HLA-C and KIR permutations influence chronic obstructive pulmonary disease risk
Takudzwa Mkorombindo, Thi K. Tran-Nguyen, Kaiyu Yuan, Yingze Zhang, Jianmin Xue, Gerard J. Criner, Young-il Kim, Joseph M. Pilewski, Amit Gaggar, Michael H. Cho, Frank C. Sciurba, Steven R. Duncan
Takudzwa Mkorombindo, Thi K. Tran-Nguyen, Kaiyu Yuan, Yingze Zhang, Jianmin Xue, Gerard J. Criner, Young-il Kim, Joseph M. Pilewski, Amit Gaggar, Michael H. Cho, Frank C. Sciurba, Steven R. Duncan
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Research Article Immunology Pulmonology

HLA-C and KIR permutations influence chronic obstructive pulmonary disease risk

Abstract

A role for hereditary influences in the susceptibility for chronic obstructive pulmonary disease (COPD) is widely recognized. Cytotoxic lymphocytes are implicated in COPD pathogenesis, and functions of these leukocytes are modulated by interactions between their killer cell Ig-like receptors (KIR) and human leukocyte antigen–Class I (HLA–Class I) molecules on target cells. We hypothesized HLA–Class I and KIR inheritance affect risks for COPD. HLA–Class I alleles and KIR genotypes were defined by candidate gene analyses in multiple cohorts of patients with COPD (total n = 392) and control smokers with normal spirometry (total n = 342). Compared with controls, patients with COPD had overrepresentations of HLA-C*07 and activating KIR2DS1, with underrepresentations of HLA-C*12. Particular HLA-KIR permutations were synergistic; e.g., the presence of HLA-C*07 + KIR2DS1 + HLA-C12null versus HLAC*07null + KIR2DS1null + HLA-C12 was associated with COPD, especially among HLA-C1 allotype homozygotes. Cytotoxicity of COPD lymphocytes was more enhanced by KIR stimulation than those of controls and was correlated with lung function. These data show HLA-C and KIR polymorphisms strongly influence COPD susceptibility and highlight the importance of lymphocyte-mediated cytotoxicity in COPD pathogenesis. Findings here also indicate that HLA-KIR typing could stratify at-risk patients and raise possibilities that HLA-KIR axis modulation may have therapeutic potential.

Authors

Takudzwa Mkorombindo, Thi K. Tran-Nguyen, Kaiyu Yuan, Yingze Zhang, Jianmin Xue, Gerard J. Criner, Young-il Kim, Joseph M. Pilewski, Amit Gaggar, Michael H. Cho, Frank C. Sciurba, Steven R. Duncan

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Figure 2

Interactive associations of HLA-C*07 and HLA-C*12 with KIR2DS1 in COPD.

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Interactive associations of HLA-C*07 and HLA-C*12 with KIR2DS1 in COPD. ...
(A) The prevalence of COPD among participants positive for both HLA-C*07 and KIR2DS1 (n = 133) was significantly greater than in all the other subpopulations shown here. Analyses by χ2 with Bonferroni corrections for multiple comparisons (Pc). (B) Conversely, the presence of HLA-C*12 in the absence of KIR2DS1 (n = 46) appeared protective for COPD (Pc = comparisons of HLA-C*12 + KIR2DS1null versus all other groups by χ2 with Bonferroni corrections). (C) The association of COPD with the highest risk haplotype (HLA-C*07 and KIR2DS1 without HLA-C*12) was much greater than among subjects with the lowest risk haplotype (HLA-C*12 without either HLA-C*07 or KIR2DS1). Comparisons were made by χ2 with determinations of OR and CI by logistic regression. SC, smoke controls.