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发育过程中β-神经生长因子受体的特性

Properties of the beta-nerve growth factor receptor in development.

作者信息

Herrup K, Shooter E M

出版信息

J Cell Biol. 1975 Oct;67(1):118-25. doi: 10.1083/jcb.67.1.118.

DOI:10.1083/jcb.67.1.118
PMID:1176525
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2109576/
Abstract

The cell surface receptor for beta-nerve growth factor was used as a probe to study the development of embryonic chick sensory ganglia. The ganglia were shown to lose their responsiveness to nerve growth factor in vitro between 14 and 16 days of embryonic age. This loss occurred by a decrease in the magnitude of the maximum biological response, not by a shifting of the response to higher concentrations. Binding assays for the beta-nerve growth factor receptor, using 125I-radiolabelled beta-nerve growth factor, were performed with cells from sensory ganglia 8, 12, 14, 16, 18, and 21 days of age. The assays revealed a twofold increase in the number of receptor sites per ganglion between 8 and 14 days and a sixfold drop between 14 and 16 days of embryonic life. Neither increase nor decrease was accompanied by a large change in the affinity of the receptor for the protein. Together with the results of the bioassay, the data show that the loss of biological responsiveness is correlated with and may be due to a loss of the cells' ability to bind beta-nerve growth factor. Correlation of the results of the binding assays with the known ontogeny of the chick embryo provides a hint at the role of nerve growth factor in normal development.

摘要

β-神经生长因子的细胞表面受体被用作探针来研究鸡胚感觉神经节的发育。结果显示,在胚胎发育14至16天期间,神经节在体外对神经生长因子的反应性丧失。这种丧失是由于最大生物学反应幅度的降低,而非反应向更高浓度的转移。使用125I放射性标记的β-神经生长因子对8、12、14、16、18和21日龄感觉神经节的细胞进行β-神经生长因子受体结合测定。测定结果显示,每个神经节的受体位点数量在8至14天之间增加了两倍,而在胚胎发育14至16天之间下降了六倍。受体对该蛋白的亲和力在增加或减少时均未发生大的变化。结合生物测定结果,这些数据表明生物学反应性的丧失与细胞结合β-神经生长因子能力的丧失相关,且可能是由于后者所致。结合测定结果与鸡胚已知个体发育过程的相关性为神经生长因子在正常发育中的作用提供了线索。

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