大鼠新生肌肉中乙酰胆碱受体的神经调节
Neural regulation of acetylcholine receptors in rat neonatal muscle.
作者信息
Bambrick L L, Gordon T
机构信息
Department of Pharmacology, University of Alberta, Edmonton, Canada.
出版信息
J Physiol. 1992 Apr;449:479-92. doi: 10.1113/jphysiol.1992.sp019097.
Abstract
- The neuronal regulation of the developmental decline in skeletal muscle acetylcholine (ACh) receptors was studied by comparing the effects of sciatic nerve section or of neuromuscular blockade with botulinum toxin (BoTX) on this decline in neonatal and adult rats, using 125I-alpha-bungarotoxin (125I-BTX) as a ligand for the receptor alpha-subunit. 2. The decline in 125I-BTX binding site concentration in neonatal rat triceps surae muscle homogenates towards low, adult levels followed a simple exponential with a time constant of 8 days. This decline occurred while the muscle is still rapidly growing, before the postnatal increase in numbers of sodium channels. It also preceded the decline in muscle ACh receptor alpha-subunit mRNA, reported in other studies, suggesting that subunit levels are not regulated only by mRNA availability. 3. Muscle denervation in the first two weeks of life prevented this developmental decline. Denervation increased the concentration of 125I-BTX binding sites but the magnitude of this increase became progressively smaller as the muscle matured, showing that removal of innervation during adult life does not revert the muscle, in toto, to its pre-innervation state. 4. Blockade of neuromuscular activity with BoTX increased 125I-BTX binding sites to a lesser extent than muscle denervation during neonatal life. This lesser effect of BoTX blockade contrasts with the equal effects of BoTX blockade and denervation in the adult.
摘要
- 通过比较坐骨神经切断或肉毒杆菌毒素(BoTX)引起的神经肌肉阻滞对新生大鼠和成年大鼠骨骼肌乙酰胆碱(ACh)受体发育性减少的影响,研究了神经元对其的调节作用。使用125I-α-银环蛇毒素(125I-BTX)作为受体α亚基的配体。2. 新生大鼠腓肠肌匀浆中125I-BTX结合位点浓度向低水平、成年水平的下降遵循简单指数规律,时间常数为8天。这种下降发生在肌肉仍在快速生长时,在钠通道数量出生后增加之前。它也先于其他研究中报道的肌肉ACh受体α亚基mRNA的下降,这表明亚基水平并非仅由mRNA的可获得性调节。3. 出生后前两周的肌肉去神经支配阻止了这种发育性下降。去神经支配增加了125I-BTX结合位点的浓度,但随着肌肉成熟,这种增加的幅度逐渐变小,表明成年期去除神经支配并不会使肌肉完全恢复到去神经支配前的状态。4. 用BoTX阻断神经肌肉活动对125I-BTX结合位点的增加程度小于新生期肌肉去神经支配的情况。BoTX阻断的这种较小作用与成年期BoTX阻断和去神经支配的同等作用形成对比。
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