Scanning electron microscopy of nerve-muscle contacts in embryonic cell culture.

Scanning electron microscopy (SEM) of cell cultures of dissociated nerve and muscle from chick embryos has shown that developing muscle fibers can be contacted at many sites by one or more than one neuron, and that a single nerve can send branches to several myofibers. At these contact regions of nerve with muscle, the neurons send out terminal or lateral sprouts with fine tips which initially lack terminal swellings, but later acquire small “bouton”-like structures in contact with the sarcolemma, which resemble embryonic synapses. At these points, the sarcolemma does not appear to differ in ultrastructure from other surface regions of the myofiber. Transmission electron microscopy (TEM) has revealed the presence of both electron lucent and dense-cored vesicles at some nerve terminals. However, fluorescence histochemistry (Falck-Hillarp technique) failed to detect the presence of catecholamines in these cultures. The SEM pictures at substantially higher resolutions than the light microscope, and the enhanced three dimensional perspective of this technique, provide additional information about the developmental morphology of the nerve-muscle cell culture system. The results are correlated with previous findings by light microscopy, TEM and electrophysiology, and discussed in relationship to proposed innervation processes of skeletal muscle fibers in vivo.