Random X chromosome (ChrX) inactivation and consequent cellular mosaicism for the active ChrXs in white blood cells (WBCs) is unique to females and may contribute to sex-biased modulation of the innate immune response. Polymorphic differences between the two parental ChrXs may result in ChrX skewing of circulating WBCs (ChrX inactivation-ratio (XCI) > 3) driven by differences in stem cell selection and activity in the bone marrow or WBC trafficking at the periphery. Independent of the mechanism, ChrX skewing may result in genotype-phenotype discrepancies. This study aimed to develop an allele-specific assay and test its applicability in clinical samples to determine the "direction" of ChrX skewing in the variant IRAK1 haplotype, a common X-linked polymorphism with major clinical impacts. Because alternative splice variants of IRAK1 are also produced in the region surrounding the critical single-nucleotide polymorphism (SNP, rs1059703), we also tested the abundance of alternative splice variant IRAK1 transcripts. The expression of splice variants IRAK1-B and IRAK1-C was about 30 and 50% of the full-length (IRAK1-A) in WBCs from healthy subjects (n = 53). IRAK1-A, B, and C showed about 30% lower expression level in males (n = 25) than females (n = 28). By contrast, the expression levels of IRAK1-A, B, and C were not affected by the variant IRAK1 haplotype in either sex. Allele-specific primers generated WT and variant-IRAK1 amplicons with high selectivity, and on average produced about half the expression levels of each transcript in heterozygous IRAK1-mosaic females. Because injury was shown to induce de novo ChrX skewing of WBCs, we tested the directional XCI ratio changes in WBC in a sample of trauma patients heterozygous for the variant IRAK1 haplotype (n = 18). Using the allele-specific assay in combination with the DNA methylation status at the polymorphic HUMARA locus, we found that at admission, about 60% the patients presented XCI ratios skewed toward WBCs with active ChrXs carrying the variant-IRAK1 similar to healthy controls. De novo, trauma-induced XCI ratio changes showed increased extravasation of the more abundant mosaic WBC subset without reversal in the direction of ChrX skewing during the injury course.
Keywords: chromosome X; inactivation; inflammation; mosaicism; polymorphism; sex differences; skewing; trauma; variability; white blood cells.