人趋化因子诱饵受体D6的β-抑制蛋白依赖性组成型内化

beta-Arrestin-dependent constitutive internalization of the human chemokine decoy receptor D6.

作者信息

Galliera Emanuela, Jala Venkatakrishna R, Trent John O, Bonecchi Raffaella, Signorelli Paola, Lefkowitz Robert J, Mantovani Alberto, Locati Massimo, Haribabu Bodduluri

机构信息

Centro di Eccellenza per l'Innovazione Diagnostica e Terapeutica (IDET), Institute of General Pathology, University of Milan, I-20133 Milan, Italy.

出版信息

J Biol Chem. 2004 Jun 11;279(24):25590-7. doi: 10.1074/jbc.M400363200. Epub 2004 Apr 13.

DOI:10.1074/jbc.M400363200

PMID:15084596

Abstract

Seven transmembrane receptors mediate diverse physiological responses including hormone action, olfaction, neurotransmission, and chemotaxis. Human D6 is a non-signaling seven-transmembrane receptor expressed on lymphatic endothelium interacting with most inflammatory CC-chemokines resulting in their rapid internalization. Here, we demonstrate that this scavenging activity is mediated by continuous internalization and constant surface expression of the receptor, a process involving the clathrin-coated pit-dependent pathway. D6 constitutively associates with the cytoplasmic adaptor beta-arrestin, and this interaction is essential for D6 internalization. An acidic region, but not the putative phosphorylation sites in the cytoplasmic tail of D6, is critical for receptor interaction with beta-arrestin and subsequent internalization. Neither the native D6 nor mutants uncoupled from beta-arrestin activate any G-protein-mediated signaling pathways. Therefore, D6 may be considered a decoy receptor structurally adapted to perform chemokine scavenging.

摘要

七跨膜受体介导多种生理反应，包括激素作用、嗅觉、神经传递和趋化性。人类D6是一种无信号传导功能的七跨膜受体，表达于淋巴管内皮细胞，可与大多数炎性CC趋化因子相互作用，导致其快速内化。在此，我们证明这种清除活性是由受体的持续内化和恒定的表面表达介导的，这一过程涉及网格蛋白包被小窝依赖性途径。D6与细胞质衔接蛋白β-抑制蛋白组成性结合，这种相互作用对于D6的内化至关重要。一个酸性区域，而非D6细胞质尾部的假定磷酸化位点，对于受体与β-抑制蛋白的相互作用及随后的内化至关重要。无论是天然的D6还是与β-抑制蛋白解偶联的突变体，均不激活任何G蛋白介导的信号通路。因此，D6可被视为一种结构上适于进行趋化因子清除的诱饵受体。

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人趋化因子诱饵受体D6的β-抑制蛋白依赖性组成型内化

beta-Arrestin-dependent constitutive internalization of the human chemokine decoy receptor D6.

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