G protein-coupled receptor 43 is essential for neutrophil recruitment during intestinal inflammation.

Authors:
Christian Sina, Olga Gavrilova, Matti Förster, Andreas Till, Stefanie Derer, Friederike Hildebrand, Björn Raabe, Athena Chalaris, Jürgen Scheller, Ateequr Rehmann, Andre Franke, Stephan Ott, Robert Häsler, Susanna Nikolaus, Ulrich R Fölsch, Stefan Rose-John, Hui-Ping Jiang, Jun Li, Stefan Schreiber, Philip Rosenstiel
Year of publication:
2009
Volume:
183
Issue:
11
Issn:
0022-1767
Journal title abbreviated:
J IMMUNOL
Journal title long:
The journal of immunology
Impact factor:
4.985
Abstract:
Molecular danger signals attract neutrophilic granulocytes (polymorphonuclear leukocytes (PMNs)) to sites of infection. The G protein-coupled receptor (GPR) 43 recognizes propionate and butyrate and is abundantly expressed on PMNs. The functional role of GPR43 activation for in vivo orchestration of immune response is unclear. We examined dextrane sodium sulfate (DSS)-induced acute and chronic intestinal inflammatory response in wild-type and Gpr43-deficient mice. The severity of colonic inflammation was assessed by clinical signs, histological scoring, and cytokine production. Chemotaxis of wild-type and Gpr43-deficient PMNs was assessed through transwell cell chemotactic assay. A reduced invasion of PMNs and increased mortality due to septic complications were observed in acute DSS colitis. In chronic DSS colitis, Gpr43(-/-) animals showed diminished PMN intestinal migration, but protection against inflammatory tissue destruction. No significant difference in PMN migration and cytokine secretion was detected in a sterile inflammatory model. Ex vivo experiments show that GPR43-induced migration is dependent on activation of the protein kinase p38alpha, and that this signal acts in cooperation with the chemotactic cytokine keratinocyte chemoattractant. Interestingly, shedding of L-selectin in response to propionate and butyrate was compromised in Gpr43(-/-) mice. These results indicate a critical role for GPR43-mediated recruitment of PMNs in containing intestinal bacterial translocation, yet also emphasize the bipotential role of PMNs in mediating tissue destruction in chronic intestinal inflammation.