Small G-proteins Ras, Rac and Rho in the regulation of the neutrophil respiratory burst induced by formyl peptide

Formylated peptides specifically activate many of the neutrophil functions; their action is mediated via formyl peptide receptors (FPRs). FPRs belong to the family of receptors having seven transmembrane-spanning domains and coupled with G-proteins (GPCR). About a dozen of highly homologous genes of FPRs were found to be localized in mouse chromosome 17. By binding with labeled N-formyl-Met-Leu-Phe (fMLF), FPRs are classified as receptors with high (FPR1) and low (FPR2 and FPR3/FPRL1) affinity to formyl peptide. Binding of formyl peptide with FPRs triggers the complex signaling events, the most studied are: activation of phospholipase C (PLC) with subsequent calcium signaling; launching of mitogen activated protein kinases (MAPKs) cascade pathway, and activation of phosphoinositol-3-kinase (PI3K) cascades. As we have shown previously, the priming of the respiratory burst of mice neutrophils occurs under the cell activation by fMLF in high doses only, i.e., it is necessary to activate low affinity FPRs. Besides, the usage of the specific MEK and p38MAPK inhibitors induced significant suppression of the response to 1 μM fMLM, while the response to 50 μM fMLF increased in the presence of the inhibitors. We suggest that there is a signal divergence upon activation of high and low affinity fMLF receptors, and small G protein dependent signaling pathways could be alternative to activate NADPH oxidase. Here we demonstrate that Ras-proteins participate in the respiratory burst activation, especially in activation via the high affinity fMLF receptors. Activation of the Rho- and Rac-proteins induced the down-regulation of the respiratory burst under the stimulation of high affinity FPRs. The inhibition of the Rho-proteins almost completely suppressed the respiratory burst activated via the high and low affinity receptors, probably due to inability to assemble of the cytoskeleton proteins and NADPH oxidase components. © 2012 Pleiades Publishing, Ltd.