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ACKR3

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Mammalian protein found in Homo sapiens
ACKR3
Available structures
PDBOrtholog search: PDBe RCSB
List of PDB id codes

7SK6, 7SK5

Identifiers
AliasesACKR3, CMKOR1, CXC-R7, CXCR-7, CXCR7, GPR159, RDC-1, RDC1, atypical chemokine receptor 3
External IDsOMIM: 610376; MGI: 109562; HomoloGene: 22419; GeneCards: ACKR3; OMA:ACKR3 - orthologs
Gene location (Human)
Chromosome 2 (human)
Chr.Chromosome 2 (human)
Chromosome 2 (human)Genomic location for ACKR3Genomic location for ACKR3
Band2q37.3Start236,567,787 bp
End236,582,354 bp
Gene location (Mouse)
Chromosome 1 (mouse)
Chr.Chromosome 1 (mouse)
Chromosome 1 (mouse)Genomic location for ACKR3Genomic location for ACKR3
Band1 D|1 45.28 cMStart90,131,702 bp
End90,144,473 bp
RNA expression pattern
Bgee
HumanMouse (ortholog)
Top expressed in
  • synovial joint

  • vena cava

  • tendon of biceps brachii

  • cartilage tissue

  • skin of hip

  • saphenous vein

  • pericardium

  • synovial membrane

  • tibial arteries

  • mucosa of paranasal sinus
Top expressed in
  • medial ganglionic eminence

  • renal corpuscle

  • medullary collecting duct

  • endocardial cushion

  • aortic valve

  • stria vascularis

  • ascending aorta

  • ciliary body

  • myocardium of ventricle

  • iris
More reference expression data
BioGPS
More reference expression data
Gene ontology
Molecular function
Cellular component
Biological process
Sources:Amigo / QuickGO
Orthologs
SpeciesHumanMouse
Entrez

57007

12778

Ensembl

ENSG00000144476

ENSMUSG00000044337

UniProt

P25106

P56485

RefSeq (mRNA)

NM_001047841
NM_020311

NM_001271607
NM_007722

RefSeq (protein)

NP_064707

NP_001258536
NP_031748

Location (UCSC)Chr 2: 236.57 – 236.58 MbChr 1: 90.13 – 90.14 Mb
PubMed search
Wikidata
View/Edit HumanView/Edit Mouse

Atypical chemokine receptor 3 also known as C-X-C chemokine receptor type 7 (CXCR-7) and G-protein coupled receptor 159 (GPR159) is a protein that in humans is encoded by the ACKR3 gene.

This gene encodes a G protein-coupled receptor family member. It belongs to the chemokine receptor family of GPCRs. Within this family, ACKR3 is classified as a class A GPCR. This GPCR protein was earlier thought to be a receptor for vasoactive intestinal peptide (VIP) and was considered to be an orphan receptor. It is now classified as a chemokine receptor able to bind the chemokines CXCL12/SDF-1 and CXCL11. The protein is also a coreceptor for human immunodeficiency viruses (HIV). Translocations involving this gene and HMGA2 on chromosome 12 have been observed in lipomas. Alternatively spliced transcript variants encoding the same protein isoform have been found for this gene. Whereas some reports claim that the receptor induces signaling following ligand binding, recent findings in zebrafish suggest that CXCR7 functions primarily by sequestering the chemokine CXCL12.

Another study has provided evidence that ligand binding to CXCR7 activates MAP kinases through Beta-arrestins, and thus has functions beyond ligand sequestration.

ACKR3 has also been shown to sequester endogenous opioid peptides and is thought to modulate their activity.

Nomenclature

In 2013, the Nomenclature and Standards Committee of the International Union of Basic and Clinical Pharmacology subcommittee for chemokine receptors reevaluated C-X-C chemokine receptor type 7 (CXCR7) and classified it as an atypical chemokine receptor, leading to its renaming as atypical chemokine receptor 3 (ACKR3). Additional names that have been mentioned in the literature, albeit less frequently, include GPR159 and Orphan receptor RDC1, the latter being a term primarily found in older literature.

Function

ACKR3 stands out as an atypical receptor due to its β-arrestin-biased signaling nature. In the case of a β-arrestin-biased receptor like ACKR3, when it is treated with an unbiased ligand, it triggers signaling pathways solely mediated by β-arrestin. What sets ACKR3 apart is its absence of G-protein involvement, which distinguishes it from typical GPCRs.

Despite being considered atypical, the functions of ACKR3 do not imply that it acts as a completely inactive receptor for CXCL12. On the contrary, extensive literature supports the notion of ACKR3 engaging in active signaling, which is believed to rely on arrestin-mediated mechanisms. Nevertheless, its role as a decoy receptor for CXCL12/SDF1 is well-established. This is evident by the significantly higher affinity of CXCL12 binding to ACKR3/CXCR7 compared to CXCR4, along with its constant internalization facilitated by the recruitment of β-arrestin, without known downstream signaling events.

Ligands

In addition to CXCL12, ACKR3 engages with multiple ligands, encompassing CXCL11, macrophage inhibitory factor (MIF), adrenomedullin (ADM), opioid peptides such as nociceptin, dynorphin, and enkephalin, as well as the viral chemokine vCCL2/viral macrophage inflammatory protein-II.

Inhibition of ACKR3 by ligands such as the peptide LIH383 (FGGFMRRK-NH2) and the small molecules conolidine, RTI-5152-12, and VUF15485 increases opioid peptide activity and produces analgesic and antidepressant effects in animal studies.

Interactions

ACKR3 and CXCR4 have been shown to interact, different possibilities regarding the involvement of ACKR3 and CXCR4 in CXCL12 signaling:

A) ACKR3 can attenuate CXCR4 signaling by forming heterodimers with CXCR4. While this interaction was initially observed in cells with CXCR7 overexpression, it has rarely been observed with endogenous CXCR7.

B) Multiple cell types demonstrate that either ACKR3 or CXCR4 controls specific cell functions (e.g., migration, proliferation). The distinct regulation of these functions occurs through one of the receptors.

C) Synergistic effects between CXCR4 and ACKR3 have been observed in many cases, suggesting that cellular responses to CXCL12 require the presence of both receptors. Whether receptor heterodimerization is responsible for these synergistic effects remains uncertain.

D) In addition to synergistic effects, a few studies have shown additive effects of ACKR3 and CXCR4 on specific cell functions. However, it has not been experimentally tested whether receptor heterodimerization is necessary for these additive effects. E) Within specific cell types, CXCR4, ACKR3, and CXCR4/ACKR3 heterodimers control distinct cell functions. This pattern appears to be a common arrangement of the CXCL12 system in various types of stem and progenitor cells.

References

  1. ^ GRCh38: Ensembl release 89: ENSG00000144476Ensembl, May 2017
  2. ^ GRCm38: Ensembl release 89: ENSMUSG00000044337Ensembl, May 2017
  3. "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  4. "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  5. Balabanian K, Lagane B, Infantino S, Chow KY, Harriague J, Moepps B, et al. (October 2005). "The chemokine SDF-1/CXCL12 binds to and signals through the orphan receptor RDC1 in T lymphocytes". The Journal of Biological Chemistry. 280 (42): 35760–35766. doi:10.1074/jbc.M508234200. PMID 16107333.
  6. ^ "Entrez Gene: CXCR7 chemokine (C-X-C motif) receptor 7".
  7. Fumagalli A, Zarca A, Neves M, Caspar B, Hill SJ, Mayor F, et al. (December 2019). "CXCR4/ACKR3 Phosphorylation and Recruitment of Interacting Proteins: Key Mechanisms Regulating Their Functional Status". Molecular Pharmacology. 96 (6): 794–808. doi:10.1124/mol.118.115360. hdl:10261/214032. PMID 30837297. S2CID 73513931.
  8. * Rajagopal S, Kim J, Ahn S, Craig S, Lam CM, Gerard NP, et al. (January 2010). "Beta-arrestin- but not G protein-mediated signaling by the "decoy" receptor CXCR7". Proceedings of the National Academy of Sciences of the United States of America. 107 (2): 628–632. Bibcode:2010PNAS..107..628R. doi:10.1073/pnas.0912852107. PMC 2818968. PMID 20018651.
  9. ^ Meyrath M, Szpakowska M, Zeiner J, Massotte L, Merz MP, Benkel T, et al. (June 2020). "The atypical chemokine receptor ACKR3/CXCR7 is a broad-spectrum scavenger for opioid peptides". Nature Communications. 11 (1): 3033. Bibcode:2020NatCo..11.3033M. doi:10.1038/s41467-020-16664-0. PMC 7305236. PMID 32561830.
  10. Bachelerie F, Graham GJ, Locati M, Mantovani A, Murphy PM, Nibbs R, et al. (March 2014). "New nomenclature for atypical chemokine receptors". Nature Immunology. 15 (3): 207–208. doi:10.1038/ni.2812. PMID 24549061. S2CID 205367583.
  11. Rajagopal S, Kim J, Ahn S, Craig S, Lam CM, Gerard NP, et al. (January 2010). "Beta-arrestin- but not G protein-mediated signaling by the "decoy" receptor CXCR7". Proceedings of the National Academy of Sciences of the United States of America. 107 (2): 628–632. Bibcode:2010PNAS..107..628R. doi:10.1073/pnas.0912852107. PMC 2818968. PMID 20018651.
  12. ^ Koch C, Engele J (November 2020). "Functions of the CXCL12 Receptor ACKR3/CXCR7-What Has Been Perceived and What Has Been Overlooked". Molecular Pharmacology. 98 (5): 577–585. doi:10.1124/molpharm.120.000056. PMID 32883765. S2CID 221498026.
  13. Pance K, Gramespacher JA, Byrnes JR, Salangsang F, Serrano JC, Cotton AD, et al. (February 2023). "Modular cytokine receptor-targeting chimeras for targeted degradation of cell surface and extracellular proteins". Nature Biotechnology. 41 (2): 273–281. doi:10.1038/s41587-022-01456-2. PMC 9931583. PMID 36138170.
  14. Meyrath M, Szpakowska M, Zeiner J, Massotte L, Merz MP, Benkel T, et al. (June 2020). "The atypical chemokine receptor ACKR3/CXCR7 is a broad-spectrum scavenger for opioid peptides". Nature Communications. 11 (1): 3033. Bibcode:2020NatCo..11.3033M. doi:10.1038/s41467-020-16664-0. PMC 7305236. PMID 32561830.
  15. Szpakowska M, Decker AM, Meyrath M, Palmer CB, Blough BE, Namjoshi OA, Chevigné A (June 2021). "The natural analgesic conolidine targets the newly identified opioid scavenger ACKR3/CXCR7". Signal Transduct Target Ther. 6 (1): 209. doi:10.1038/s41392-021-00548-w. PMC 8169647. PMID 34075018.
  16. Zarca AM, Adlere I, Viciano CP, Arimont-Segura M, Meyrath M, Simon IA, Bebelman JP, Laan D, Custers HG, Janssen E, Versteegh KL, Buzink MC, Nesheva DN, Bosma R, de Esch IJ, Vischer HF, Wijtmans M, Szpakowska M, Chevigné A, Hoffmann C, de Graaf C, Zarzycka BA, Windhorst AD, Smit MJ, Leurs R (March 2024). "Pharmacological Characterization and Radiolabeling of VUF15485, a High-Affinity Small-Molecule Agonist for the Atypical Chemokine Receptor ACKR3" (PDF). Mol Pharmacol. 105 (4): 301–312. doi:10.1124/molpharm.123.000835. PMID 38346795.

External links

Further reading

This article incorporates text from the United States National Library of Medicine, which is in the public domain.

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