Abstract
Antibodies in the sera of patients with myasthenia gravis are believed to play an important role in the pathogenesis of the disorder. They have recently been shown to accelerate the degradation of acetylcholine receptors in cultured mammalian skeletal muscle and at intact neuromuscular junctions. To elucidate the mechanism of the antibody-accelerated degradation process, we have prepared cultures in which one set of acetylcholine receptors was exposed to myasthenic immunoglobulin while a second set of acetylcholine receptors, newly incorporated after exposure to the immunoglobulins, was not. The set of acetylcholine receptors with bound myasthenic immunoglobulin was degraded at 2 to 3 times the normal rate, while the second set of acetylcholine receptors without bound immunoglobulin was degraded at the control rate. This suggest that the binding of antibody from myasthenic patients alters the acetylcholine receptors in some way that causes them to be selected for preferential degradation by the muscle cells. New synthesis and incorporation of the acetyl-choline receptors into the surface membrane of cultured skeletal muscle was unaffected by exposure to myasthenic immunoglobulin.
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