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一种依赖抑制蛋白的多激酶信号复合物介导人原代巨噬细胞的MIP-1β/CCL4信号传导和趋化作用。

An arrestin-dependent multi-kinase signaling complex mediates MIP-1beta/CCL4 signaling and chemotaxis of primary human macrophages.

作者信息

Cheung Ricky, Malik Mobeen, Ravyn Vipa, Tomkowicz Brian, Ptasznik Andrzej, Collman Ronald G

机构信息

Pulmonary, Allergy and Critical Care, Department of Medicine, University of Pennsylvania School of Medicine, Philadelphia, Pennsylvania 19104-6061, USA.

出版信息

J Leukoc Biol. 2009 Oct;86(4):833-45. doi: 10.1189/jlb.0908551. Epub 2009 Jul 20.

DOI:10.1189/jlb.0908551
PMID:19620252
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2752020/
Abstract

MIP-1beta/CCL4 is a principal regulator of macrophage migration and signals through CCR5. Several protein kinases are linked to CCR5 in macrophages including the src kinase Lyn, PI3K, focal adhesion related kinase Pyk2, and members of the MAPK family, but whether and how these kinases regulate macrophage chemotaxis are not known. To define the role of these signaling molecules, we examined the functions and interactions of endogenous proteins in primary human macrophages. Using siRNA gene silencing and pharmacologic inhibition, we show that chemotaxis in response to CCR5 stimulation by MIP-1beta requires activation of Pyk2, PI3K p85, and Lyn, as well as MAPK ERK. MIP-1beta activation of CCR5 triggered translocation of Pyk2 and PI3K p85 from the cytoplasm to colocalize with Lyn at the plasma membrane with formation of a multimolecular complex. We show further that arrestins were recruited into the complex, and arrestin down-regulation impaired complex formation and macrophage chemotaxis toward MIP-1beta. Together, these results identify a novel mechanism of chemokine receptor regulation of chemotaxis and suggest that arrestins may serve as scaffolding proteins linking CCR5 to multiple downstream signaling molecules in a biologically important primary human cell type.

摘要

MIP-1β/CCL4是巨噬细胞迁移的主要调节因子,并通过CCR5发出信号。在巨噬细胞中,几种蛋白激酶与CCR5相关联,包括src激酶Lyn、PI3K、粘着斑相关激酶Pyk2以及MAPK家族成员,但这些激酶是否以及如何调节巨噬细胞趋化性尚不清楚。为了确定这些信号分子的作用,我们研究了原代人巨噬细胞中内源性蛋白的功能和相互作用。通过使用siRNA基因沉默和药理学抑制,我们发现MIP-1β刺激CCR5所引发的趋化性需要Pyk2、PI3K p85、Lyn以及MAPK ERK的激活。CCR5的MIP-1β激活触发了Pyk2和PI3K p85从细胞质转位至质膜,与Lyn共定位并形成多分子复合物。我们进一步表明,抑制蛋白被招募到该复合物中,抑制蛋白的下调会损害复合物的形成以及巨噬细胞对MIP-1β的趋化性。总之,这些结果确定了趋化因子受体调节趋化性的一种新机制,并表明抑制蛋白可能作为支架蛋白,在一种生物学上重要的原代人细胞类型中将CCR5与多个下游信号分子联系起来。

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