FDA has agreed that three years of Phase I/II data from the gene therapy AMT-130 can support a Biologics License Application under Accelerated Approval for Huntington’s disease — a significant regulatory shift announced June 17, 2026 following a Type B meeting between uniQure and the agency. The agreement also removes a demand for a sham-surgery-controlled confirmatory trial, replacing it with an accepted standard-of-care control arm. uniQure has announced a BLA submission planned for Q3 2026. No application has yet been filed, and no approval has been granted.
What FDA agreed to — and what it did not
The Type B meeting outcome is a pre-submission agreement on the regulatory pathway, not an approval decision. Under Accelerated Approval, FDA may grant conditional marketing authorization based on a surrogate or intermediate endpoint reasonably likely to predict clinical benefit, with a requirement to conduct a confirmatory trial verifying that benefit. The June 2026 agreement means FDA has concluded that the Phase I/II dataset is sufficient to anchor a BLA submission, not that the agency has evaluated or will approve that BLA.
The distinction matters. The news release announcing the outcome uses language about “plan for BLA submission” — not an approval, not an advisory committee date, not a PDUFA date. Those steps remain ahead.
A regulatory about-face — twice
What makes this outcome notable is its position as the second reversal in seven months on the same core question: what kind of Phase 3 confirmatory study FDA would require if AMT-130 receives accelerated approval.
In November 2025, an October 29, 2025 pre-BLA meeting concluded that FDA no longer agreed the existing Phase I/II data were sufficient for a BLA, and that a confirmatory trial with sham surgery would be required — a design that would require some patients with Huntington’s disease to undergo a simulated cranial procedure without receiving the gene therapy. The formal details of the sham-surgery requirement came from a Type A meeting held January 30, 2026, whose minutes were publicly released on March 2, 2026. Both positions generated substantial controversy among HD patient advocates and neurology researchers who argued that sham surgery in this population posed serious ethical and practical barriers to enrollment.
By June 2026, FDA reversed course. The Type B meeting outcome confirms that the confirmatory trial may use a standard-of-care comparator in place of a sham-surgery control — a design change that meaningfully lowers the barrier to conducting that study.
The drug and the designations
AMT-130 is a gene therapy delivered via a single stereotactic intracranial injection. It uses an adeno-associated virus serotype 5 (AAV5) vector to deliver a microRNA construct (miHTT) that lowers total huntingtin — both mutant and wild-type — mRNA expression in the striatum. It is a total HTT-lowering therapy, not a mutant-selective one; this distinction is a subject of ongoing scientific discussion in the Huntington’s disease field. Huntington’s disease is caused by a CAG repeat expansion in the HTT gene, leading to progressive neurodegeneration and death; there is currently no approved disease-modifying therapy.
FDA has granted AMT-130 four designations: Breakthrough Therapy status (April 2025), Regenerative Medicine Advanced Therapy (RMAT) designation — the first RMAT designation for a Huntington’s disease therapy, granted in 2024 — as well as Fast Track and Orphan Drug designations.
The Phase I/II evidence base
The U.S. trial (NCT04120493) enrolled 43 patients across four cohorts. The initial randomized phase included a low-dose cohort and a high-dose cohort, each randomized against a sham-surgery control arm. Subsequent enrollment added Cohort 3 (an expansion/extension cohort) and Cohort 4 (an open-label high-dose cohort in patients with low striatal volume). The European Phase Ib/2 study (NCT05243017) enrolled an additional 14 patients.
In the 12 high-dose patients who reached 36-month follow-up (of 17 treated in the high-dose cohort), mean change from baseline on the composite Unified Huntington’s Disease Rating Scale (cUHDRS) was −0.38, compared with −1.52 in 940 Enroll-HD matched external controls (P=.003). The company described this as approximately 75% slowing of disease progression relative to the external control group. (Company-reported; Phase I/II data not yet peer-reviewed in full.)
CSF neurofilament light chain (NfL) decreased 8.2% from baseline at 36 months in the high-dose group (company-reported). No new drug-related serious adverse events have been reported since December 2022 (company-reported).
What the BLA pathway does not resolve
Accelerated Approval under this pathway would be conditional. The confirmatory trial — now accepted to use a standard-of-care control — must demonstrate clinical benefit on a validated endpoint to convert any accelerated approval to full approval. The BLA submission itself remains ahead, as does FDA’s filing review, a PDUFA action date assignment, and a possible advisory committee. For a disease with no approved disease-modifying therapy, the pathway agreement is meaningful. But the distance between a Type B meeting outcome and an approval is substantial.
All efficacy and safety figures are company-reported from uniQure’s September 2025 and June 2026 press releases and have not been independently peer-reviewed.
Correction (2026-06-19): Two errors corrected by post-publication fact-check. (1) AMT-130 was described as delivering “a microRNA construct that silences mutant huntingtin protein expression”; the therapy (miHTT) lowers total huntingtin — both mutant and wild-type — mRNA expression. It is a total HTT-lowering therapy, not a mutant-selective one. The NCT04120493 trial title explicitly names it “Total Huntingtin Gene (HTT) Lowering Therapy.” (2) The FDA regulatory timeline was imprecisely stated: the March 2, 2026 press release was not a new FDA communication “reaffirming” a November position but the public release of final minutes from a Type A meeting held January 30, 2026. The article has been updated to reflect the correct procedural sequence.