Tag Archives: Huntingtons

Breakthrough Gene Therapy for Huntington’s Disease Demonstrates Promising Results in 2025

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Huntington’s Disease: A Gradual Destruction of Brain Cells.

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This year marks a watershed moment in addressing Huntington’s disease, a rare yet impactful form of dementia. Researchers have achieved a groundbreaking milestone with an experimental gene therapy that effectively slows the advancement of this debilitating condition for the first time ever. This represents a significant breakthrough in the search for viable treatments.

According to Sarah Tabrizi from University College London, “This is a monumental step forward,” referencing the successes observed in late-stage trials earlier this year. “We now understand that Huntington’s disease is potentially treatable, presenting us with a tremendous opportunity.”

Huntington’s disease stems from a genetic mutation that causes the normally benign huntingtin protein to cluster into harmful aggregates within the brain. This accumulation leads to gradual deterioration of brain cells, hindering movement, cognitive function, and emotional well-being. Currently, no approved treatments halt the progression of symptoms, and care primarily focuses on supporting affected individuals.

The novel treatment, dubbed AMT-130, directly targets these abnormal proteins by delivering genetic instructions to brain cells, instructing them to produce molecules that inhibit protein formation.

In a recent investigation, Tabrizi and her team administered high doses of AMT-130 to 17 patients with Huntington’s disease. They evaluated changes in cognitive, motor, and daily functioning over a three-year period compared to a control group. Preliminary results released by the drug’s manufacturer, biotechnology firm uniQure, indicate a remarkable 75% average slowdown in symptom progression.

“Huntington’s disease treatment has faced numerous challenges in recent years,” stated Sarah O’Shea at Mount Sinai in New York, who was not involved in the study. “This accomplishment is significant, not just in delaying the disease’s progression but also because it arrives at a crucial time when hope is desperately needed.”

Nevertheless, this innovative treatment does come with its own set of challenges. Tabrizi explained that the 12- to 18-hour surgical procedure required to deliver the treatment deep within the brain is only accessible in a limited number of facilities in select countries, including the U.S. and U.K. Additionally, if approved, the treatment is likely to be prohibitively expensive. “Will it be accessible to all? Achieving that will be a challenge,” she remarked.

To navigate these hurdles, Tabrizi and her team are developing an alternative therapy that involves injecting the fluid around the spinal cord. “We’re currently conducting a Phase I study, and the first patient was treated in November 2024,” Tabrizi noted, with safety results expected by July 2026.

Meanwhile, uniQure’s executives revealed in September plans to submit AMT-130 for FDA approval in early 2026. However, the submission timeline is now uncertain, as the FDA has expressed concerns regarding the study plan and the control group, which consists of *non-treatment* patients drawn from a database.

The absence of a proper control group complicates the ability to discern the placebo effect on results. Still, given the surgical nature of the treatment, establishing such a group poses significant challenges.

“We firmly believe that AMT-130 holds substantial potential to benefit patients and are dedicated to collaborating with the FDA to expedite access to this treatment for families in need across the U.S.,” stated Matt Kapusta, CEO of uniQure.

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Source: www.newscientist.com

Breakthroughs in Huntington’s Disease: Essential Insights on Gene Therapy

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The caudate nucleus is one of the brain regions that gene therapy targets

Kateryna Kon/Science Photo Library

Innovative gene therapy has emerged as the pioneering treatment that effectively slows the progression of Huntington’s disease. While the results are still in their early stages, this method holds significant promise and could even pave the way for new therapies for other neurodegenerative disorders, including Parkinson’s and Alzheimer’s diseases.

How does the treatment function?

The therapy known as AMT-130 specifically targets the abnormal brain proteins associated with Huntington’s disease progression. Those affected by the condition possess genetic mutations that result in the accumulation of huntingtin proteins, which form toxic aggregates in brain cells, leading to cell death. This eventually manifests as memory loss, mobility issues, speech impairment, and various other symptoms.

Therapies from the Dutch biopharmaceutical company Uniqure aim to halt the production of these mutant proteins. The process involves delivering genetic material to brain cells using a harmless virus. This genetic material instructs the cells to produce small RNA molecules called microRNAs that effectively block and eliminate the signals that lead to the generation of toxic proteins. It acts similarly to a molecular stop signal.

Procedures and Location of Treatment

This therapy initially focuses on two specific brain areas impacted by Huntington’s disease: the caudate nucleus and the putamen. These regions are located deep within the brain, requiring doctors to utilize real-time brain imaging to navigate thin catheters into place. The entire procedure duration ranges from 12 to 18 hours, and preliminary results suggest that a single injection may be adequate to permanently reduce levels of mutant huntingtin in the brain.

What is the efficacy of gene therapy?

Initial findings released by Uniqure indicate that gene therapy may slow the advancement of Huntington’s disease by approximately 75%.

The revelation stems from a clinical trial spearheaded by Sarah Tabrizi of University College London, where 17 Huntington patients received high-dose treatment. After three years, researchers noted the deterioration in cognitive function, motor skills, and daily activities compared to a similar group of untreated individuals. Tabrizi remarked that the decline typically observed over a year in untreated patients was instead noted within four years for those receiving treatment. BBC News. Additionally, those treated exhibited reduced levels of proteins associated with brain damage in their cerebrospinal fluid, highlighting the potential of gene therapy in slowing Huntington’s progression.

“These findings reaffirm our conviction that AMT-130 could revolutionize the treatment landscape for Huntington’s disease,” stated Walid Abi-Saad from Uniqure in a press release.

Are there any side effects?

While Uniqure has not provided comprehensive data on the side effects of the treatment, initial reports suggest that the drug appears to be safe and well-tolerated. The most frequently reported side effects included headaches and confusion, which generally resolved with steroid treatment to reduce inflammation.

When will the treatment be accessible?

In a recent press announcement, Uniqure indicated that it anticipates submitting an application to the U.S. Food and Drug Administration early next year, with the potential for product availability as soon as before 2027 with expedited approval.

“However, it is still in the preliminary phase, and further testing is necessary to assess the long-term effects of this new gene therapy and any potential side effects,” noted Zofia Miedzybrodzka from the University of Aberdeen, UK, in a statement.

Could this method assist in treating other brain disorders?

If successful, the gene therapy could facilitate the development of analogous treatments for various neurodegenerative diseases, including Parkinson’s and other forms of dementia, according to David Rubinsztein from Cambridge University. Researchers could manipulate genetic material to target the toxic proteins that cause these conditions. “This could represent a significant breakthrough,” he remarked.

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Source: www.newscientist.com