A Randomized Study of SPK-10001 Gene Therapy in Participants With Huntington's Disease
The main goal of this study is to evaluate the safety, tolerability, and preliminary efficacy of SPK-10001 in participants with Huntington's Disease.
Safety and Proof-of-Concept (POC) Study With AMT-130 in Adults With Early Manifest Huntington's Disease
This is the first study of AMT-130 in patients with early manifest HD and is designed to establish safety and proof-of-concept (PoC). CT-AMT-130-01 is a Phase 1/2, multicenter, first-in-human (FIH) study. The first three cohorts of the study have completed enrollment, including the randomized, double-blind, sham-controlled cohorts. Cohort 4 is open-label. Cohort 4 participants will receive high dose AMT-130.
A Study to Evaluate AB-1001 Striatal Administration in Adults With Early Manifest Huntington's Disease
A Phase I/II Dose-Finding Study to Evaluate Striatal Administration of AB-1001 (previously BV-101) in Adults with Early Manifest Huntington's Disease
Safety and Efficacy of AMT-130 in European Adults With Early Manifest Huntington's Disease
This is the second study of AMT-130 in patients with early manifest HD and is designed as part of an integrated two-study phase I/II program under a single data safety monitoring board (DSMB) with staggered enrollment based upon continued demonstration of safety of AMT-130 administration. Cohort 3 participants will receive either high or low dose (1:1 randomization). Participants enrolled in Cohort 3 will also receive an immunosuppression regimen consisting of dexamethasone, sirolimus, and rituximab.
Gene Therapy Development and Validation for Huntington's Disease Fibro TG-HD
Huntington's disease is a rare and fatal monogenic neurodegenerative disorder whose molecular origin is an expansion of CAG triplets within the first exon of the Huntingtin gene. Although a growing number of emerging therapies are in clinical trials, there are no proven neuroprotective or curative treatments approved by the health authorities, as they have not yet demonstrated any real therapeutic benefit or absence of toxicity. Trans-splicing gene therapy is defined as the correction of a mutated endogenous pre-messenger RNA by a therapeutic exogenous pre-messenger RNA. Trans-splicing is a suitable alternative approach, since it is capable of allelic selectivity and replacement of mutated sequences by the wild-type one, criteria that no therapy tested to date meets. This project involves the therapeutic validation of trans-splicing of Huntingtin gene transcripts, and will evaluate its therapeutic effects in vitro, into primary fibroblast cell lines derived from skin biopsies of Huntington's disease patients.