Four published genome screens have identified a number of markers with increased sharing in multiple sclerosis (MS) families, although none has reached statistical significance. One hundred and five markers previously identified as showing increased sharing in Canadian, British, Finnish, and American genome screens were genotyped in 219 sibling pairs ascertained from the database of the Canadian Collaborative Project on Genetic Susceptibility to MS (CCPGSMS). No markers examined met criteria for significant linkage. Markers located at 5p14 and 17q22 were analyzed in a total of 333 sibling pairs and attained mlod scores of 2.27 and 1.14, respectively. The known HLA Class II DRB1 association with MS was confirmed (P<0.0001). Significant transmission disequilibrium was also observed for D17S789 at 17q22 (P=0.0015). This study highlights the difficulty of searching for genes with only mild-to-moderate effects on susceptibility, although large effects of specific loci may still be present in individual families. Future progress in the genetics of this complex trait may be helped by (1) focussing on more ethnically homogeneous samples, (2) using an increased number of MS families, and (3) using transmission disequilibrium analysis in candidate regions rather than the affected relative pair linkage analysis.
Hypertension, type 2 diabetes, and obesity are common complex disorders that contribute to cardiovascular (CV) disease. Insulin resistance increases CV risk and is present in these disorders. Adiponectin, a protein secreted by adipocytes with metabolic and vascular protective effects, is lower in obesity and insulin resistance. Several single nucleotide polymorphisms (SNP) have been identified in the adiponectin (ADIPOQ) gene. Associations of ADIPOQ polymorphisms with diabetes and obesity have been described in Caucasians and Asians. The purpose of this study was to determine if genetic variants of ADIPOQ are associated with insulin resistance and CV risk in African Americans. Metabolic traits (lipids, glucose, insulin, and insulin sensitivity) and blood pressure were measured in 273 African Americans. DNA was examined by DNA sequence analysis and SNPs of candidate genes including ADIPOQ were studied. Statistical analyses were performed by regression of the quantitative trait phenotypes on the groups defined by the SNP genotypes, adjusting for age, sex, and body mass index (BMI). SNP 712 (rs3774261) of the ADIPOQ gene showed significant association with insulin resistance (p = 0.001). Despite the relatively small sample, our results indicate that genes that regulate adipocyte function may have a regulatory role in the expression of metabolic traits in obesity-associated chronic disease.
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