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SNF-6 is an acetylcholine transporter interacting with the dystrophin complex in Caenorhabditis elegans

Hongkyun Kim, Matthew J. Rogers, Janet E. Richmond and Steven L. McIntire ()
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Hongkyun Kim: University of California at San Francisco
Matthew J. Rogers: University of California at San Francisco
Janet E. Richmond: University of Illinois at Chicago
Steven L. McIntire: University of California at San Francisco

Nature, 2004, vol. 430, issue 7002, 891-896

Abstract: Abstract Muscular dystrophies are among the most common human genetic diseases and are characterized by progressive muscle degeneration. Muscular dystrophies result from genetic defects in components of the dystrophin–glycoprotein complex (DGC), a multimeric complex found in the muscle cell plasma membrane1. The DGC links the intracellular cytoskeleton to the extracellular matrix and is thought to be important for maintaining the mechanical integrity of muscles2 and organizing signalling molecules3. The exact role of the DGC in the pathogenesis of disease has, however, remained uncertain4. Mutations in Caenorhabditis elegans DGC genes lead to specific defects in coordinated movement and can also cause muscle degeneration5,6,7. Here we show that mutations in the gene snf-6 result in phenotypes indistinguishable from those of the DGC mutants, and that snf-6 encodes a novel acetylcholine/choline transporter. SNF-6 mediates the uptake of acetylcholine at neuromuscular junctions during periods of increased synaptic activity. SNF-6 also interacts with the DGC, and mutations in DGC genes cause a loss of SNF-6 at neuromuscular junctions. Improper clearing of acetylcholine and prolonged excitation of muscles might contribute to the pathogenesis of muscular dystrophies.

Date: 2004
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DOI: 10.1038/nature02798

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