Abstract: To learn more about the pathway for degradation of an intrinsic membrane protein, we studied in cultured chick myotubes the effects of certain protease inhibitors and chloroquine (an inhibitor of lysosomal function) on degradation of the acetylcholine receptor measured with the specific ligand 125I-α-bungarotoxin. Leupeptin, chymostatin, anti-pain and chloroquine decreased by 2–10 fold the rate of degradation of the acetylcholine receptor-125I-α-bungarotoxin complex to 125I-tyrosine (p < 0.01). After removing the inhibitors, the degradative rate returned to control levels. Leupeptin and chloroquine did not appear toxic to the cells; these agents did not alter the overall rate of protein synthesis, and leupeptin did not decrease the incorporation of receptors into the surface membrane. Therefore these inhibitors probably inhibit the degradative process selectively. A lysosomal site for receptor degradation appears probable, since chloroquine slows this process; leupeptin, chymostatin and antipain all inhibit cathepsin B; and chloroquine and to a lesser extent leupeptin altered the ultrastructural appearance of this organelle. Cultures labeled with 125I-α-bungarotoxin and then incubated with leupeptin or chloroquine contained more radioactive protein than control cells. This material co-electrophoresed with bungarotoxin on sodium dodecylsulfate-urea-polyacrylamide gels. Thus myotubes exposed to these inhibitors seemed to accumulate undegraded bungarotoxin. They did not, however, contain more acetylcholine receptors on their surface. Instead, the inhibitor-treated cells accumulate toxin and receptors at some internal site. Thus treatment with such inhibitors does not appear to be a useful approach to the therapy of myasthenia gravis. The additional 125I-toxin found in cells incubated with leupeptin or chloroquine was less accessible to exogenous protease than the toxin bound to control cells and was more resistant to extraction by Triton X-100. Since internalization of the receptor continued in the presence of these inhibitors, this process must not be coupled tightly to subsequent proteolysis. Measurement of receptors within cells not exposed to 125I-α-bungarotoxin showed that incubation of myotubes with leupeptin or chloroquine for 48 hr increased the number of internal bungarotoxin-binding sites 2–11 fold (p < 0.001). Thus cells treated with these agents accumulate receptors intracellularly in a form that sediments at 35,000 × g. Electron microscopy showed that these treated myotubes contain 3–6 times more coated vesicles within their cytoplasm than control cells (p < 0.001). Thus chloroquine and leupeptin may retard receptor degradation in part by interfering with the fusion of coated vesicles with lysosomes.

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   |texte=   Degradation of the acetylcholine receptor in cultured muscle cells: Selective inhibitors and the fate of undegraded receptors
}}