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刺豚鼠信号蛋白的结构

Structures of the agouti signaling protein.

作者信息

McNulty Joseph C, Jackson Pilgrim J, Thompson Darren A, Chai Biaoxin, Gantz Ira, Barsh Gregory S, Dawson Philip E, Millhauser Glenn L

机构信息

Department of Chemistry and Biochemistry, University of California, Santa Cruz, CA 95064, USA.

出版信息

J Mol Biol. 2005 Mar 4;346(4):1059-70. doi: 10.1016/j.jmb.2004.12.030. Epub 2005 Jan 25.

DOI:10.1016/j.jmb.2004.12.030
PMID:15701517
Abstract

Expression of the agouti signaling protein (ASIP) during hair growth produces the red/yellow pigment pheomelanin. ASIP, and its neuropeptide homolog the agouti-related protein (AgRP) involved in energy balance, are novel, paracrine signaling molecules that act as inverse agonists at distinct subsets of melanocortin receptors. Ubiquitous ASIP expression in mice gives rise to a pleiotropic phenotype characterized by a uniform yellow coat color, obesity, overgrowth, and metabolic derangements similar to type II diabetes in humans. Here we report the synthesis and NMR structure of ASIP's active, cysteine-rich, C-terminal domain. ASIP adopts the inhibitor cystine knot fold and, along with AgRP, are the only known mammalian proteins in this structure class. Moreover, ASIP populates two distinct conformers resulting from a cis peptide bond at Pro102-Pro103 and a coexistence of cis/trans isomers of Ala104-Pro105. Pharmacologic studies of Pro-->Ala mutants demonstrate that the minor conformation with two cis peptide bonds is responsible for activity at all MCRs. The loop containing the heterogeneous Ala-Pro peptide bond is conserved in mammals, and suggests that ASIP is either trapped by evolution in this unusual configuration or possesses function outside of strict MCR antagonism.

摘要

刺鼠信号蛋白(ASIP)在毛发生长过程中的表达会产生红/黄色素——褐黑素。ASIP及其参与能量平衡的神经肽同源物刺鼠相关蛋白(AgRP)是新型的旁分泌信号分子,它们作为黑素皮质素受体不同亚群的反向激动剂发挥作用。ASIP在小鼠中的普遍表达会产生一种多效性表型,其特征为全身黄色被毛、肥胖、过度生长以及类似于人类II型糖尿病的代谢紊乱。在此,我们报道了ASIP活性、富含半胱氨酸的C末端结构域的合成及核磁共振结构。ASIP采用抑制性胱氨酸结折叠,并且与AgRP一起,是该结构类别中仅有的已知哺乳动物蛋白。此外,由于Pro102-Pro103处的顺式肽键以及Ala104-Pro105的顺/反异构体共存,ASIP呈现出两种不同的构象。对Pro→Ala突变体的药理学研究表明,具有两个顺式肽键的次要构象对所有黑素皮质素受体的活性负责。包含异质Ala-Pro肽键的环在哺乳动物中是保守的,这表明ASIP要么在进化过程中被困在这种异常构象中,要么在严格的黑素皮质素受体拮抗作用之外具有功能。

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Structures of the agouti signaling protein.刺豚鼠信号蛋白的结构
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