Ross Ewan A, Douglas Mike R, Wong See Heng, Ross Emma J, Curnow S John, Nash Gerard B, Rainger Ed, Scheel-Toellner Dagmar, Lord Janet M, Salmon Mike, Buckley Christopher D
Division of Immunity and Infection, Medical Research Council (MRC) Centre for Immune Regulation, Institute for Biomedical Research, University of Birmingham, United Kingdom.
Blood. 2006 Feb 1;107(3):1178-83. doi: 10.1182/blood-2005-07-2692. Epub 2005 Oct 13.
According to the prevailing paradigm, neutrophils are short-lived cells that undergo spontaneous apoptosis within 24 hours of their release from the bone marrow. However, neutrophil survival can be significantly prolonged within inflamed tissue by cytokines, inflammatory mediators, and hypoxia. During screening experiments aimed at identifying the effect of the adhesive microenvironment on neutrophil survival, we found that VCAM-1 (CD106) was able to delay both spontaneous and Fas-induced apoptosis. VCAM-1-mediated survival was as efficient as that induced by the cytokine IFN-beta and provided an additive, increased delay in apoptosis when given in combination with IFN-beta. VCAM-1 delivered its antiapoptotic effect through binding the integrin alpha9beta1. The alpha9beta1 signaling pathway shares significant features with the IFN-beta survival signaling pathway, requiring PI3 kinase, NF-kappaB activation, as well as de novo protein synthesis, but the kinetics of NF-kappaB activation by VCAM-1 were slower and more sustained compared with IFN-beta. This study demonstrates a novel functional role for alpha9beta1 in neutrophil biology and suggests that adhesive signaling pathways provide an important extrinsic checkpoint for the resolution of inflammatory responses in tissues.
根据目前流行的范式,中性粒细胞是寿命短暂的细胞,从骨髓释放后24小时内就会发生自发凋亡。然而,在炎症组织中,细胞因子、炎症介质和缺氧可显著延长中性粒细胞的存活时间。在旨在确定黏附微环境对中性粒细胞存活影响的筛选实验中,我们发现血管细胞黏附分子-1(VCAM-1,CD106)能够延缓自发凋亡和Fas诱导的凋亡。VCAM-1介导的存活效果与细胞因子IFN-β诱导的效果相当,并且与IFN-β联合使用时,能进一步增加凋亡延迟时间。VCAM-1通过结合整合素α9β1发挥其抗凋亡作用。α9β1信号通路与IFN-β存活信号通路有显著的共同特征,需要PI3激酶、NF-κB激活以及从头合成蛋白质,但与IFN-β相比,VCAM-1激活NF-κB的动力学过程更缓慢且持续时间更长。这项研究证明了α9β1在中性粒细胞生物学中的新功能作用,并表明黏附信号通路为组织炎症反应的消退提供了一个重要的外在检查点。