SummaryNatural killer (NK) cells are circulating lymphocytes that function in innate immunity and placental reproduction. Regulating both development and function of NK cells is an array of variable and conserved receptors that interact with major histocompatibility complex (MHC) class I molecules. Families of lectin-like and immunoglobulin-like receptors are determined by genes in the natural killer (NKC) and leukocyte receptor (LRC) complexes, respectively. As a consequence of the strong, varying pressures on the immune and reproductive systems, NK cell receptors and their MHC class I ligands evolve rapidly, are highly diverse, and exhibit dramatic species-specific differences. The variable, polymorphic family of killer cell immunoglobulin-like receptors (KIR) that regulate human NK cell development and function evolved recently, from a single-copy gene during the evolution of simian primates. Our studies of KIR and MHC class I genes in representative species show how these two unlinked but functionally intertwined genetic complexes have co-evolved. In humans, combinations of KIR and HLA class I factors are associated with infectious diseases, including HIV/AIDS, autoimmunity, reproductive success and the outcome of therapeutic transplantation. The extraordinary, and unanticipated, divergence of human NK cell receptors and MHC class I ligands from their mouse counterparts can in part explain the difficulties experienced in finding informative mouse models for human diseases. Non-human primate models have far greater potential, but to realize their promise will first require more complete definition of the genetics and function of KIR and MHC variation in non-human primate species, at a level comparable to that achieved for the human species. KeywordsNon-human primates; NK cells; KIR; MHC; innate immunity Natural killer (NK) cells comprise 5-25% of the lymphocytes circulating in human peripheral blood [1,2]. NK cells are larger than circulating B and T lymphocytes, having a well-developed cytoplasm that contains cytotoxic granules. NK cells were described by morphologists as large granular lymphocytes long before their immunological properties became a subject for study in the 1970s [3][4][5][6]. At that time numerous immunologists were studying antigen specificity and major histocompatibility complex (MHC) restriction of the cytotoxic T cells that arose from long-term stimulation with antigen and cytokines in culture. The defining property that distinguished NK cells from killer T cells was their propensity to kill certain tumor cell lines, such as the K562 erythroleukemia cell line, without needing an extensive period of in vitro stimulation and proliferation. NK cells were thus seen to have a natural or inherent ability to kill damaged or dangerous cells. They are also potent secretors of cytokines, notably interferon-γ. The kinetics observed in culture reflect those of the immune response to infection: NK cells are fast-acting lymphocytes that NIH-PA Author ManuscriptNIH-PA Author Manuscript NIH-PA Author ...
Human leukocyte antigen (HLA)-A, HLA-B, and HLA-DRB1 gene frequencies were investigated in 4279 unrelated Armenian bone marrow donors. HLA alleles were defined by using PCR amplification with sequence specific primers (PCR-SSP) high- and low-resolution kits. The aim of this study was to examine the HLA diversity at the high-resolution level in a large Armenian population sample, and to compare HLA allele group distribution in Armenian subpopulations. The most frequently observed alleles in the HLA class I were HLA-A*0201, A*0101, A*2402, A*0301, HLA-B*5101, HLA-B*3501, and B*4901. Among DRB1 alleles, high frequencies of DRB1*1104 and DRB1*1501 were observed, followed by DRB1*1101 and DRB1*1401. The most common three-locus haplotype found in the Armenian population was A*33-B*14-DRB1*01, followed by A*03-B*35-DRB1*01. Our results show a similar distribution of alleles in Armenian subpopulations from different countries, and from different regions of the Republics of Armenia and Karabagh. The low level of genetic distances between subpopulations indicates a high level of population homogeneity, and the genetic distances between Armenians and other populations show Armenians as a distinct ethnic group relative to others, reflecting the fact that Armenians have been an 'isolated population' throughout centuries. This study is the first comprehensive investigation of HLA-allele group distribution in a subset of Armenian populations, and the first to provide HLA-allele and haplotype frequencies at a high-resolution level. It is a valuable reference for organ transplantation and for future studies of HLA-associated diseases in Armenian populations.
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