乙酰胆碱受体ε亚基缺失导致幼年和成年小鼠出现肌肉无力和萎缩。
Acetylcholine receptor epsilon-subunit deletion causes muscle weakness and atrophy in juvenile and adult mice.
作者信息
Witzemann V, Schwarz H, Koenen M, Berberich C, Villarroel A, Wernig A, Brenner H R, Sakmann B
机构信息
Abteilung Zellphysiologie, Max-Planck-Institut für medizinische Forschung, Heidelberg, Germany.
出版信息
Proc Natl Acad Sci U S A. 1996 Nov 12;93(23):13286-91. doi: 10.1073/pnas.93.23.13286.
Abstract
In mammalian muscle a postnatal switch in functional properties of neuromuscular transmission occurs when miniature end plate currents become shorter and the conductance and Ca2+ permeability of end plate channels increases. These changes are due to replacement during early neonatal development of the gamma-subunit of the fetal acetylcholine receptor (AChR) by the epsilon-subunit. The long-term functional consequences of this switch for neuromuscular transmission and motor behavior of the animal remained elusive. We report that deletion of the epsilon-subunit gene caused in homozygous mutant mice the persistence of gamma-subunit gene expression in juvenile and adult animals. Neuromuscular transmission in these animals is based on fetal type AChRs present in the end plate at reduced density. Impaired neuromuscular transmission, progressive muscle weakness, and atrophy caused premature death 2 to 3 months after birth. The results demonstrate that postnatal incorporation into the end plate of epsilon-subunit containing AChRs is essential for normal development of skeletal muscle.
摘要
在哺乳动物肌肉中,当微小终板电流变短且终板通道的电导和Ca2+通透性增加时,神经肌肉传递的功能特性会在出生后发生转变。这些变化是由于在新生儿早期发育过程中,胎儿型乙酰胆碱受体(AChR)的γ亚基被ε亚基所取代。这种转变对动物神经肌肉传递和运动行为的长期功能影响仍不清楚。我们报告,ε亚基基因的缺失导致纯合突变小鼠在幼年和成年动物中持续表达γ亚基基因。这些动物的神经肌肉传递基于终板中存在的密度降低的胎儿型AChR。神经肌肉传递受损、进行性肌肉无力和萎缩导致出生后2至3个月过早死亡。结果表明,含ε亚基的AChR在出生后整合到终板中对骨骼肌的正常发育至关重要。
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