The major histocompatibility complex class I-related chain A (MICA), expressed on cell surface, plays an important role in the elimination of both virus-infected cells and tumor through the activation of the natural killer (NK) receptor NKG2D. A polymorphic change from methionine (Met) to valine (Val) at amino acid position 129 categorizes MICA alleles into strong and weak binders for the NKG2D receptor and has been found in a variety of immune-related disorders. In this study, we investigated the potential interaction between genetic polymorphism of MICA and the development of breast cancer. We recruited 192 unrelated Tunisian women affected by breast cancer and 205 controls age-matched women, all genotyped for MICA-129 Met/Val (rs 1051792). A significant association was found between the Val allele and Val/Val genotype and the risk of breast cancer (p = 0.002, OR = 1.64, 95% CI = [1.17-2.27]; p = 0.002, OR = 1.88, 95% CI = [1.24-2.87], respectively). After stratification with clinical-pathology parameters, we found that 71% of women aged lower than 40 years had a Val/Val genotype versus 49% (p = 0.014). About 72% of these patients having a family history of cancers had a Val/Val genotype (p = 0.04). These results suggest that tumor escape mechanism because of failure in order to activate NK cells by MICA-129 Val allele may play a role in individual susceptibility for breast cancer development in Tunisian women.
Identification of candidate genes associated with susceptibility of breast cancer can have a significant impact at a cancer management national healthcare systems level, making genetic testing more affordable and cost‐effective. We have previously shown that the major histocompatibility complex class I‐related chain A (MICA) was related to breast cancer and plays an important role in modulating immune response mechanisms through NKG2D receptor activation. Compared to our previous study, in this work, we recruited a new cohort composed of 354 unrelated Tunisian women affected by breast cancer and 380 age‐matched women as controls, all genotyped for MICA‐129 Met/Val (rs 1051792). Subsequently, we exanimated the distribution of this polymorphism in ten families. As a result, an association was found between the Val allele and Val/Val genotype and the risk of breast cancer (p = 2.5 × 10–15; OR = 2.40; p = 6.5 × 10–13; OR = 3.03, respectively). Stratified analysis with age and family history of cancer revealed an association between the Val/Val genotype and younger patients <40 years (p = .003; OR = 2.03). Among those patients having a family history of cancer, 68% had a Val/Val genotype (p = .02; OR = 1.82). In the family study, an analyse of pedigrees revealed that the majority of families showed the development of breast cancer at a young age. Moreover, all patients diagnosed with early‐onset breast cancer had a Val/Val genotype. Our results lead us to propose that this polymorphism may be an inherited genetic biomarker contributing to an increased breast cancer risk in Tunisian women.
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