Dystrophin Immunity in Duchenne's Muscular Dystrophy

Jerry R. Mendell; Katherine Campbell; Louise R. Rodino‐Klapac; Zarife Sahenk; Chris Shilling; Sarah Lewis; Dawn E. Bowles; Steven J. Gray; Chengwen Li; Gloria Galloway; Vinod Malik; Brian D. Coley; K. Reed Clark; Juan Li; Xiao Xiao; Jade Samulski; Scott McPhee; R. Jude Samulski; Christopher M. Walker

doi:10.1056/nejmoa1000228

Dystrophin Immunity in Duchenne's Muscular Dystrophy

Jerry R. Mendell(Nationwide Children's Hospital), Katherine Campbell(Nationwide Children's Hospital), Louise R. Rodino‐Klapac(Nationwide Children's Hospital), Zarife Sahenk(Nationwide Children's Hospital), Chris Shilling(Nationwide Children's Hospital), Sarah Lewis(Nationwide Children's Hospital), Dawn E. Bowles(University of North Carolina at Chapel Hill), Steven J. Gray(University of North Carolina at Chapel Hill), Chengwen Li(University of North Carolina at Chapel Hill), Gloria Galloway(Nationwide Children's Hospital), Vinod Malik(Nationwide Children's Hospital), Brian D. Coley(Nationwide Children's Hospital), K. Reed Clark(Nationwide Children's Hospital), Juan Li(University of North Carolina at Chapel Hill), Xiao Xiao(University of North Carolina at Chapel Hill), Jade Samulski(AskBio (United States)), Scott McPhee(AskBio (United States)), R. Jude Samulski(University of North Carolina at Chapel Hill), Christopher M. Walker(Nationwide Children's Hospital)

New England Journal of Medicine

October 6, 2010

10.1056/nejmoa1000228

Cited by 655Open Access

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Abstract

We report on delivery of a functional dystrophin transgene to skeletal muscle in six patients with Duchenne's muscular dystrophy. Dystrophin-specific T cells were detected after treatment, providing evidence of transgene expression even when the functional protein was not visualized in skeletal muscle. Circulating dystrophin-specific T cells were unexpectedly detected in two patients before vector treatment. Revertant dystrophin fibers, which expressed functional, truncated dystrophin from the deleted endogenous gene after spontaneous in-frame splicing, contained epitopes targeted by the autoreactive T cells. The potential for T-cell immunity to self and nonself dystrophin epitopes should be considered in designing and monitoring experimental therapies for this disease. (Funded by the Muscular Dystrophy Association and others; ClinicalTrials.gov number, NCT00428935.).

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