RESUMEN
We have defined how four elements that regulate expression of the rat skeletal muscle type 1 sodium channel (SkM1) gene cooperate to yield specific expression in differentiated muscle. A basal promoter region containing within it a promoter E-box (-31/-26) is broadly expressed in many cells, including myoblasts and myotubes; mutations within the promoter E-box that disrupt binding of the myogenic basic helix-loop-helix (bHLH) factors reduce expression in all cell types only slightly. Sequential addition of upstream elements to the wild-type promoter confer increasing specificity of expression in differentiated cells, even though all three upstream elements, including a positive element (-85/-57), a repressor E-box (-90/-85), and upstream repressor sequences (-135/-95), bind ubiquitously expressed transcription factors. Mutations in the promoter E-box that disrupt the binding of the bHLH factors counteract the specificity conferred by addition of the upstream elements, with the greatest interaction observed between the upstream repressor sequences and the promoter E-box. Forced expression of myogenin in myoblasts releases repression exerted by the upstream repressor sequences in conjunction with the wild-type, but not mutant, promoter E-box, and also initiates expression of the endogenous SkM1 protein. Our data suggest that particular myogenic bHLH proteins bound at the promoter E-box control expression of SkM1 by releasing repression exerted by upstream repressor sequences in differentiated muscle cells.