ABSTRACT
BACKGROUND: Myosin light chain kinase (MYLK) is a multifunctional protein involved in regulation of airway hyperreactivity and other activities relevant to asthma. OBJECTIVE: To determine the role of MYLK gene variants in asthma among African Caribbean and African American populations. METHODS: We performed association tests between single nucleotide polymorphisms (SNPs) in the MYLK gene and asthma susceptibility and total serum IgE concentrations in 2 independent, family-based populations of African descent. Previously we identified variants/haplotypes in MYLK that confer risk for sepsis and acute lung injury; we compared findings from our asthma populations to findings in the African American sepsis and acute lung injury groups. RESULTS: Significant associations between MYLK SNPs and asthma and total serum IgE concentrations were observed in the African Caribbean families: a promoter SNP (rs936170) in the smooth muscle form gave the strongest association (P=.009). A haplotype including rs936170 corresponding to the actin-binding activity of the nonmuscle and smooth muscle forms was negatively associated with asthma (eg, decreased risk in both the American (P=.005) and Caribbean families (P=.004), and was the same haplotype that conferred risk for severe sepsis (P=.002). RNA expression studies on PBMCs and rs936170 suggested a significant decrease in MYLK expression among patients with asthma with this variant (P=.025). CONCLUSION: MYLK polymorphisms may function as a common genetic factor in clinically distinct disease involving broanchial smooth muscle contraction and inflammation. CLINICAL IMPLICATIONS: Genetic variants in MYLK are significantly associated with both asthma and sepsis in populations of African ancestry (AU)
Subject(s)
Humans , Asthma , Haplotypes , Sepsis , Myosin-Light-Chain Kinase/genetics , Caribbean Region , BarbadosABSTRACT
BACKGROUND: The gene encoding acyloxyacyl hydrolase (AOAH), an enzyme that hydrolyzes secondary fatty acyl chains of LPS, is localised on chromosome 7p14-p12, where evidence for linkage to total IgE (tIgE) concentrations and asthma has been previously reported. OBJECTIVE: We hypothesized that variants in AOAH are associated with asthma and related phenotypes. Because both AOAH and soluble CD14 respond to LPS, we tested for gene-gene interaction. METHODS: We investigated the association between 28 single nucleotide polymorphisms throughout the AOAH gene and asthma, concentrations of tIgE, the ratio of IL-13/IFN-y, and soluble CD14 levels among 125 African Caribbean, multiplex asthmatic pedigrees (n=834). Real-time PCR was used to assess whether AOAH cDNA expression differed with AOAH genotype. RESULTS: Significant effects were observed for all 4 phenotypes and AOAH markers in 3 distinct regions (promoter, introns 1-6, and the intron 12/exon 13 boundary/intron 13 region) by means of single-marker and haplotype analyses, with the strongest evidence for a 2-single-nucleotide-polymorphism haplotype and log [tIgE] (P=.006). There was no difference in AOAH expression levels by AOAH genotype for any of the markers. Comparing genotypic distributions at both the AOAH marker rs2727831 and CD14(-260)C>T raises the possibility of gene-gene interaction (P=.006-.036). CONCLUSION: Our results indicate that polymorphisms in markers within the AOAH gene are associated with risk of asthma and associated quantitative traits (IgE and cytokine levels) among asthmatic subjects and their families in Barbados, and there is an interactive effect on tIgE and asthma concentrations between an AOAH marker and the functional CD14(-260)C>T polymorphism. CLINICAL IMPLICATIONS: AOAH is a novel innate immunity candidate gene associated with asthma and related phenotypes in an African ancestry population.