Genetic variation in nucleotide excision repair pathway genes influence prostate and bladder cancer susceptibility in North Indian population.

BACKGROUND: Inherited polymorphisms of XPD and XPC genes may contribute to subtle variations in NER DNA repair capacity and genetic susceptibility to development of urological cancer such as prostate and bladder cancer. MATERIALS AND METHODS: We genotyped four Single Nucleotide Polymorphs (SNPs) of the DNA repair gene XPD and XPC in 195 prostate cancer (PCa) and 212 bladder cancer (BC) patients and 250 healthy controls from the same area. XPD Exon 10 (G>A) by amplification refractory mutation system and Exon 23 (A>C), XPC Intron 9 (Ins/Del) and Exon 15 (A>C) were genotyped by PCR-RFLP. RESULTS: Variant genotype of XPC demonstrated association with PCa as well as in BC (P, 0.013; P, 0.003). Combined genotype (GA+AA) revealed association with PCa and in BC (P, 0.012, P, 0.002). Variant allele also demonstrated risk in both the cancer. Diplotype of XPD and XPC was associated with a significant increase in PCa and BC risk. Variant (+/+) genotype of XPC intron 9 shown increased risk with PCa and in BC (P, 0.012; P, 0.032). CC genotype of XPC exon 15 revealed increase risk (P, 0.047) with PCa not in BC. In clinopathological grade variant allele of XPC intron 9 and 15 demonstrated risk with high grade of tumor and bone metastasis of PCa. In BC variant allele of XPD exon 10 and 15 also shown association with tumor grade. XPC intron 9 influences the risk of BC in former tobacco users in BC. CONCLUSIONS: Our result support that SNPs in XPD and XPC gene may reduce NER repair capacity and play a major role for PCa and BC in North India.

Caspase 8 gene variants in healthy North Indian population and comparison with worldwide ethnic group variations.

BACKGROUND: Many strategies are being used for the quest for the disease causing genes. Inter-individual variations in several genes exist. Thus, even if they share the same disease-associated allele, the genomic backgrounds – and hence potential interacting alleles at other loci – of people with different regional ancestries may differ, with a consequent variation in the severity of their disease. MATERIALS AND METHOD: The present study was conducted to determine the distribution of Caspase 8 IVS12-19G/A, Caspase 8D302H, Caspase 8 -652del and Caspase 8 -678del polymorphisms (as frequency distribution of caspases in Indians generally is not yet known), which was then compared with different populations globally. Polymerase chain reaction (PCR)-based analysis was conducted in 205 normal healthy individuals of similar ethnicity. RESULTS: The variant allele frequencies were 17.6% (A) in Caspase 8 IVS12-19G/A, 13.2% (H) in Caspase 8D302H, 23.2% (Del) in Caspase 8 -652del and 24.6% (Del) in Caspase 8 -678del. Further, comparison of frequency distribution of these genes was done with various published studies of different ethnic groups globally. CONCLUSION: It is anticipated from our results that the frequency of these caspase genes exhibits distinctive patterns in India, which could perhaps be attributed to ethnic variation. This study is important as it can form a baseline for screening individuals who are at high risk due to exposure to environmental carcinogens and cancer predisposition, and therefore, might help in investigating linked polymorphisms in a way that will not obscure potential associations between genotype and phenotype.

Do IL-4 intron 3 VNTR and IL-6 (-174) G/C variants reflect ethnic variation? A comparative study between the global and North Indian populations.

Variations in the production and activity of cytokines have been reported by several investigators which influence the susceptibility and/or resistance to various infectious agents and cancer. Differences in the cytokine production between individuals are often caused by single nucleotide polymorphism (SNP) in the promoter or coding regions of cytokine genes. Although the SNP cytokine gene variations are basically mutations, they are designated as polymorphisms, because these changes do not modify the alleles to rare or abnormal variants. The two important cytokine genes IL-4 and IL-6 of 343 unrelated healthy individuals from North India were compared with the published polymorphism of other populations. It was seen that our population differs from South Indian population as well as from other Caucasian populations except, Taiwanese population at IL-4 locus and Spanish and Polish population at the IL-6 gene locus. This study may be helpful for predicting clinical outcome of various infectious and immunoregulated disorders as well as explore for risk alleles for various cancers.

Ethnicity greatly influences the interleukin-1 gene cluster(IL-1b promoter, exon-5 and IL-1Ra) polymorphisms: a pilot study of a north Indian population.

There is considerable evidence that polymorphisms in the regulatory regions of cytokine genes are highly influenced by ethnicity. Polymorphisms in interleukin 1-beta (IL-1beta) and IL-1 receptor antagonist (IL-1Ra) genes, respectively encoding a potent inflammatory agent and an antagonist, which combines with IL-1 receptors competitively, have been associated with a number of diseases like systemic lupus erythematosus, rheumatoid arthritis, sepsis, kidney diseases, and cancer. In this study, we therefore evaluated the distribution of interleukin-1 gene cluster (IL-1beta promoter region, exon-5 and IL-1Ra) gene polymorphisms in 206 healthy north Indian subjects, using PCR-based restriction analysis. We also constructed various haplotypes and estimated the linkage disequilibrium (LD). We found that genotype and allelic frequencies for these cytokines were conspicuously different when compared among different ethnic populations. The haplotype 'T-E1-1' predominated (41.7%) while the least common was 'C-E2-2' (2%) in our population. Genetic linkage between three loci of IL-1 gene showed strong association among the variants in controls (D'=0.42, p<0.001). Our results suggest that the frequency and distribution of the polymorphisms in India are substantially different from other populations and ethnic groups. Thus they signify an impact of ethnicity and provide a basis for future epidemiological and clinical studies.

Vitamin-D receptor (VDR) gene (Fok-I, Taq-I and Apa-I) polymorphisms in healthy individuals from north Indian population.

The vitamin-D endocrine system is involved in a wide variety of biological processes including bone metabolism, modulation of immune responses, and regulation of cell proliferation and differentiation. Variation in this endocrine system have, thus, been linked to several common diseases, including osteoarthritis (OA), diabetes, cancer, cardiovascular ailments, urolithiasis and tuberculosis. Activity of Vit-D is mediated by the vitamin D receptor (VDR), a ligand dependent receptor. VDR gene polymorphisms thus represent strong positional candidates for different diseases like prostate cancer, urolithiasis, inflammatory bowl disease and osteoporosis. Genetic studies provide excellent opportunities to link molecular insights with epidemiological data and can reveal modest and subtle but true biological effects. The abundance of polymorphisms in the human genome as well as high frequencies in human populations have made them targets to explain variation in risk of common diseases. The present study was carried out to determine the distribution of VDR gene (Fok-I, Taq-I and Apa-I) polymorphisms using a PCR-based restriction analysis in unrelated normal healthy individuals from a north Indian population. We obtained allelic frequencies of (68.5% vs 31.5%), (66% vs 34%) and (58% vs 42%) for (F vs f), (T vs t) and (A vs a) alleles, with 44%, 49% and 7%, respectively, for genotypes FF, Ff and ff , 49%, 40% and 11% for TT, Tt and tt and 36%, 44% and 20% for AA, Aa and aa. Our results suggest that the frequency and distribution of the polymorphisms in India are substantially different from in other populations and ethnic groups. Thus the data signify an impact of ethnicity and provide a basis for future epidemiological and clinical studies.

Genetic polymorphism of drug metabolizing enzymes (CYP2E1, GSTP1) and susceptibility to bladder cancer in North India.

Glutathione-S-transferases (GSTs) are active in the detoxification of wide variety of endogenous or exogenous carcinogens and genetic polymorphisms of CYP2E1 and GSTP1 genes have been studied extensively to evaluate the relative risk of various cancers. In the present study, we examined associations with CYP2E1 and GSTP1 gene polymorphisms in sporadic bladder cancers from North Indian patients. The subjects were 106 bladder cancer (Ca-B) cases and 162 age-matched controls. The GSTP1 313 A/G polymorphism was determined by the PCR/RFLP method using peripheral blood DNA. Binary Logistic Regression Model was used for assessing differences in genotype prevalence and their associations between patient and the control group. We observed a non-significant association in Pst1 polymorphism of the CYP2E1 gene; though the A/G genotype (OR = 2.69, 95% CI=1.57- 4.59, P= 0.000) and G/G genotype (OR = 7.68, 95% CI=2.77- 21.26, P= 0.000) of the GSTP1 gene polymorphism alone or in combination with tobacco users were highly significant (OR=24.06; 95% CI: 4.80- 120.42; P =0.000) when compared to the controls. The results of our study demonstrated that the GSTP1 313 G/G polymorphism is a strong predisposing risk factor for bladder cancer in the North Indian population.

Allelic variation of GSTT1, GSTM1 and GSTP1 genes in North Indian population.

Glutathione S-transferase (GST) enzymes are involved in detoxification of many potentially carcinogenic compounds. Homozygous deletions or null genotypes of GSTT1 and GSTM1 genes and an A to G substitution at nucleotide 313 in GSTP1 have been reported in different populations. Intra-ethnic as well as interethnic differences are known to exist in the frequencies of the above GST genes. The present study was therefore undertaken to determine the prevalence of GSTM1 and GSTT1null alleles, as well as the GSTP1 gene polymorphism, in 370 healthy individuals in a North Indian population. Genotyping of M1 and T1 was performed using a multiplex polymerase chain reaction and the GSTP1 polymorphism was determined by the polymerase chain reaction/restriction fragment length polymorphism (PCR-RFLP) method. The frequencies of GSTM1 and GSTT1 null alleles in normal healthy individuals were observed to be 33.0% and 18.4% respectively. In 7.0% of individuals' concomitant lack of M1 and T1 genes were observed. For GSTP1, wild (Ile/Ile), heterozygous (Ile/Val) and mutant (Val/Val) genotypes were observed for 44.3%, 50.3% and 5.4% of individuals respectively. The prevalence of the M1 null allele is significantly lower than those documented for English, Turkish, Chinese, Caucasians, Japanese and white (Brazilian and American) populations. However, a significantly higher frequency for T1 null was reported in Chinese and Japanese population. Furthermore, Japanese and African American populations have exhibited significantly higher frequencies of wild and mutant P1 genotypes, respectively, than the Indian population. Thus, our results signify an impact of ethnicity and provide a basis for future epidemiological and clinical studies.

NAT2 gene polymorphism in bladder cancer: a study from North India

PURPOSE: This study was conducted to examine: 1) whether the NAT2 genotypes are risk factors for bladder cancer, 2) to study possible association of tobacco usage with NAT2 genotype of these patients. MATERIALS AND METHODS: This case control study was undertaken over a period of 19 months and included 101 bladder cancer patients and 110 controls. The NAT2 genotypes were identified by PCR-RFLP method in peripheral blood DNA samples. Genotypes frequencies and the association of the genotypes among patients and controls group were assessed by chi2 test and Fisher exact test. RESULTS: The NAT2 fast acetylator genotype frequency of slow or fast acetylator genotypes was not significant in bladder cancer patients alone (OR = 1.18, 95 percent CI: 0.69 - 2.03, p value = 0.583) or combination with tobacco users (OR = 0.84, 95 percent CI: 0.328 - 2.125, p value = 0.813) when compared with controls. CONCLUSION: These data demonstrate that the NAT2 fast or slow acetylators genotype did not associated with the risk of developing bladder cancer in North Indian population when compared with controls.