Bhavya S. Doshi, Benjamin J. Samelson-Jones, Timothy C. Nichols, Elizabeth P. Merricks, Joshua L. Siner, Robert A. French, Ben J. Lee, Valder R. Arruda, Mary Beth Callan
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引用次数: 0
Abstract
The hemophilias are the most common severe inherited bleeding disorders and are caused by deficiency of clotting factor (F) VIII (hemophilia A) or FIX (hemophilia B). The resultant bleeding predisposition significantly increases morbidity and mortality. The ability to improve the bleeding phenotype with modest increases in clotting factor levels has enabled the development and regulatory approval of adeno-associated viral (AAV) vector gene therapies for people with hemophilia A and B. The canine hemophilia model has proven to be one of the best predictors of therapeutic response in humans. Here, we report long-term follow-up of 12 companion dogs with severe hemophilia that were treated in a real-world setting with AAV gene therapy. Despite more baseline bleeding than in research dogs, companion dogs demonstrated a 94% decrease in bleeding rates and 61% improvement in quality-of-life over a median of 4.1 years (range 2.6-8.9). No new anti-transgene immune responses were detected; 1 dog with a preexisting anti-FVIII inhibitor achieved immune tolerance with gene therapy. Two dogs expressing 1-5% FVIII post gene therapy experienced fatal bleeding events. These data suggest AAV liver-directed gene therapy is efficacious in a real-world setting, but should target expression > 5% and closely monitor those with levels in the 1-5% range.
期刊介绍:
The aim of Molecular Therapy—Methods & Clinical Development is to build upon the success of Molecular Therapy in publishing important peer-reviewed methods and procedures, as well as translational advances in the broad array of fields under the molecular therapy umbrella.
Topics of particular interest within the journal''s scope include:
Gene vector engineering and production,
Methods for targeted genome editing and engineering,
Methods and technology development for cell reprogramming and directed differentiation of pluripotent cells,
Methods for gene and cell vector delivery,
Development of biomaterials and nanoparticles for applications in gene and cell therapy and regenerative medicine,
Analysis of gene and cell vector biodistribution and tracking,
Pharmacology/toxicology studies of new and next-generation vectors,
Methods for cell isolation, engineering, culture, expansion, and transplantation,
Cell processing, storage, and banking for therapeutic application,
Preclinical and QC/QA assay development,
Translational and clinical scale-up and Good Manufacturing procedures and process development,
Clinical protocol development,
Computational and bioinformatic methods for analysis, modeling, or visualization of biological data,
Negotiating the regulatory approval process and obtaining such approval for clinical trials.