Neuromuscular transmission in cultures of adult human and rodent skeletal muscle after innervation in vitro by fetal rodent spinal cord.

Abstract

AbstractElectrophysiologic analyses have been carried out on in vitro‐coupled explants of fetal rodent spinal cord and adult skeletal muscle of human as well as rodent origin. The studies demonstrate that characteristic neuromuscular transmission can develop and be maintained in these unusual tissue combinations during long‐term culture.After coupling periods of 2–7 weeks in vitro, selective stimulation of spinal cord evokes widespread coordinated contractions in the muscle tissue. Simultaneous microelectrode recordings of cord and muscle responses to local cord, or ventral root, stimuli show that muscle action potentials (and contractions) generally occur with latencies of several msec after onset of cord discharges. Similar temporal relations are often seen during spontaneous rhythmic discharges of the coupled cord and muscle tissues. Long series of repetitive discharges, at 2–5 sec intervals, may occur synchronously between these cord and muscle explants, in response to single cord (or dorsal‐root ganglion) stimuli, and they may also appear spontaneously.d‐Tubocurarine (1–10 μg/ml) selectively and reversibly blocks neuromuscular transmission in these cultures. Eserine accelerates recovery of normal function. Spontaneous repetitive fibrillations of many of the cultured muscle fibers are observed sporadically, and these contractions often continue unabated after block of neuromusclar transmission by d‐tubocurarine. Many of the fibers which show asynchronous fibrillations are probably not innervated (as in denervated muscle in situ). In some cases, however, extracellular as well as intracellular recordings indicate that similar fibrillations may also occur in fibers which are clearly innervated.Repetitive cord and muscle discharges are greatly augmented after introduction of strychnine. Complex rhythmic oscillatory (ca. 10/sec) afterdischarges generated in strychninized cord explants lead to similarly patterned muscle discharges (and contractions), which may also occur, at, times, in normal medium.