Nathan C, Sanchez E
Beatrice and Samuel A. Seaver Laboratory, Department of Medicine, Cornell University Medical Center, New York 10021.
J Cell Biol. 1990 Nov;111(5 Pt 1):2171-81. doi: 10.1083/jcb.111.5.2171.
The ability of neutrophils (PMN) to undergo a prolonged respiratory burst in response to cytokines such as tumor necrosis factor-alpha (TNF) depends on expression of CD11/CD18 (beta 2) integrins and interaction with matrix protein-coated surfaces (Nathan, C., S. Srimal, C. Farber, E. Sanchez, L. Kabbash, A. Asch, J. Gailit, and S. D. Wright. 1989. J. Cell Biol. 109:1341-1349). We tested the hypothesis that changes in cAMP mediate the joint action of cytokines and integrins. When plated on FBS- or fibrinogen-coated surfaces, PMN responded to TNF with a sustained fall in intracellular cAMP. This did not occur without TNF; in suspended PMN; in PMN treated with anti-CD18 mAb; or in PMN genetically deficient in beta 2 integrins. A preceding fall in cAMP appeared essential for TNF to induce a respiratory burst, because drugs that elevate cAMP blocked the burst if added any time before, but not after, its onset. Adenosine analogues and cytochalasins also block the TNF-induced respiratory burst if added before, but not after, its onset. Both also blocked the TNF-induced fall in cAMP. The effect of cytochalasins led us to examine the relationship between cAMP and actin reorganization. The same conditions that led to a sustained fall in cAMP led at the same time to cell spreading and the assembly of actin filaments. As with the respiratory burst, cAMP-elevating agents inhibited TNF-induced cell spreading and actin filament assembly if added before, but not after, spreading began. Thus, occupation of TNF receptors and engagement of CD18 integrins interact synergistically in PMN to promote a fall in cAMP. The fall in cAMP is closely related to cell spreading and actin reorganization. These changes are necessary for TNF to induce a prolonged respiratory burst. We conclude that integrins can act jointly with cytokines to affect cell shape and function through alterations in the level of a second messenger, cAMP.
中性粒细胞(PMN)对诸如肿瘤坏死因子-α(TNF)等细胞因子产生长时间呼吸爆发的能力取决于CD11/CD18(β2)整合素的表达以及与基质蛋白包被表面的相互作用(内森,C.,S. 斯里马尔,C. 法伯,E. 桑切斯,L. 卡巴什,A. 阿施,J. 盖利特,以及S. D. 赖特。1989年。《细胞生物学杂志》109:1341 - 1349)。我们检验了这样一个假说,即环磷酸腺苷(cAMP)的变化介导细胞因子和整合素的联合作用。当接种于胎牛血清(FBS)或纤维蛋白原包被的表面时,PMN对TNF的反应是细胞内cAMP持续下降。在没有TNF的情况下不会发生这种情况;在悬浮的PMN中不会发生;在用抗CD18单克隆抗体处理的PMN中不会发生;在β2整合素基因缺陷的PMN中也不会发生。cAMP先前的下降似乎是TNF诱导呼吸爆发所必需的,因为如果在呼吸爆发开始前的任何时间添加升高cAMP的药物,就会阻断呼吸爆发,但在爆发开始后添加则不会。腺苷类似物和细胞松弛素如果在呼吸爆发开始前添加也会阻断TNF诱导的呼吸爆发,但在爆发开始后添加则不会。两者也都阻断了TNF诱导的cAMP下降。细胞松弛素的作用促使我们研究cAMP与肌动蛋白重组之间的关系。导致cAMP持续下降的相同条件同时导致细胞铺展和肌动蛋白丝的组装。与呼吸爆发一样,如果在铺展开始前添加升高cAMP的药物,就会抑制TNF诱导的细胞铺展和肌动蛋白丝组装,但在铺展开始后添加则不会。因此,TNF受体的占据和CD18整合素的结合在PMN中协同作用以促进cAMP下降。cAMP的下降与细胞铺展和肌动蛋白重组密切相关。这些变化是TNF诱导长时间呼吸爆发所必需的。我们得出结论,整合素可以与细胞因子共同作用,通过改变第二信使cAMP的水平来影响细胞形状和功能。