Developmental changes in the distribution of acetylcholine receptors in the myotomes of Xenopus laevis

Abstract

The acquisition and distribution of nerve fibres and of acetylcholine (ACh) receptors were examined in the myotomes of Xenopus laevis during normal development. This muscle is well-suited for investigating temporal relationships during neuromuscular synaptogenesis because the age of the Xenopus embryo at the onset of innervation can be assessed with an accuracy of about one hour. Myotomal nerve fibres were visualized after staining them with nitroblue tetrazolium and ACh receptors were examined after exposure to alpha-bungarotoxin labelled with 125I or fluorescent dye. Nerve fibres were seen in the myotomes of some embryos as early as stage 19 (20 . 75 hr) and in virtually all embryos by stage 24 (26 . 25 hr). From the outset they were located mainly at the ends of the myotomes, but some myotomes also exhibited nerve fibres in more central regions. ACh receptors were already present in myotomes by stage 19 (20 . 75 hr) and initially had a widespread, uniform distribution. The density of extrajunctional ACh receptors increased until stage 36 (50 hr) and then declined less than 3-fold over the next 10 days of development. Discrete patches of high ACh receptor density began to appear at the ends of the myotomes at stage 22 (24 hr) and were seen in almost all embryos by stage 26 (29 . 5 hr). ACh receptor patches were also seen in central regions of some myotomes and these were usually aligned in patterns which resembled the course of nerve fibres. The present findings suggest that myotomal muscle cells in Xenopus embryos begin to acquire ACh receptors shortly before the arrival of nerve fibres and that discrete patches of ACh receptors begin to form at presumptive synaptic sites on the average about 3 hr after the arrival of the nerve fibres. The latter delay is considerably shorter than that in developing rat muscle. The temporal and spatial relationships between nerve fibres and the development of ACh receptor patches in Xenopus myotomes in vivo are consistent with findings in Xenopus cell cultures which indicate that nerve fibres can rapidly induce ACh receptor localization at sites of nerve--muscle contact.