Although intensive studies have attempted to elucidate the genetic background of bronchial asthma (BA), one of the most common of the chronic inflammatory diseases in human populations, genetic factors associated with its pathogenesis are still not well understood. We surveyed 29 possible candidate genes for this disease for single nucleotide polymorphisms (SNPs), the most frequent type of genetic variation, in genomic DNAs from Japanese BA patients. We identified 33 SNPs, only four of which had been reported previously, among 14 of those genes. We also performed association studies using 585 BA patients and 343 normal controls for these SNPs. Of the 33 SNPs tested, 32 revealed no positive association with BA, but a T924C polymorphism in the thromboxane A2 receptor gene showed significant association (chi2=4.71, P=0.030), especially with respect to adult patients (chi2=6.20, P=0.013). Our results suggest that variants of the TBXA2R gene or some nearby gene(s) may play an important role in the pathogenesis of adult BA.
The NOA (Naruto Research Institute Otsuka Atrichia) mouse, an animal model of allergic or atopic dermatitis, exhibits ulcerative skin lesions associated with accumulation of mast cells and eosinophils, a significantly increased level of serum IgE, and scratching behavior. To investigate genetic contributors to the pathological process of dermatitis in this murine model, we looked for genes that were expressed differently in spleens of NOA mice compared with controls, by means of a differential display method. We cloned and characterized one gene that revealed a significantly higher expression in the NOA mouse than in control strains. Its cDNA consisted of 570 nucleotides, including 315 nucleotides of open reading frame encoding 105 amino acids. The deduced amino acid sequence identified this gene as the murine homologue of rat and human platelet factor (PF) 4s (89% identity and 64% identity in 105 amino acids, respectively). PF4 is a heparin-binding protein that is released from alpha-granules of activated platelets and belongs to the family of chemokine molecules that contain a CXC motif. Our results suggested that increased expression of PF4 may play an important role in the etiology of allergic dermatitis.
The NOA (Naruto Research Institute Otsuka Atrichia) mouse is an animal model of allergic or atopic dermatitis, a condition characterized by ulcerative skin lesions with accumulation of mast cells and increased serum IgE. We reported earlier that a major gene responsible for dermatitis in the NOA mouse lay in the middle of chromosome 14, and that the incidence of disease clearly differed according to parental strain; the mode of inheritance was autosomal recessive with incomplete penetrance. In the study reported here, we searched for genes that might modify the NOA phenotype, and we identified two candidate loci that appeared to contain genes capable of modifying atopic or allergic dermatitis, one in the middle of chromosome 7 ( 2 ϭ 14.66; P ϭ 0.00013 for D7Mit62) and the other in the telomeric region of chromosome 13 ( 2 ϭ 15.352; P ϭ 0.000089 for D13Mit147). These loci correspond to regions of synteny in human chromosomes where linkages to asthma, atopy, or related phenotypes, such as serum IgE levels, have been documented.
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