Promotion of motoneuron survival and branching in rapsyn-deficient mice

Inhibition of programmed cell death of motoneurons during embryonic development requires the presence of their target muscle and coincides with the initial stages of synaptogenesis. To evaluate the role of synapse formation on motoneuron survival during embryonic development, we counted the number o...

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Bibliographic Details
Published in:Journal of comparative neurology (1911) 2001-01, Vol.429 (1), p.156-165
Main Authors: Banks, Glen B., Chau, Thao N.P., Bartlett, Selena E., Noakes, Peter G.
Format: Article
Language:English
Subjects:
acetylcholine receptor
Animals
Apoptosis - genetics
Axons - metabolism
Axons - ultrastructure
Cell Count - statistics & numerical data
cell death
Cell Differentiation - genetics
Cell Size - genetics
Cell Survival - genetics
Diaphragm - cytology
Diaphragm - innervation
Diaphragm - metabolism
Female
Mice
Mice, Knockout
Motor Neurons - cytology
Motor Neurons - metabolism
Muscle Proteins - deficiency
Muscle Proteins - genetics
neuromuscular
Neuromuscular Junction - cytology
Neuromuscular Junction - embryology
Neuromuscular Junction - metabolism
rapsyn
Receptors, Cholinergic - genetics
Receptors, Cholinergic - metabolism
skeletal muscle
Spinal Cord - cytology
Spinal Cord - embryology
Spinal Cord - metabolism
synapse formation
Synaptic Membranes - metabolism
Synaptic Membranes - ultrastructure
Citations: Items that this one cites
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Summary:Inhibition of programmed cell death of motoneurons during embryonic development requires the presence of their target muscle and coincides with the initial stages of synaptogenesis. To evaluate the role of synapse formation on motoneuron survival during embryonic development, we counted the number of motoneurons in rapsyn‐deficient mice. Rapsyn is a 43 kDa protein needed for the formation of postsynaptic specialisations at vertebrate neuromuscular synapses. Here we show that the rapsyn‐deficient mice have a significant increase in the number of motoneurons in the brachial lateral motor column during the period of naturally occurring programmed cell death compared to their wild‐type littermates. In addition, we observed an increase in intramuscular axonal branching in the rapsyn‐deficient diaphragms compared to their wild‐type littermates at embryonic day 18.5. These results suggest that deficits in the formation of the postsynaptic specialisation at the neuromuscular synapse, brought about by the absence of rapsyn, are sufficient to induce increases in both axonal branching and the survival of the innervating motoneuron. Moreover, these results support the idea that skeletal muscle activity through effective synaptic transmission and intramuscular axonal branching are major mechanisms that regulate motoneuron survival during development. J. Comp. Neurol. 429:156–165, 2001. © 2000 Wiley‐Liss, Inc.
ISSN:0021-9967
1096-9861
DOI:10.1002/1096-9861(20000101)429:1<156::AID-CNE12>3.0.CO;2-3