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Chemokine receptors C
Unless otherwise stated all data on this page refer to the human proteins. Gene information is provided for human (Hs), mouse (Mm) and rat (Rn).
Overview
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Chemokine receptors (nomenclature as agreed by the NC-IUPHAR Subcommittee on Chemokine Receptors [6,79-80]) comprise a large subfamily of 7TM proteins that bind one or more chemokines, a large family of small cytokines typically possessing chemotactic activity for leukocytes. Additional hematopoietic and non-hematopoietic roles have been identified for many chemokines in the areas of embryonic development, immune cell proliferation, activation and death, viral infection, and as antibacterials, among others. Chemokine receptors can be divided by function into two main groups: G protein-coupled chemokine receptors, which mediate leukocyte trafficking, and "Atypical chemokine receptors", which may signal through non-G protein-coupled mechanisms and act as chemokine scavengers to downregulate inflammation or shape chemokine gradients [6].
Chemokines in turn can be divided by structure into four subclasses by the number and arrangement of conserved cysteines. CC (also known as β-chemokines; n= 28), CXC (also known as α-chemokines; n= 17) and CX3C (n= 1) chemokines all have four conserved cysteines, with zero, one and three amino acids separating the first two cysteines respectively. C chemokines (n= 2) have only the second and fourth cysteines found in other chemokines. Chemokines can also be classified by function into homeostatic and inflammatory subgroups. Most chemokine receptors are able to bind multiple high-affinity chemokine ligands, but the ligands for a given receptor are almost always restricted to the same structural subclass. Most chemokines bind to more than one receptor subtype. Receptors for inflammatory chemokines are typically highly promiscuous with regard to ligand specificity, and may lack a selective endogenous ligand. G protein-coupled chemokine receptors are named acccording to the class of chemokines bound, whereas ACKR is the root acronym for atypical chemokine receptors [7]. There can be substantial cross-species differences in the sequences of both chemokines and chemokine receptors, and in the pharmacology and biology of chemokine receptors. Endogenous and microbial non-chemokine ligands have also been identified for chemokine receptors. Many chemokine receptors function as HIV co-receptors, but CCR5 is the only one demonstrated to play an essential role in HIV/AIDS pathogenesis. The tables include both standard chemokine receptor names [125] and aliases.
Receptors
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CCR1
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CCR2
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CCR3
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CCR4
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CCR5
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CCR6
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CCR7
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CCR8
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CCR9
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CCR10
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CXCR1
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CXCR2
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CXCR3
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CXCR4
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CXCR5
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CXCR6
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CX3CR1
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XCR1
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ACKR1
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ACKR2
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ACKR3
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ACKR4
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CCRL2
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Further reading
* Key recommended reading is highlighted with an asterisk
* Bachelerie F, Ben-Baruch A, Burkhardt AM, Combadiere C, Farber JM, Graham GJ, Horuk R, Sparre-Ulrich AH, Locati M, Luster AD et al.. (2014) International Union of Pharmacology. LXXXIX. Update on the extended family of chemokine receptors and introducing a new nomenclature for atypical chemokine receptors. Pharmacol Rev, 66 (1): 1-79. [PMID:24218476]
* Bachelerie F, Graham GJ, Locati M, Mantovani A, Murphy PM, Nibbs R, Rot A, Sozzani S, Thelen M. (2015) An atypical addition to the chemokine receptor nomenclature: IUPHAR Review 15. Br J Pharmacol, 172 (16): 3945-9. [PMID:25958743]
* Koelink PJ, Overbeek SA, Braber S, de Kruijf P, Folkerts G, Smit MJ, Kraneveld AD. (2012) Targeting chemokine receptors in chronic inflammatory diseases: an extensive review. Pharmacol Ther, 133 (1): 1-18. [PMID:21839114]
* Murphy PM. (2002) International Union of Pharmacology. XXX. Update on chemokine receptor nomenclature. Pharmacol Rev, 54 (2): 227-9. [PMID:12037138]
* Murphy PM, Baggiolini M, Charo IF, Hébert CA, Horuk R, Matsushima K, Miller LH, Oppenheim JJ, Power CA. (2000) International union of pharmacology. XXII. Nomenclature for chemokine receptors. Pharmacol Rev, 52 (1): 145-76. [PMID:10699158]
Muñoz LM, Lucas P, Holgado BL, Barroso R, Vega B, Rodríguez-Frade JM, Mellado M. (2011) Receptor oligomerization: a pivotal mechanism for regulating chemokine function. Pharmacol Ther, 131 (3): 351-8. [PMID:21600920]
* Scholten DJ, Canals M, Maussang D, Roumen L, Smit MJ, Wijtmans M, de Graaf C, Vischer HF, Leurs R. (2012) Pharmacological modulation of chemokine receptor function. Br J Pharmacol, 165 (6): 1617-43. [PMID:21699506]
Szpakowska M, Fievez V, Arumugan K, van Nuland N, Schmit JC, Chevigné A. (2012) Function, diversity and therapeutic potential of the N-terminal domain of human chemokine receptors. Biochem Pharmacol, 84 (10): 1366-80. [PMID:22935450]
Wedemeyer MJ, Mahn SA, Getschman AE, Crawford KS, Peterson FC, Marchese A, McCorvy JD, Volkman BF. (2020) The chemokine X-factor: Structure-function analysis of the CXC motif at CXCR4 and ACKR3. J Biol Chem, 295 (40): 13927-13939. [PMID:32788219]
White GE, Iqbal AJ, Greaves DR. (2013) CC chemokine receptors and chronic inflammation--therapeutic opportunities and pharmacological challenges. Pharmacol Rev, 65 (1): 47-89. [PMID:23300131]
References
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NC-IUPHAR subcommittee and family contributors
Subcommittee members:
Francoise Bachelerie
Adit Ben-Baruch
Christophe Combadiere
Joshua M. Farber
Gerard J. Graham
Richard Horuk
Massimo Locati
Andrew D. Luster
Alberto Mantovani
Philip M. Murphy (Chairperson)
Robert J. B. Nibbs
Hisayuki Nomiyama
Christine A. Power
Amanda E. I. Proudfoot
Mette M. Rosenkilde
Antal Rot
Silvano Sozzani
Marcus Thelen
Osamu Yoshie
Albert Zlotnik
Amanda M. Burkhardt
Alexander H. Sparre-Ulrich |
Other contributors:
Israel F. Charo
Reinhold Förster
Rebecca Hills
Kouji Matsushima
Amy E. Monaghan
Georgios L. Moschovakis
Joost J. Oppenheim
Mohib Uddin |
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Concise Guide to PHARMACOLOGY citation:
Alexander SPH, Christopoulos A, Davenport AP, Kelly E, Mathie AA, Peters JA, Veale EL, Armstrong JF, Faccenda E, Harding SD, Davies JA et al. (2023) The Concise Guide to PHARMACOLOGY 2023/24: G protein-coupled receptors. Br J Pharmacol. 180 Suppl 2:S23-S144.
Specific chemokine receptors facilitate cell entry by microbes, such as ACKR1 for Plasmodium vivax, and CCR5 and CXCR4 for HIV-1. Virally encoded chemokine receptors are known (e.g. US28, a homologue of CCR1 from human cytomegalovirus and ORF74, which encodes a homolog of CXCR2 in Herpesvirus saimiri and gamma-Herpesvirus-68), but their role in viral life cycles is not established. Viruses can exploit or subvert the chemokine system by producing chemokine antagonists and scavengers. Three chemokine receptor antagonists have now been approved by the FDA: 1) the CCR5 antagonist maraviroc (Pfizer) for treatment of HIV/AIDS in patients with CCR5-using strains; and 2) the CXCR4 antagonist plerixafor (Sanofi) for hematopoietic stem cell mobilization with G-CSF (CSF3, P09919) in patients undergoing transplantation in the context of chemotherapy for Hodgkins' Disease and multiple myeloma; and 3) the CCR4 blocking antibody Poteligeo (mogamulizumab-kpkc, Kyowa Kirin, Inc.) for mycosis fungoides or Sezary syndrome.