Cell death of motoneurons in the chick embryo spinal cord. XI. Acetylcholine receptors and synaptogenesis in skeletal muscle following the reduction of motoneuron death by neuromuscular blockade

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JOURNAL ARTICLES

Cell death of motoneurons in the chick embryo spinal cord. XI. Acetylcholine receptors and synaptogenesis in skeletal muscle following the reduction of motoneuron death by neuromuscular blockade

RW Oppenheim, S Bursztajn and D Prevette
Department of Neurobiology and Anatomy, Bowman Gray School of Medicine, Wake Forest University, Winston-Salem, NC 27103.

Treatment of chick embryos with neuromuscular blocking agents such as curare during periods of naturally occurring motoneuron death results in a striking reduction of this normal cell loss. Inactivity-induced changes in motoneuron survival were found to be associated with increased levels of AChRs and AChR-clusters in skeletal muscle and with increased focal sites of AChE that are innervated ('synaptic sites'). Treatment of embryos with curare after the normal cell death period (E12-E15) resulted in no change in motoneuron survival. Although AChR-clusters and focal sites of AChE were increased in these embryos on E16, many of these sites were uninnervated. Treatment of embryos with nicotine or decamethonium (E6-E10) also reduced neuromuscular activity but did not alter motoneuron survival nor did such treatment alter AChRs. The different effects of curare vs nicotine and decamethoniam on motoneuron survival and AChRs may be related to the fact that the former is a competitive blocker whereas the latter two drugs are depolarizing blockers. Finally, treatment of embryos (E6-9) with doses of curare (1 mg daily) that allow for the almost complete recovery of neuromuscular activity a few days following treatment (by E16) resulted in the gradual loss of the excess motoneurons that were present on E10, and by E16 the number of remaining AChR clusters and focal sites of AChE were also decreased to levels comparable to control values. Inactivity-induced changes in AChRs or AChR-clusters may be an important factor in the reduced motoneuron death that accompanies neuromuscular blockade during critical stages of development. These receptor changes very likely reflect increased synaptogenesis in the muscles of paralyzed embryos which in turn may act to reduce motoneuron death by providing increased access to muscle-derived neurotrophic molecules.

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