Canadian journal of physiology and pharmacology
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Can. J. Physiol. Pharmacol. · Jan 2005
Neutrophil primary granule release and maximal superoxide generation depend on Rac2 in a common signalling pathway.
Neutrophils play an integral role in innate immunity by undergoing degranulation and respiratory burst in response to inflammatory stimuli. Rac2, a monomeric GTP-binding protein, has been shown to be involved in several neutrophil functions, including primary granule release and superoxide (O(2)(-.) generation. We hypothesized that Rac2 is a common signalling molecule required for primary granule translocation and maximal O(2)(-.) production. ⋯ Thus, the signalling pathway leading to primary granule release utilized Rac2, which was also necessary for full activation of O(2)(-.) generation in stimulated neutrophils. These findings indicate that O(2)(-.) release and secondary granule secretion may use protein kinase C (PKC) - dependent pathways, whereas primary granule exocytosis appears to rely on PKC-independent signalling events. These findings shed light on possible signalling mechanisms involved in granule secretion from activated neutrophils responding to different stimuli.