The role of the ribosomal protein S19 C-terminus in altering the chemotaxis of leucocytes by causing functional differences in the C5a receptor response

Abstract

Ribosomal protein S19 (RP S19) oligomers have been discovered as the first chemoattractant of migrating monocytes/macrophages to apoptotic cells via the C5a receptor (C5aR). In contrast to C5a, a fusion of the C-terminus (I(134)-H(145)) of RP S19 to C5a, the C5a/RP S19 chimera, substitutes for the RP S19 oligomers and is able to replicate C5aR antagonist-induced and agonist-induced dual effects on neutrophil and monocyte chemotactic responses, respectively. We recently discovered a gain of binding affinity when the I(134)-H(145) inhibited the activation of neutrophil C5aR-mediated chemotactic pathways. However, the opposing ligand-dependent chemotactic mechanisms are not fully understood. In this study, a loss of this additional binding affinity appeared to cause the monocyte C5aR to activate an alternative signalling pathway. The p38 mitogen activated-protein kinase (MAPK) pathway was linked to cell migration rather than a classical extracellular-regulated kinase 1/2 pathway commonly used by C5a. C5aR internalization was not involved in the alternative chemotactic pathway. We propose a model of activation involving a C5aR co-molecule that interferes with the C5aR-Gi protein interaction upon binding to the I(134)-H(145) in neutrophils; however, a free I(134)-H(145) from the C5aR co-molecule can guide the alternative activation of the chemotactic p38MAPK pathway in monocytes/macrophages.