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通过慢病毒递送小干扰RNA分析C5a介导的趋化作用。

Analysis of C5a-mediated chemotaxis by lentiviral delivery of small interfering RNA.

作者信息

Hwang Jong-Ik, Fraser Iain D C, Choi Sangdun, Qin Xiao-Feng, Simon Melvin I

机构信息

Division of Biology, California Institute of Technology, Pasadena, CA 91125, USA.

出版信息

Proc Natl Acad Sci U S A. 2004 Jan 13;101(2):488-93. doi: 10.1073/pnas.0307549100. Epub 2003 Dec 29.

DOI:10.1073/pnas.0307549100

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC327174/

Abstract

Immune cells respond to chemotactic signals by means of G protein-coupled receptors. Attempts to elucidate the function of specific G protein family members in these responses is complicated by redundancy among the different G protein isoforms. We have used lentiviral-based RNA interference to eliminate expression of specific G protein subunits selectively in J774A.1 mouse macrophages. The chemotactic response to the complement factors C5a and C3a is ablated in cells lacking G beta(2) but is unaffected in cells lacking G beta(1), G alpha i(2), or G alpha i(3). Similarly, the C5a-mediated calcium response of single cells is either absent or significantly delayed and weakened by G beta(2) knockdown. Assessment of Akt1 phosphorylation levels in response to C5a shows rapid and sustained phosphorylation in both wild-type cells and cells lacking G beta(1). Cells lacking G beta(2) retain the rapid response but cannot sustain phospho-Akt1 levels. The phenotype of cells lacking G beta(2) can be reversed by overexpression of either human G beta(2) or mouse G beta(1). These data demonstrate the usefulness of lentiviral-based RNA interference in the systematic analysis of a signaling pathway, and they suggest that in J774A.1 cells, G beta(2)-derived G beta gamma is the most effective mediator of chemotaxis to C5a.

摘要

免疫细胞通过G蛋白偶联受体对趋化信号作出反应。由于不同G蛋白亚型之间存在冗余，阐明特定G蛋白家族成员在这些反应中的功能变得复杂。我们利用基于慢病毒的RNA干扰技术，在J774A.1小鼠巨噬细胞中选择性地消除特定G蛋白亚基的表达。对补体因子C5a和C3a的趋化反应在缺乏Gβ(2)的细胞中被消除，但在缺乏Gβ(1)、Gαi(2)或Gαi(3)的细胞中不受影响。同样，单细胞的C5a介导的钙反应在Gβ(2)敲低的情况下要么缺失，要么显著延迟并减弱。对C5a反应的Akt1磷酸化水平评估显示，野生型细胞和缺乏Gβ(1)的细胞中均有快速且持续的磷酸化。缺乏Gβ(2)的细胞保留了快速反应，但无法维持磷酸化Akt1水平。缺乏Gβ(2)的细胞的表型可以通过人Gβ(2)或小鼠Gβ(1)的过表达来逆转。这些数据证明了基于慢病毒的RNA干扰在信号通路系统分析中的有用性，并且表明在J774A.1细胞中，Gβ(2)衍生的Gβγ是对C5a趋化作用最有效的介质。