Chronic stimulation of the spinal cord in developing chick embryo causes the differentiation of multiple clusters of acetylcholine receptor in the posterior latissimus dorsi muscle.

Abstract Electrodes were implanted around the spinal cord of 7-day-old chick embryos and electric pulses delivered at 0.5-Hz frequency from the 10th to 15th day of incubation. At Day 15, the posterior latissimus dorsi (PLD) muscle, which, in control animals, is focally innervated, was dissected. The number and distribution of AChR clusters revealed by autoradiography after labeling with 125I-α-bungarotoxin was quantitatively studied on isolated muscle fiber fragments and on serial sections of the whole muscle. After chronic stimulation, muscle fibers with multiple AChR clusters were observed. The distribution of the clusters appeared less regular than in the anterior latissimus dorsi muscle which, in control embryos, receives a multiple innervation. The total number of AChR clusters per PLD muscle increased about 1.8 times as a consequence of the stimulation without significant change of the total number of muscle fibers.

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