Diazepam induces relaxation of chick embryo muscle fibers in vitro and inhibits myosin synthesis

Diazepam (Valium/Roche) causes an immediate cessation of spontaneous contraction in chick embryo skeletal muscle fibers growing in vitro. Between 24–48 h later in the presence of 100 μM diazepam the relaxed muscle fibers no longer accumulate myosin as measured by the total amount of myosin heavy-chain peptide extracted from the cell cultures and identified by sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoresis. The myosin heavy chain assay procedure was standardized by quantitative precipitation of myosin with antibody to column purified chicken skeletal muscle myosin. Failure to accumulate myosin is related to a progressive inhibition of myosin synthesis. Diazepam-treated cultures showed an 80% inhibition of myosin heavy-chain synthesis over a period of 4 days. At the same time the rate of myosin heavy-chain degradation increases in diazepam-treated cultures relative to matched control cultures. Total protein synthesis was only marginally affected suggesting that diazepam may differentially inhibit myofibrillar protein synthesis. All of the observed effects of diazepam were reversible if drug exposure was limited to 48 h. The apparent specificity and reversibility of diazepam suggests that the drug will be useful in probing the mechanisms of terminal skeletal muscle cell differentiation and the hypotrophic relationship between chronic relaxation and inhibition of accumulation of myosin and perhaps other myofibrillar proteins.