CD94/NKG2

CD94/NKG2 is a family of C-type lectin receptors which are expressed predominantly on the surface of NK cells and a subset of CD8+ T-lymphocyte.[1][2] These receptors stimulate or inhibit cytotoxic activity of NK cells, therefore they are divided into activating and inhibitory receptors according to their function.[3] CD94/NKG2 recognize nonclassical MHC glycoproteins class I (HLA-E in human and Qa-1 molecules in the mouse).[4]

CD94/NKG2 family

CD94/NKG2 family includes seven members: NKG2A, B, C, D, E, F and H.[5] Genes encoding these receptors are clustered in the natural killer complex (NKC) on human chromosome 12 and mouse chromosome 6 together with Clr (C-lectin related) genes.[6]

Structure

NKG2 receptors are transmembrane proteins type II which dimerize with CD94 molecule. CD94 contains a short cytoplasmic domain and it is responsible for signal transduction. Therefore NKG2 receptors form disulfide bonded heterodimers. NKG2D represent an exception, it is a homodimer.[7]

Signaling

Ligands

Receptors of CD94/NKG2 family bind nonclassical MHC glycoproteins class I (HLA-E in human and Qa-1 molecules in the mouse).[14]

Nonclassical MHC glycoproteins class I are structurally similar to classical MHC class I molecules, but they present mainly peptides derived from the signal peptides of MHC class I. Therefore NK cells can indirectly monitor the expression of classical MHC class I molecules through the interaction of CD94/NKG2 with HLA-E (Qa-1) and HLA-E (Qa-1) themselves as well.[15]

NKG2D constitutes an exception. Besides the fact that it is a homodimer, it associates with adaptor molecule DAP10 and its amino acid sequence is identical in only 28% in comparison with other CD94/NKG2 family members, NKG2D binds MHC class I homologues MICA (MHC class I polypeptide-related sequence A),[16] MICB and ULBP (UL-16 binding protein)[17] in human. MICA and MICB are expressed on the surface of epithelial and endothelial cells. The expression of these NKG2D ligands is higher in case of cellular stress, e.g. tumor disease or inflammation. This activates NK cells and triggers their cytotoxicity.[18][19] ULBP is expressed constitutively in different tissues and it stimulates NK cells to secrete cytokines and chemokines.[20]

Mouse NKG2D binds H-60 molecules, five variants of Rae1 protein (Retinoic acid transcript 1)[21] and Mult1 (mouse ULBP-like transcript 1).[22] H-60 and Rae1 are structurally similar to MHC glycoproteins class I and their expression is increased in tumor cells. This leads to NK cell activation and IFN-γ production, which stimulates cells of innate immunity.[23]

See also

References

  1. Borrego F, Masilamani M, Marusina AI, Tang X, Coligan JE (2006), The CD94/NKG2 family of receptors: from molecules and cells to clinical relevance. Immunol Res. 35(3):263-78
  2. Colonna M, Moretta A, Vély F, Vivier E (2000), A high-resolution view of NK-cell receptors: structure and function. Immunol Today 21(9):428-31
  3. Yokoyama WM, Plougastel BF (2003), Immune functions encoded by the natural killer gene complex. Nat Rev Immunol. 3(4):304-16
  4. Lanier LL (2005), NK cell recognition. Annu Rev Immunol. 23:225-74
  5. Lanier LL (2005), NK cell recognition. Annu Rev Immunol. 23:225-74
  6. Colonna M, Moretta A, Vély F, Vivier E (2000), A high-resolution view of NK-cell receptors: structure and function. Immunol Today 21(9):428-31
  7. Lazetic S, Chang C, Houchins JP, Lanier LL, Phillips JH (1996), Human natural killer cell receptors involved in MHC class I recognition are disulfide-linked heterodimers of CD94 and NKG2 subunits. J Immunol. 157(11):4741-5
  8. Berg SF, Dissen E, Westgaard IH, Fossum S (1998), Two genes in the rat homologous to human NKG2. Eur J Immunol. 28(2):444-50
  9. Lanier LL (2008), Up on the tightrope: natural killer cell activation and inhibition. Nat Immunol. 9(5):495-502
  10. Lanier LL (2008), Up on the tightrope: natural killer cell activation and inhibition. Nat Immunol. 9(5):495-502
  11. Lanier LL (2008), Up on the tightrope: natural killer cell activation and inhibition. Nat Immunol. 9(5):495-502
  12. Huang H, Wang X, Zhang Y, Zheng X, Wei H, Sun R (2010), Up-regulation of NKG2F receptor, a functionally unknown killer receptor, of human natural killer cells by interleukin-2 and interleukin-15. Oncol Rep. 24(4):1043-8
  13. Kim DK, Kabat J, Borrego F, Sanni TB, You CH, Coligan JE (2004), Human NKG2F is expressed and can associate with DAP12. Mol Immunol. 41(1):53-62
  14. Lanier LL (2005), NK cell recognition. Annu Rev Immunol. 23:225-74
  15. Yokoyama WM, Plougastel BF (2003), Immune functions encoded by the natural killer gene complex. Nat Rev Immunol. 3(4):304-16
  16. Bauer S, Groh V, Wu J, Steinle A, Phillips JH, Lanier LL, Spies T (1999), Activation of NK cells and T cells by NKG2D, a receptor for stress-inducible MICA. Science 285(5428):727-9.
  17. Cosman D, Müllberg J, Sutherland CL, Chin W, Armitage R, Fanslow W, Kubin M, Chalupny NJ (2001), ULBPs, novel MHC class I-related molecules, bind to CMV glycoprotein UL16 and stimulate NK cytotoxicity through the NKG2D receptor. Immunity. 14(2):123-33.
  18. Bauer S, Groh V, Wu J, Steinle A, Phillips JH, Lanier LL, Spies T (1999), Activation of NK cells and T cells by NKG2D, a receptor for stress-inducible MICA. Science 285(5428):727-9.
  19. Cosman D, Müllberg J, Sutherland CL, Chin W, Armitage R, Fanslow W, Kubin M, Chalupny NJ (2001), ULBPs, novel MHC class I-related molecules, bind to CMV glycoprotein UL16 and stimulate NK cytotoxicity through the NKG2D receptor. Immunity. 14(2):123-33.
  20. Cosman D, Müllberg J, Sutherland CL, Chin W, Armitage R, Fanslow W, Kubin M, Chalupny NJ (2001), ULBPs, novel MHC class I-related molecules, bind to CMV glycoprotein UL16 and stimulate NK cytotoxicity through the NKG2D receptor. Immunity. 14(2):123-33.
  21. Diefenbach A, Jamieson AM, Liu SD, Shastri N, Raulet DH (2000), Ligands for the murine NKG2D receptor: expression by tumor cells and activation of NK cells and macrophages. Nat Immunol. 1(2):119-26.
  22. Carayannopoulos LN, Naidenko OV, Fremont DH, Yokoyama WM (2002), Cutting edge: murine UL16-binding protein-like transcript 1: a newly described transcript encoding a high-affinity ligand for murine NKG2D. J Immunol. 169(8):4079-83
  23. Diefenbach A, Jamieson AM, Liu SD, Shastri N, Raulet DH (2000), Ligands for the murine NKG2D receptor: expression by tumor cells and activation of NK cells and macrophages. Nat Immunol. 1(2):119-26.