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催乳素受体短形式的分子内二硫键对其对受体长形式功能的抑制作用是必需的。

Intramolecular disulfide bonds of the prolactin receptor short form are required for its inhibitory action on the function of the long form of the receptor.

作者信息

Xie Y-L, Hassan S A, Qazi A M, Tsai-Morris C H, Dufau M L

机构信息

Section on Molecular Endocrinology, Endocrinology and Reproduction Research Branch, Eunice Kennedy Shriver National Institutes of Child Health and Human Development, National Institutes of Health, Bethesda, Maryland 20892-4510, USA.

出版信息

Mol Cell Biol. 2009 May;29(10):2546-55. doi: 10.1128/MCB.01716-08. Epub 2009 Mar 9.

DOI:10.1128/MCB.01716-08
PMID:19273600
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2682051/
Abstract

The short form (S1b) of the prolactin receptor (PRLR) silences prolactin-induced activation of gene transcription by the PRLR long form (LF). The functional and structural contributions of two intramolecular disulfide (S-S) bonds within the extracellular subdomain 1 (D1) of S1b to its inhibitory function on the LF were investigated. Mutagenesis of the paired cysteines eliminated the inhibitory action of S1b. The expression of the mutated S1b (S1bx) on the cell surface was not affected, indicating native-like folding of the receptor. The constitutive JAK2 phosphorylation observed in S1b was not present in cells expressing S1bx, and JAK2 association was disrupted. BRET(50) (BRET(50) represents the relative affinity as acceptor/donor ratio required to reach half-maximal BRET [bioluminescence resonance energy transfer] values) showed decreased LF/S1bx heterodimeric-association and increased affinity in S1bx homodimerization, thus favoring LF homodimerization and prolactin-induced signaling. Computer modeling based on the PRLR crystal structure showed that minor changes in the tertiary structure of D1 upon S-S bond disruption propagated to the quaternary structure of the homodimer, affecting the dimerization interface. These changes explain the higher homodimerization affinity of S1bx and provide a structural basis for its lack of inhibitory function. The PRLR conformation as stabilized by S-S bonds is required for the inhibitory action of S1b on prolactin-induced LF-mediated function and JAK2 association.

摘要

催乳素受体(PRLR)的短形式(S1b)可使催乳素诱导的由PRLR长形式(LF)介导的基因转录激活沉默。研究了S1b细胞外亚结构域1(D1)内两个分子内二硫键(S-S)对其对LF抑制功能的功能和结构贡献。成对半胱氨酸的诱变消除了S1b的抑制作用。突变型S1b(S1bx)在细胞表面的表达未受影响,表明受体具有天然样折叠。在表达S1bx的细胞中未观察到S1b中存在的组成型JAK2磷酸化,并且JAK2的缔合被破坏。生物发光共振能量转移(BRET)(BRET(50)表示达到最大BRET值一半所需的受体/供体相对亲和力)显示LF/S1bx异二聚体缔合减少,而S1bx同二聚化亲和力增加,从而有利于LF同二聚化和催乳素诱导的信号传导。基于PRLR晶体结构的计算机建模表明,S-S键断裂后D1三级结构的微小变化传播到同二聚体的四级结构,影响二聚化界面。这些变化解释了S1bx更高的同二聚化亲和力,并为其缺乏抑制功能提供了结构基础。S-S键稳定的PRLR构象是S1b对催乳素诱导的LF介导功能和JAK2缔合发挥抑制作用所必需的。

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