发育中和去神经支配的骨骼肌中N-细胞黏附分子及其RNA的分子形式

Molecular forms of N-CAM and its RNA in developing and denervated skeletal muscle.

作者信息

Covault J, Merlie J P, Goridis C, Sanes J R

出版信息

J Cell Biol. 1986 Mar;102(3):731-9. doi: 10.1083/jcb.102.3.731.

DOI:10.1083/jcb.102.3.731

PMID:3949875

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2114130/

Abstract

The neural cell adhesion molecule (N-CAM) is present in both embryonic and perinatal muscle, but its distribution changes as myoblasts form myotubes and axons establish synapses (Covault, J., and J. R. Sanes, 1986, J. Cell Biol., 102:716-730). Levels of N-CAM decline postnatally but increase when adult muscle is denervated or paralyzed (Covault, J., and J. R. Sanes, 1985, Proc. Natl. Acad. Sci. USA., 82:4544-4548). To determine the molecular forms of N-CAM and N-CAM-related RNA during these different periods we used immunoblotting and nucleic acid hybridization techniques to analyze N-CAM and its RNA in developing, cultured, adult, and denervated adult muscle. As muscles develop, the extent of sialylation of muscle N-CAM decreases, and a 140-kD desialo form of N-CAM (generated by neuraminidase treatment) is replaced by a 125-kD form. This change in the apparent molecular weight of desialo N-CAM is paralleled by a change in N-CAM RNA: early embryonic muscles express a 6.7-kb RNA species which hybridizes with N-CAM cDNA, whereas in neonatal muscle this form is largely replaced by 5.2- and 2.9-kb species. Similar transitions in the desialo form of N-CAM, but not in extent of sialylation, accompany differentiation in primary cultures of embryonic muscle and in cultures of the clonal muscle cell lines C2 and BC3H-1. Both in vivo and in vitro, a 140-kD desialo form of N-CAM and a 6.7-kb N-CAM RNA are apparently associated with myoblasts, whereas a 125-kD desialo form and 5.2- and 2.9-kb RNAs are associated with myotubes and myofibers. After denervation of adult muscle, a approximately 12-15-fold increase in the levels of N-CAM is accompanied by a approximately 30-50-fold increase in N-CAM RNA, suggesting that N-CAM expression is regulated at a pretranslational level. Forms of N-CAM and its RNA in denervated muscle are similar to those seen in perinatal myofibers.

摘要

神经细胞黏附分子（N-CAM）在胚胎期和围生期肌肉中均有表达，但其分布会随着成肌细胞形成肌管以及轴突建立突触而发生变化（科沃尔特，J.，和J. R. 萨内斯，1986年，《细胞生物学杂志》，102:716 - 730）。出生后N-CAM水平下降，但在成年肌肉去神经支配或麻痹时会升高（科沃尔特，J.，和J. R. 萨内斯，1985年，《美国国家科学院院刊》，82:4544 - 4548）。为了确定在这些不同时期N-CAM及其相关RNA的分子形式，我们使用免疫印迹和核酸杂交技术来分析发育中的、培养的、成年的以及去神经支配的成年肌肉中的N-CAM及其RNA。随着肌肉发育，肌肉N-CAM的唾液酸化程度降低，一种由神经氨酸酶处理产生的140-kD去唾液酸化形式的N-CAM被一种125-kD形式所取代。去唾液酸化N-CAM表观分子量的这种变化与N-CAM RNA的变化平行：早期胚胎肌肉表达一种与N-CAM cDNA杂交的6.7-kb RNA种类，而在新生肌肉中，这种形式在很大程度上被5.2-kb和2.9-kb种类所取代。在胚胎肌肉原代培养物以及克隆肌肉细胞系C2和BC3H-1的培养物中，N-CAM去唾液酸化形式发生了类似的转变，但唾液酸化程度未变。在体内和体外，140-kD去唾液酸化形式的N-CAM和6.7-kb的N-CAM RNA显然与成肌细胞相关，而125-kD去唾液酸化形式以及5.2-kb和2.9-kb的RNA与肌管和肌纤维相关。成年肌肉去神经支配后，N-CAM水平大约增加12 - 15倍，同时N-CAM RNA增加大约30 - 50倍，这表明N-CAM的表达在转录前水平受到调控。去神经支配肌肉中N-CAM及其RNA的形式与围生期肌纤维中的相似。

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