Regulation of Chemokine Activity - A Focus on the Role of Dipeptidyl Peptidase IV/CD26

Regulation of Chemokine Activity - A Focus on the Role of Dipeptidyl Peptidase IV/CD26

Chemokines are small, chemotactic proteins that play a crucial role in leukocyte migration and are, therefore, essential for proper functioning of the immune system. Chemokines exert their chemotactic effect by activation of chemokine receptors, which are G protein-coupled receptors (GPCRs), and int...

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Published in:Frontiers in immunology Vol. 7; p. 483
Main Authors: Metzemaekers, Mieke, Van Damme, Jo, Mortier, Anneleen, Proost, Paul
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 11-11-2016
Subjects:
CD26
chemokine
glycosaminoglycan
Immunology
Leukocyte migration
posttranslational modification
Proteolysis
chemokine
posttranslational modification
leukocyte migration
GPCR
dipeptidyl peptidase IV
CD26
glycosaminoglycan
proteolysis
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Summary:Chemokines are small, chemotactic proteins that play a crucial role in leukocyte migration and are, therefore, essential for proper functioning of the immune system. Chemokines exert their chemotactic effect by activation of chemokine receptors, which are G protein-coupled receptors (GPCRs), and interaction with glycosaminoglycans (GAGs). Furthermore, the exact chemokine function is modulated at the level of posttranslational modifications. Among the different types of posttranslational modifications that were found to occur and , i.e., proteolysis, citrullination, glycosylation, and nitration, NH -terminal proteolysis of chemokines has been described most intensively. Since the NH -terminal chemokine domain mediates receptor interaction, NH -terminal modification by limited proteolysis or amino acid side chain modification can drastically affect their biological activity. An enzyme that has been shown to provoke NH -terminal proteolysis of various chemokines is dipeptidyl peptidase IV or CD26. This multifunctional protein is a serine protease that preferably cleaves dipeptides from the NH -terminal region of peptides and proteins with a proline or alanine residue in the penultimate position. Various chemokines possess such a proline or alanine residue, and CD26-truncated forms of these chemokines have been identified in cell culture supernatant as well as in body fluids. The effects of CD26-mediated proteolysis in the context of chemokines turned out to be highly complex. Depending on the chemokine ligand, loss of these two NH -terminal amino acids can result in either an increased or a decreased biological activity, enhanced receptor specificity, inactivation of the chemokine ligand, or generation of receptor antagonists. Since chemokines direct leukocyte migration in homeostatic as well as pathophysiologic conditions, CD26-mediated proteolytic processing of these chemotactic proteins may have significant consequences for appropriate functioning of the immune system. After introducing the chemokine family together with the GPCRs and GAGs, as main interaction partners of chemokines, and discussing the different forms of posttranslational modifications, this review will focus on the intriguing relationship of chemokines with the serine protease CD26.
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Edited by: Mario Mellado, Spanish National Research Council, Spain
Reviewed by: Stephan Von Horsten, University of Erlangen-Nuremberg, Germany; Hal Broxmeyer, Indiana University School of Medicine, USA
Specialty section: This article was submitted to Chemoattractants, a section of the journal Frontiers in Immunology
ISSN:1664-3224
1664-3224
DOI:10.3389/fimmu.2016.00483