Hung-Tae Kim

Characterization of 458 single nucleotide polymorphisms of disease candidate genes in the Korean population

AbstractSingle nucleotide polymorphisms (SNPs) are considered as very promising genetic markers for complex disease gene hunting. However, it has been demonstrated that there are significant ethnic differences in genetic variations. In order to investigate the genetic variations in the Korean population and their ethnic differences, a large number of SNPs of 161 disease candidate genes were collected from a publicly available SNP database and then tested for the distribution of allele frequency in the Korean population. Of all 458 SNPs tested, approximately 43.9% were polymorphic in the Korean population, whereas 44.5% were monomorphic. The remaining 11.6% were failed in the test. Significant differences have been observed when SNP allele frequency pattern of Koreans was compared with those of Caucasians and Africans, whereas this pattern was highly similar between Korean and Japanese populations. Our data indicate that although many of the SNPs available in publicly available database, especially coding-region SNPs (cSNPs), can be used as informative genetic markers for disease association studies, an extensive verification of public SNPs in a particular population studied should be undertaken prior to their association studies.

Association of lipoprotein lipase (LPL) single nucleotide polymorphisms with type 2 diabetes mellitus

The etiology and pathogenesis of type 2 diabetes mellitus (T2DM) are not completely understood although it is often associated with other conditions such as obesity, hypertension, and dyslipidemia. Lipoprotein lipase (LPL) is a key enzyme in human lipid metabolism that facilitates the removal of triglyceride-rich lipoproteins from the bloodstream. LPL hydrolyzes the core of triglyceride-rich lipoproteins (chylomicrons and very low density lipoprotein) into free fatty acids and monoacylglycerol. To gain insight into the possible role of LPL in T2DM, nine single nucleotide polymorphisms (SNPs) of LPL were analyzed for the association with T2DM using 944 unrelated Koreans, including 474 T2DM subjects and 470 normal healthy controls. Of the nine LPL SNPs we analyzed, a significant association with multiple tests by the false discovery rate (FDR) was observed between T2DM and SNP rs343 (+13836C>A in intron 3). SNP rs343 was also marginally associated with some of T2DM-related phenotypes including total cholesterol, high density lipoprotein cholesterol (HDLc), and log transformed glycosylated hemoglobin in 470 normal controls, although no significant association was detected by multiple tests. In total, our results suggest that the control of lipid level by LPL in the bloodstream might be an important factor in T2DM pathogenesis in the Korean population.

Identification of regulatory polymorphisms in the TNF-TNF receptor superfamily

The tumor necrosis factor and TNF receptor (TNF–TNFR) superfamily plays very important roles in the pathogenesis of many immune-mediated diseases. Regulation of TNF–TNFR superfamily gene expression influences many aspects of the pathology associated with these diseases. In order to investigate genetic variations in the regulatory regions of the TNF–TNFR superfamily genes, promoter regions were screened by sequencing DNA samples from 24 unrelated Korean individuals. We identified a total of 68 single-nucleotide polymorphisms (SNPs) in the regulatory regions of the known TNF–TNFR superfamily genes, including 50 SNPs in the promoter regions, 16 SNPs in the 5′-UTR regions, and two SNPs in the coding regions of these genes. Among the 68 SNPs identified in this study, 25 SNPs were novel SNPs. Interestingly, the sequence alteration created by 11 SNPs completely abolished putative transcription factor binding sites in these alleles. These results suggest that these SNP sites can regulate gene expression by controlling the binding of transcription factors. The identification of function-altering SNPs in the promoter regions of the TNF–TNFR superfamily will facilitate efforts to understand the association of TNF–TNFR superfamily genes with several immune-mediated human diseases.

Association of α-adducin Gly460Trp polymorphism with coronary artery disease in a Korean population

Objective Coronary artery disease is caused by multiple genetic and environmental factors. The disease is also closely associated with cardiovascular conditions such as hypertension. In order to investigate any possible role of hypertension candidate genes in the disease development and progression, we examined the association of the polymorphisms of 31 hypertension candidate genes with coronary artery disease. Methods Genetic polymorphisms of 31 hypertension candidate genes were initially screened by resequencing DNA samples from 24 unrelated individuals in a Korean population. Association analysis was performed using 1284 unrelated Korean men, including 749 coronary artery disease subjects and 535 normal healthy controls. Results We identified a total of 409 single nucleotide polymorphisms including 40 nonsynonymous single nucleotide polymorphisms, 32 insertions/deletions and four microsatellites. Among 40 nonsynonymous single nucleotide polymorphisms, 29 were examined for an association with coronary artery disease. A significant association with coronary artery disease was observed in a polymorphism of the ADD1 gene (Gly460Trp; +29017G/T) (odds ratio 0.71–0.81; P = 0.01–0.04). The same polymorphism was also associated with the number of arteries with significant coronary artery stenosis in the coronary artery disease patients (P = 0.01) as well as the increase in systolic blood pressure (P = 0.02). Conclusions The ADD1 Gly460Trp polymorphism is significantly associated with an increased risk of coronary artery disease as well as blood pressure, indicating that ADD1 plays a role in the pathogenesis of coronary artery disease as well as hypertension.

Gene-Based Single Nucleotide Polymorphisms and Linkage Disequilibrium Patterns of 29 Asthma Candidate Genes in the Chromosome 5q31–33 Region in Koreans

Background and Methods: Numerous genetic studies have mapped asthma susceptibility genes to a region on chromosome 5q31–33 in several populations. This region contains a cluster of cytokines and other immune-related genes important in immune response. In the present study, to determine the genetic variations and patterns of linkage disequilibrium (LD), we resequenced all the exons and promoter regions of the 29 asthma candidate genes in the chromosome 5q31–33 region. Results: We identified a total of 314 genetic variants, including 289 single nucleotide polymorphisms (SNPs), 22 insertion/deletion polymorphisms and 3 microsatellites. Standardized variance data for allele frequency revealed substantial differences in SNP allele frequencies among different ethnic groups. Interestingly, significant ethnic differences were observed mainly in intron SNPs. LD block analysis using 174 common SNPs with a frequency of >10% disclosed strong LD within most candidate genes. No significant LD was observed across genes, except for one LD block (CD14-IK block). Gene-based haplotype analyses showed that 1–5 haplotype-tagging SNPs may be used to define the six or fewer common haplotypes with a frequency of >5%, regardless of the number of SNPs. Conclusion: Overall, our results provide useful information for the identification of immune-mediated disease genes in the chromosome 5q31–33 region, as well as valuable evidence for gene-based haplotype analysis in disease association studies.

Association of TWIST1 gene polymorphisms with bone mineral density in postmenopausal women

SummaryA novel polymorphism (+1871A>G) in the 3′ flanking region and haplotypes were significantly associated with reduced osteoporosis risk and enhanced bone mineral density (BMD). These results suggest that TWIST1 may be a useful genetic marker for osteoporosis. Our results provide preliminary evidence supporting an association of TWIST1 with osteoporosis in postmenopausal women.IntroductionTWIST1, a basic helix–loop–helix (bHLH) transcription factor, has been implicated in cell lineage determination and differentiation.MethodsTo address the genetic variations in the TWIST1 gene associated with osteoporosis, we investigated the potential involvement of three TWIST1 single-nucleotide polymorphisms (SNPs) in osteoporosis in 729 postmenopausal women. BMD was measured using dual-energy X-ray absorptiometry.ResultsA novel polymorphism in the 3′ flanking region (+1871A>G) was significantly associated with osteoporosis risk (p = 0.007–0.008) and also in multiple comparison (p = 0.02). Consistent with these results, haplotype analysis showed that Block1_ht2 had protective effects in the dominant and additive model (p = 0.006–0.007). Specifically, the +1871A>G polymorphism was overdominantly associated with higher BMD values of the femoral neck (p = 0.039).ConclusionThese results suggest that TWIST1 may be a useful genetic marker for osteoporosis and may have a role on bone metabolism in humans. Our results provide preliminary evidence supporting an association of TWIST1 with osteoporosis in postmenopausal women.

Large-scale identification and characterization of genetic variants in asthma candidate genes

Asthma is a chronic inflammatory disorder of the airways, and a number of genetic loci are associated with the disease. Candidate gene association studies have been regarded as effective tools to study complex traits. Knowledge of the sequence variation and structure of the candidate genes is required for association studies. Thus, we investigated the genetic variants of 32 asthma candidate genes selected by colocalization of positional and functional candidate genes. We screened all exons and promoter regions of those genes using 12 healthy individuals and 12 asthma patients and identified a total of 418 single nucleotide polymorphisms (SNPs), including 270 known SNPs and 148 novel SNPs. Levels of nucleotide diversity varied from gene to gene (0.72×10−4–14.53×10−4), but the average nucleotide diversity between coding SNPs (cSNPs) and noncoding SNPs was roughly equivalent (4.63×10−4 vs 4.69×10−4). However, nucleotide diversity of cSNPs was strongly correlated to codon degeneracy. Nucleotide diversity was much higher at fourfold degenerate sites than at nondegenerate sites (9.42×10−4 vs 3.14×10−4). Gene-based haplotype analysis of asthma-associated genes in this study revealed that common haplotypes (frequency >5%) represented 90.5% of chromosomes, and they could be uniquely identified with five or fewer haplotype-tagging SNPs per gene. Therefore, our results may have important implications for the selection of asthma candidate genes and SNP markers for comprehensive association studies using large sample populations.