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词条 Interferon-gamma receptor
释义

  1. Structure and function

  2. Disease linkage

      Mutations  

  3. References

  4. See also

{{infobox protein
|Name= interferon gamma receptor 1
|caption=Crystallographic structure of a 3:2 complex of the IFN-γ receptor alpha chain (IFNGR1) (green, cyan, and green/cyan) and the IFN-γ ligand (red and orange).[1]
|image= 1FG9_IFNG_IFNG.png
|width=
|HGNCid=5439
|Symbol=IFNGR1
|AltSymbols=IFNGR
|EntrezGene=3459
|OMIM=107470
|RefSeq=NM_000416
|UniProt=P15260
|PDB=
|ECnumber=
|Chromosome=6
|Arm=q
|Band=23
|LocusSupplementaryData=-q24
}}{{infobox protein
|Name=interferon gamma receptor 2 (interferon gamma transducer 1)
|caption=
|image=
|width=
|HGNCid=5440
|Symbol=IFNGR2
|AltSymbols=IFNGT1
|EntrezGene=3460
|OMIM=147569
|RefSeq=NM_005534
|UniProt=P38484
|PDB=
|ECnumber=
|Chromosome=21
|Arm=q
|Band=22.1
|LocusSupplementaryData=
}}

The interferon-gamma receptor (IFNGR) protein complex is the heterodimer of two chains: IFNGR1 and IFNGR2. It binds interferon-γ, the sole member of interferon type II.

Structure and function

The human interferon-gamma receptor complex consists the heterodimer of two chains: IFNGR1 and IFNGR2.[2][3] In unstimulated cells, these subunits are not preassociated with each other but rather associate through their intracellular domains with inactive forms of specific Janus family kinases (Jak1 and Jak2). Jak1 and Jak2 constitutively associate with IFNGR1 and IFNGR2, respectively. Binding of IFN-γ to IFNGR1 induces the rapid dimerization of IFNGR1 chains, thereby forming a site that is recognized by the extracellular domain of IFNGR2. The ligand-induced assembly of the complete receptor complex contains two IFNGR1 and two IFNGR2 subunits, which bring into close juxtaposition the intracellular domains of these proteins together with the inactive Jak1 and Jak2 kinases that they associate with. In this complex, Jak1 and Jak2 transactivate one another and then phosphorylate IFNGR1, thereby forming a paired set of Stat1 docking sites on the ligated receptor. Two Stat1 molecules then associate with the paired docking sites, are brought into close proximity with receptor-associated-activated JAK kinases, and are activated by phosphorylation of the Stat1. Tyrosine-phosphorylated Stat1 molecules dissociate from their receptor tether and form homodimeric complexes. Activated Stat1 translocates to the nucleus and, after binding to a specific sequence in the promoter region of immediate-early IFN-γ-inducible genes, effects gene transcription.

Disease linkage

IFNGR1 deficiency is associated with the increased susceptibility to certain infectious diseases in patients, especially mycobacterial infections.[4][5]

Mutations

Disseminated BCG infections occur in infants with SCID or with other severe T cell defects. However, in approximately half of the cases no specific host defect has been found. One possible explanation for this predilection was found in a 2.5-month-old Tunisian female infant who had fatal idiopathic disseminated BCG infection.[6] In four children from Malta who had disseminated atypical mycobacterial infection in the absence of a recognized immunodeficiency.[7] In the case of all five children, there was consanguinity in their pedigrees. All affected were found to have a functional defect in the upregulation of TNFα production by their blood macrophages in response to stimulation with IFNγ. Furthermore, all lacked expression of IFNγR's on their blood monocytes or lymphocytes, and each was found to have a mutation in the gene on chromosome 6q22-q23 that encodes IFNγR1. Of interest, these children did not appear to be susceptible to infection with agents other than mycobacteria. Th1 responses appeared to be normal in these patients. The susceptibility of these children to mycobacterial infections thus apparently results from an intrinsic impairment of the IFNγ pathway response to these particular intracellular pathogens, showing that IFNγ is obligatory for efficient macrophage antimycobacterial activity. Since the initial discoveries of IFNγR1-deficient humans, many more examples have been found, and IFNγR2-deficient individuals have been found as well.[8][9]

References

1. ^{{PDB|1FG9}}; {{cite journal |vauthors=Thiel DJ, le Du MH, Walter RL, D'Arcy A, Chène C, Fountoulakis M, Garotta G, Winkler FK, Ealick SE | title = Observation of an unexpected third receptor molecule in the crystal structure of human interferon-gamma receptor complex | journal = Structure | volume = 8 | issue = 9 | pages = 927–36 |date=September 2000 | pmid = 10986460 | doi = 10.1016/S0969-2126(00)00184-2 | url = }}
2. ^{{cite journal |vauthors=Bach EA, Aguet M, Schreiber RD | title = The IFN gamma receptor: a paradigm for cytokine receptor signaling | journal = Annu. Rev. Immunol. | volume = 15 | issue = | pages = 563–91 | year = 1997 | pmid = 9143700 | doi = 10.1146/annurev.immunol.15.1.563 }}
3. ^{{cite journal |vauthors=Pestka S, Kotenko SV, Muthukumaran G, Izotova LS, Cook JR, Garotta G | title = The interferon gamma (IFN-gamma) receptor: a paradigm for the multichain cytokine receptor | journal = Cytokine Growth Factor Rev. | volume = 8 | issue = 3 | pages = 189–206 | year = 1997 | pmid = 9462485 | doi = 10.1016/S1359-6101(97)00009-9 }}
4. ^{{cite journal |vauthors=Jouanguy E, Lamhamedi-Cherradi S, Lammas D, Dorman SE, Fondanèche MC, Dupuis S, Döffinger R, Altare F, Girdlestone J, Emile JF, Ducoulombier H, Edgar D, Clarke J, Oxelius VA, Brai M, Novelli V, Heyne K, Fischer A, Holland SM, Kumararatne DS, Schreiber RD, Casanova JL | title = A human IFNGR1 small deletion hotspot associated with dominant susceptibility to mycobacterial infection | journal = Nat. Genet. | volume = 21 | issue = 4 | pages = 370–8 | year = 1999 | pmid = 10192386 | doi = 10.1038/7701 }}
5. ^{{cite journal |vauthors=Levin M, Newport MJ, D'Souza S, Kalabalikis P, Brown IN, Lenicker HM, Agius PV, Davies EG, Thrasher A, Klein N | title = Familial disseminated atypical mycobacterial infection in childhood: a human mycobacterial susceptibility gene? | journal = Lancet | volume = 345 | issue = 8942 | pages = 79–83 | year = 1995 | pmid = 7815885 | doi = 10.1016/S0140-6736(95)90059-4 }}
6. ^Jouanguy E, Altare F, Lamhamedi S, et al. Interferon-gamma-receptor deficiency in an infant with fatal bacille Calmette-Guerin infection. N Engl J Med. 1996;335:1956–1961.
7. ^. Newport MJ, Huxley CM, Huston S, et al. A mutation in the interferon-gamma-receptor gene and susceptibility to mycobacterial infection. N Engl J Med. 1996;335:1941–1949.
8. ^. Dorman SE, Holland SM. Interferon-gamma and interleukin-12 pathway defects and human disease. Cytokine Growth Factor Rev. 2000;11(4):321–333.
9. ^Newport MJ, Holland SM, Levin M, et al. Inherited disorders of the interleukin-12/23-interferon gamma axis. In: Ochs HD, Smith CIE, Puck JM, e eds. Primary immunodeficiency diseases: a molecular and genetic approach. Oxford: Oxford University Press, 2007: 390–401.

See also

  • Interferon-γ Receptor-1 and 2 Mutations
  • Interferon gamma receptor (IFNGR1) family
{{Cytokine receptors}}{{Cytokine receptor modulators}}

2 : Type II cytokine receptors|Integral membrane proteins

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