Physiological Studies During Formation and Development of Rat Neuromuscular Junctions in Tissue Culture

doi:10.1085/jgp.58.4.467

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Physiological Studies During Formation and Development of Rat Neuromuscular Junctions in Tissue Culture

Norman Robbins ¹ and Takeshi Yonezawa ¹

¹ From the Kyoto Prefectural University of Medicine, Kawaramachi Hirokoji, Kyoto, Japan.

Dr. Robbins's present address is the Department of Anatomy, Case Western Reserve School of Medicine, Cleveland, Ohio 44106.

Developing neuromuscular junctions in tissue cultures of ratembryo spinal cord and muscle were studied with intracellularrecording. Excitatory junctional potentials (ejps) were foundduring nerve or spinal cord stimulation, and also arising spontaneously.The time-course of the potentials tended to be shorter in culturesolder than 9 days in vitro than in more recently innervatedcultures. Evidence of multiple innervation was found in manycells. In order to test the hypothesis that transmitter wasreleased in integral multiples of a quantal amount and accordingto a Poisson distribution, mean quantum content was calculatedfrom the coefficient of variation of ejp amplitudes, the percentageof zero responses, and the ratio of mean amplitude to mean ofthe smallest class of amplitudes. The three independent measureswere in fair or good mutual agreement, implying that the mechanismof transmitter release in newly developed junctions is the sameas in the adult. In newly formed junctions, ejps were subthresholdfor action potential generation, but afterwards mean quantumcontent increased and action potentials were generated by singleejps. In fibers developing both with and without innervation,the entire muscle cell surface was as sensitive to acetylcholineas the adult end plate region. Innervation was related to cross-striation:every cross-striated fiber tested was found to be innervated,and denervation in vitro led to loss of distinct cross-striations.

Submitted on April 5, 1971

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