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神经垂体激素作用于离体两栖类膀胱的结构要求

STRUCTURAL REQUIREMENTS FOR THE ACTION OF NEUROHYPOPHYSEAL HORMONES UPON THE ISOLATED AMPHIBIAN URINARY BLADDER.

作者信息

RASMUSSEN H, SCHWARTZ I L, YOUNG R, MARC-AURELE J

出版信息

J Gen Physiol. 1963 Jul;46(6):1171-89. doi: 10.1085/jgp.46.6.1171.

DOI:10.1085/jgp.46.6.1171
PMID:14042998
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2195314/
Abstract

The response of the isolated amphibian urinary bladder to thirty-four structural analogs of arginine vasotocin was determined in an effort to define the physiological significance of specific structural groups on the hormone molecule. All but one of the analogs tested possessed full intrinsic activity in this system but varied greatly in their affinity for the receptor site. An analysis of the effect of changes in hydrogen ion concentration upon the response of the bladder to oxytocin was performed in order to determine the number and nature of the ionizable groups involved in hormone receptor interaction. Two ionizable groups with apparent pK's of 7.1 and 7.75 were found to be important in determining the magnitude of the hormonal response. On the basis of the results it was postulated that hormone-receptor interaction can be considered a two-step process: (a) The binding or attachment of hormone to receptor site through ionic, hydrogen, and hydrophobic bonds and (b) a disulfide interchange reaction between hormonal disulfide and receptor sulfhydryl. The latter step is considered to be the reaction which initiates the chain of events leading to the observed change in permeability.

摘要

为了确定激素分子上特定结构基团的生理意义,研究了离体两栖类膀胱对34种精氨酸血管加压素结构类似物的反应。除一种类似物外,所有测试的类似物在该系统中均具有完全的内在活性,但它们对受体位点的亲和力差异很大。为了确定参与激素受体相互作用的可电离基团的数量和性质,分析了氢离子浓度变化对膀胱对催产素反应的影响。发现两个表观pK值分别为7.1和7.75的可电离基团对确定激素反应的大小很重要。根据这些结果推测,激素-受体相互作用可被认为是一个两步过程:(a) 激素通过离子键、氢键和疏水键与受体位点结合或附着;(b) 激素二硫键与受体巯基之间的二硫键交换反应。后一步被认为是引发导致观察到的通透性变化的一系列事件的反应。

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本文引用的文献

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