Abnormal transverse tubule system and abnormal amount of receptors for Ca2+ channel inhibitors of the dihydropyridine family in skeletal muscle from mice with embryonic muscular dysgenesis.

We have found two important sets of abnormalities in skeletal muscle from mice with embryonic muscular dysgenesis. These abnormalities involve the internal structural organization of the muscle fiber and its content of voltage-dependent Ca2+ channels. The first abnormality concerns the ultrastructural aspects of the membranous couplings between sarcoplasmic reticulum and the transverse tubules, known as triads. The triads are less numerous, are disorganized, and lack spaced densities (feet). The second abnormality is a significant decrease in specific binding sites for the dihydropyridine derivatives, (known as Ca2+ channel inhibitors) in striated skeletal muscle, but not in cardiac muscle. Both sets of abnormalities are potentially directly linked to the uncoupling of excitation and contraction.