, according to my latest neurological checkup, I don’t yet have apparent HD symptoms!

 

In general, the more abnormal the gene, the earlier the age of disease onset. My mother and I have the same gene mutation, suggesting a similar disease path. However, although my mother’s symptoms started in her late 40s, one or more modifier genes, the functions of which were discovered a decade ago, have perhaps delayed my disease onset.

 

This article is number 336. Each day of good health is a blessing.

 

Gene Veritas (aka Kenneth P. Serbin) with his blog (photo by Regina Serbin)

 

The impact

 

In 2012, I exited the HD closet by publishing an essay – and using my real name, Kenneth P. Serbin – in The Chronicle of Higher Education. It was titled “Racing Against the Genetic Clock.” Going public opened new vistas of advocacy and enabled me to blog with greater transparency.

 

In December 2022. I published a detailed analysis of the blog in “Striving for a Realistic and Unapologetic View of Huntington’s Disease” in the Journal of Huntington’s Disease. It described how the blog has helped give voice to the HD community by exploring the major challenges faced by HD families, becoming a key reference for those families, and chronicling the quest to defeat the disorder.

 

As I observed, the blog has also “helped document the new and harrowing experience of living in the gray zone between a genetic test result and disease onset.”

 

At Risk for HD has addressed multiple topics including advocacy, caregiving, family trauma, coping strategies, genetic testing, discrimination, leaving the HD closet, participation in research and clinical trials, as well as religion, faith, and spirituality.

 

When my mother was diagnosed with HD in 1995 – two years after the discovery of the gene – little hope existed for treatments that could slow the progression of HD. However, in the past decade, advances in academic labs and biopharma firms have led to key clinical trials that show potential for affecting the course of HD and perhaps even a cure (click here to read more).

Telling the story of those complex developments has become a major focus of At Risk for HD. With the growing number of research projects, I have necessarily highlighted those that appear closest to producing actual drugs such as the Roche gene silencing program, which I have covered extensively.

 

In 2021, the first Roche trial showed lack of efficacy. In 2023 Roche started enrolling volunteers in a more focused trial to see if the drug might work at least in some patients. Other key trials are in progress or being planned.

 

Hoping for an HD-free world, savoring life

 

Writing the entries of At Risk for HD has given me great meaning and purpose, which researchers have identified as increasing well-being and positively impacting the course of the disease.

 

For now, I plan to continue blogging as long health permits – and until the quest for a cure is complete.

 

In February, I hope to attend the crucial 20th Annual HD Therapeutics Conference at the Parker Hotel in Palm Springs, CA. The conference is sponsored by CHDI Foundation, Inc., the largest private funder of HD research.

 

In 2011, I delivered the conference keynote speech before 250 scientists, physicians, and biopharma reps – a decisive step towards my complete exit from the closet in 2012 and chronicled in this blog.

 

I have described the conference as the “Super Bowl of HD research,” covered in many blog articles and videos of scientists (see, for example, this one).

 

With the rest of the HD community, I hope for the announcement of effective treatments. I very much look forward to reporting on progress.

 

Just as important is the need to savor life – another key lesson of my journey with the HD community, this blog, and my friends and family.

Ten years out of the terrible and lonely Huntington’s disease closet, as new research and investments offer hope for treatments

 

Ten years ago this month, I exited the “terrible and lonely Huntington’s disease closet” by publishing an essay on my plight and advocacy as an HD gene carrier in The Chronicle of Higher Education.

 

Fortunately, asymptomatic as I near 63, I continue to teach, research the history of the HD cause, and enjoy family milestones such as my gene-negative daughter Bianca’s graduation from college and my wife Regina’s and my 30th anniversary celebration – events that I feared HD would prevent me from appreciating.

 

As we approach Thanksgiving, my favorite holiday, I feel a profound gratitude to my family, friends, and colleagues at work and in the HD cause.

 

So I want to reflect on my journey since exiting the closet. I also want to report on new paths of research that could offer hope for what we in the HD community (and beyond) desperately await: effective therapies (treatments).

 

Becoming a more effective – and convincing – advocate

 

I started this blog in January 2005 under the pseudonym Gene Veritas. Having told my family’s story using my real name (Kenneth P. Serbin) in a widely read publication has enabled me to become a more effective – and convincing – advocate. I could now speak with full transparency about HD, provide an example for others still hiding in the closet, and build new partners in the fight to raise awareness and funds.

 

Before exiting the closet, I was sheepish about fundraising and other aspects of my advocacy, restricting my efforts to relatives and close friends who knew about my family’s struggles. After my exit, I became more self-assured.

 

In 2013, the Serbin Family Team in the annual Hope Walk of the Huntington’s Disease Society of America (HDSA) became the top fundraiser nationwide, taking in more than $16,000 in donations from dozens of generous supporters.

 

Collaborating with work colleagues

 

I most feared the consequences of revealing my story at my workplace, the University of San Diego (USD), because of concerns about discrimination. I knew HD gene carriers had been fired by their employers. My USD colleagues were shocked by my revelation.

 

However, those colleagues ultimately showed great solidarity. By advocating about HD at work, I attracted new allies, boosted awareness, and served as a bridge to resources for those facing HD (click here to read more).

 

My advocacy reached a milestone in May 2017, when I traveled with my family to Rome to help represent the U.S. HD community at HDdennomore: Pope Francis’ Special Audience with the Huntington’s Disease Community in Solidarity with South America. My trip was sponsored by several USD units, including the Frances G. Harpst Center for Catholic Thought and Culture, directed by Jeffrey Burns, Ph.D. Later that year, the center hosted a talk by me exploring the social, scientific, and religious meaning of this extraordinary the papal event.

 

Francis became the first world leader to recognize HD, declaring that it should be “hidden no more.”

 

 

Business card of Kenneth P. Serbin (aka Gene Veritas) shared at scientific conferences and with anyone interested in learning about the HD cause (photo by Gene Veritas)

 

In early 2020, before the coronavirus pandemic exploded in the U.S., Dr. Burns and I collaborated in a screening at USD of the short documentary Dancing at the Vatican, which features HDdennomore. In late 2020 I helped promote the launch of the film online.

 

This year, I fulfilled one of the long-term goals outlined in my 2012 coming-out essay: shifting my academic focus from my beloved Brazil to the history of the quest for HD therapies.

 

With support from USD and The Griffin Foundation, I submitted the project for funding to the National Science Foundation. Although I was not granted funding initially, the foundation’s program officers encouraged me to reapply.

 

PTC’s helpful infusion of new capital

 

We all anxiously await effective therapies. Over the past ten years, I have increased my attention to the intensification of the efforts by labs and biopharma companies to achieve success.

 

The last several years of such efforts have felt like an emotional roller coaster for the HD community, though that’s not unusual for a difficult endeavor like drug development, which involves both positive and negative clinical trial results and cumulative learning.

 

Last month, I reported on the abrupt shutdown of the firm Triplet Therapeutics, Inc., which had explored a much-awaited proposed therapy. I also noted that the U.S. Food and Drug Administration (FDA) had requested that PTC Therapeutics, Inc., provide further information before allowing a clinical trial of its HD drug, PTC518.

 

But there was also potential good news.

 

Despite the FDA-imposed delay in a U.S. trial, PTC has reached a financing deal with the investment firm Blackstone, based on PTC’s plans to expand its drug pipelines to other diseases. The deal, which in the best-case scenario could infuse $1 billion of investment, puts “PTC in a strong position to continue to execute our mission,” Emily Hill, PTC’s chief financial officer, stated in an October 27 press release.

 

PTC518, a so-called splicing molecule, is also classified as a small molecule drug. It is thus taken as a pill – in contrast with riskier, less convenient delivery methods used by other HD programs, which include brain surgery and spinal injections. Early next year, PTC will furnish an update on the PTC518 trial. The trial continues in several European countries and Australia.

 

Roche diversifies its approach

 

In March 2021, Roche reported disappointing news: its gene silencing drug tominersen (an antisense oligonucleotide, or ASO) failed to improve symptoms in volunteers in the firm’s GENERATION HD1 Phase 3 (large-scale testing of effectiveness and safety) trial. This September, Roche announced GENERATION HD2, a less ambitious, Phase 2 (effectiveness, dosage, and safety) retesting of tominersen to start in early 2023.

 

In its presentation of GENERATION HD2 at the annual Huntington Study Group annual meeting in Tampa, FL, on November 3, Roche revealed that it has expanded its pursuit of HD therapies by embarking on two preclinical (nonhuman) projects.

 

Whereas tominersen targeted both the normal and abnormal (expanded) huntingtin gene, Roche will now seek to develop a drug that aims at just the abnormal gene. (Wave Life Sciences already reported in September that it had successfully targeted the abnormal gene in an early stage clinical trial, although yet without evidence of impacting symptoms.)

 

Like PTC’s program, Roche’s second preclinical program will aim at developing a splice modifier that would be taken orally.

 

“The medical need in the HD community is clear and we recognize that a range of different therapeutic approaches are likely to be required,” Mai-Lise Nguyen, of Roche’s Global Patient Partnership, Rare Diseases, wrote me in a November 3 e-mail.

 

 

A slide from the Roche presentation at the 2022 Huntington Study Group meeting illustrating the firm's three approaches to attacking Huntington's disease (slide courtesy of Roche)

 

Another ten years?

 

After the major disappointment in the shutdown of Triplet, I was heartened to learn of Blackstone’s massive investment in PTC, which indicates that both firms see PTC’s potential treatments as viable and profitable.

 

I was also encouraged to see how Roche, in the words of its Huntington Study Group presentation (see photo below), has augmented its HD research portfolio, reflecting a “commitment to advance scientific understanding and drug development in HD through continued collaborations” with HD organizations.

 

With the ingenuity of HD scientists and the dedication of HD family members to participation in research, the march towards potential therapies continues. I hope to chronicle continuing progress over the coming years not only free of the “HD closet,” but, thanks to new therapies, free of significant HD impacts, as well.

 

A slide from the Roche presentation demonstrating the commitment and collaborations involved in the quest for HD therapies (slide courtesy of Roche)