Impact of Single Nucleotide Polymorphisms of Base Excision Repair Genes on DNA Damage and Efficiency of DNA Repair in Recurrent Depression Disorder

Elevated level of DNA damage was observed in patients with depression. Furthermore, single nucleotide polymorphisms (SNPs) of base excision repair (BER) genes may modulate the risk of this disease. Therefore, the aim of this study was to delineate the association between DNA damage, DNA repair, the presence of polymorphic variants of BER genes, and occurrence of depression. The study was conducted on peripheral blood mononuclear cells of 43 patients diagnosed with depression and 59 controls without mental disorders. Comet assay was used to assess endogenous (oxidative) DNA damage and efficiency of DNA damage repair (DRE). TaqMan probes were employed to genotype 12 SNPs of BER genes. Endogenous DNA damage was higher in the patients than in the controls, but none of the SNPs affected its levels. DRE was significantly higher in the controls and was modulated by BER SNPs, particularly by c.977C>G–hOGG1, c.972G>C–MUTYH, c.2285T>C–PARP1, c.580C>T–XRCC1, c.1196A>G–XRCC1, c.444T>G–APEX1, c.-468T>G–APEX1, or c.*50C>T–LIG3. Our study suggests that both oxidative stress and disorders in DNA damage repair mechanisms contribute to elevated levels of DNA lesions observed in depression. Lower DRE can be partly attributed to the presence of specific SNP variants.     

Gene–environment interactions between <Emphasis Type="Italic">ERCC2</Emphasis>, <Emphasis Type="Italic">ERCC3</Emphasis>, <Emphasis Type="Italic">XRCC1</Emphasis> and cadmium exposure in nasal polyposis disease

Gene–environment interactions have long been known to play an important role in complex disease aetiology, such as nasal polyposis (NP). The present study supports the concept that DNA repair gene polymorphisms play critical roles in modifying individual susceptibility to environmental diseases. In fact, we investigated the role of polymorphisms in DNA repair genes and cadmium as risk factors for Tunisian patients with NP. To the best of our knowledge, this is the first report on the impact of combined effects of cadmium and ERCC3 7122 A>G (rs4150407), ERCC2 Lys751Gln (rs13181) and XRCC1 Arg399Gln (rs25487) genes in the susceptibility to NP disease. Significant associations between the risk of developing NP disease and ERCC2 [odds ratio (OR)?=?2.0, 95 % confidence interval (CI)?=?1.1–3.7, p?=?0.023] and ERCC3 (OR?=?2.2, 95 % CI?=?1.2–4.1, p?=?0.013) genotypes polymorphisms were observed. Blood concentrations of Cd in NP patients (2.2 μg/L) were significantly higher than those of controls (0.5 μg/L). A significant interaction between ERCC3 (7122 A>G) polymorphism and blood-Cd levels (for the median of blood-Cd levels: OR?=?3.8, 95 % CI?=?1.3–10.8, p?=?0.014 and for the 75th percentiles of blood-Cd levels: OR?=?2.7, 95 % CI?=?1.1–7.2, p?=?0.041) was found in association with the risk of NP disease. In addition, when we stratified ERCC2, ERCC3 and XRCC1 polymorphism genotypes by the median and 75th percentiles of blood-Cd levels, we found also significant interactions between ERCC2 (Lys751Gln) and ERCC3 (7122 A>G) genotypes polymorphism and this metal in association with NP disease. However, no interaction was found between XRCC1 (Arg399Gln) polymorphism genotypes and Cd in association with NP disease.     

The role of low-penetrance alleles in predisposing the development of sporadic breast cancer

Breast cancer (BC) is one of the most common oncological diseases in the world and has a complex polygenic multifactorial character. The simultaneous analysis of a large number of medium- and low-penetrance genes in the genesis of the sporadic forms of BC makes it possible to more accurately predict the individual risk of this disease, and the analysis of their intergenic associations will help to identify the most significant interactions between several of them. This would significantly simplify further screening studies. In this study, we analyzed all possible combinations of pathogenetically significant polymorphic variants for the key genes involved in (1) repair systems (XRCC1, XRCC3, and PALB2); (2) biotransformation of xenobiotics (NAT2, EPHX1, GSTP1, GSTT1, and GSTM1); (3) cell cycle control (HMMR, TP53); and (4) folate cycle (MTHFR) among patients from Belarus (eastern European region) with the sporadic forms of BC and in the control group. The combinations of genotypes (genetic profile) significantly modifying the risk of sporadic BC were identified using the multifactor dimensionality reduction (MDR). The genetic profile (combinations of genotypes) leading to a significant increase in the risk of sporadic BC is the presence of the G allele in SNP p.I105V (GSTP1), the T allele in SNP p.T241M (XRCC3), and the AA genotype in SNP p.E429A (MTHFR).     

Effect of genetic and coexisting polymorphisms on platelet response to clopidogrel in Chinese Han patients with acute coronary syndrome

Polymorphisms of CYP2C19 are associated with platelet response to clopidogrel. This study was conducted to evaluate the contribution of the previously identified polymorphisms to the response of clopidogrel in a cohort of Chinese Han patients. A total of 222 acute coronary syndrome patients undergoing percutaneous coronary intervention treated with clopidogrel were enrolled from September 2012 to June 2013. Residual platelet aggregations for all patients were measured by the VerifyNow P2Y12 system. Sixteen single-nucleotide polymorphisms among nine genes were genotyped including CYP2C19, ABCB1 and PON1. In this study, CYP2C19*2 and CYP2C19*17 were strongly associated with higher platelet aggregation and lower platelet aggregation to clopidogrel treatment, respectively (P<0.001). Patients with CYP2C19*2 allele had a higher risk of high on-treatment platelet reactivity than non carriers (adjusted OR, 5.434; 95% CI, 1.918–15.399, P=0.01). The coexistence of CYP2B6*9 (rs8192719) and P2Y12 (rs2046934) and the coexistence of CYP2B6*1B (rs7254579) and P2Y12 (rs2046934) were also associated with poor response to clopidogrel. No significant relation of CYP2C19*3 and other polymorphisms to the platelet aggregation was found. In conclusion, CYP2C19*2, CYP2C19*17 coexistence of CYP2B6*9 (rs8192719) and P2Y12 (rs2046934) and coexistence of CYP2B6*1B (rs7254579) and P2Y12 (rs2046934) were identified to be associated with response to clopidogrel treatment in Chinese Han patients.     

Role of allelic genes of matrix metalloproteinases and their tissue inhibitors in the risk of peptic ulcer disease development

Peptic ulcer disease is a chronic disease of the gastrointestinal tract, mainly manifesting itself in the formation of the fairly persistent ulcer defect of the mucous membrane of the stomach and/or duodenum. Association analysis of common polymorphisms of matrix metalloproteinases genes MMP-1 (rs1799750, rs494379), MMP-2 (rs2285052), MMP-3 (rs3025058), MMP-9 (rs3918242, rs17576), and MMP-12 (rs2276109) and their tissue inhibitors TIMP-2 (rs8179090) and TIMP-3 (rs9619311) was carried out in 353 patients with a gastric ulcer or duodenal ulcer and in 325 unrelated healthy individuals from the Republic of Bashkortostan. Associations of polymorphic variants rs1799750 and rs494379 of gene MMP-1, rs3025058 of gene MMP-3, rs3918242 and rs17576 of gene MMP-9, and rs9619311 of gene TIMP-3 with the risk of peptic ulcer disease in Russians and Tatars were revealed.     

Association of genes of different functional classes with type 1 diabetes

The genetic structure of susceptibility to type 1 diabetes (T1D) in the population of Tomsk was studied. We had a group of T1D patients (N = 285) and a population sample (N = 300) and we studied 58 SNPs localized in the 47 genes which products are involved in various metabolic pathways and processes as fibrogenesis, endothelial dysfunction, and inflammation. Genotyping was performed by mass spectrometry using the Sequenom MassARRAY system (United States). We compared the group of T1D patients and the population sample and found an association with the predisposition to disease for seven markers: rs3765124 of the ADAMDEC1 gene, genotype AA (p = 0.004), allele A (p = 0.033); rs1007856 of the ITGB5 gene, genotype TT (p = 0.015), allele T (p = 0.036); rs20579 of the LIG1 gene, genotype CC (p = 0.004), allele C (p = 0.002); rs12980602 of the IFNL2 gene, allele C (p = 0.029); rs4986819 of the PARP4 gene, allele C (p = 0.044); rs1143674 of the ITGA4 gene genotype GG (p = 0.002); rs679620 of the MMP3 gene, genotype AA (p = 0.008). Thus, the products of genes associated with T1D belong to different molecular classes: metalloproteases (ADAMDEC1, MMP3), cytokines (IL28A), cell surface receptors (ITGA4), adhesion molecules (ITGB5), DNA ligases (LIG1), and ribosyltransferase enzymes (PARP4). The ADAMDEC1, ITGA4, and ITGB5 genes belong to two biological processes: cell communication and signal transduction. The LIG1 and PARP4 genes regulate the metabolism of nucleic acids, MMP3 is involved in the regulation of protein metabolism, and the IFNL2 is involved in the immune response.     

Analysis of <Emphasis Type="Italic">H63D</Emphasis> mutation in hemochromatosis (<Emphasis Type="Italic">HFE</Emphasis>) gene in populations of Central Eurasia

An analysis of the frequency of H63D (c.187C>G) mutations in the HFE gene in 19 populations from Central Eurasia demonstrated that the distribution of the mutation in the region of interest was not uniform and that there were the areas of H63D accumulation. The investigation of three polymorphic variants, c.340+4T>C (rs2071303, IVS2(+4)T>C), c.893-44T>C (rs1800708, IVS4(-44)T>C), and c.1007-47G>A (rs1572982, IVS5(-47)A>G), in the HFE gene in individuals homozygous for H63D mutations in the HFE gene revealed the linkage of H63D with three haplotypes, *CTA, *TTG, and *TTA. These findings indicated the partial spread of the mutation in Central Eurasia from Western Europe, as well as the possible repeated appearance of the mutation on the territory on interest.     

Role of polymorphic XRCC6 (Ku70)/XRCC7 (DNA-PKcs) genes towards susceptibility and prognosis of lung cancer patients undergoing platinum based doublet chemotherapy

The DNA repair genes XRCC6 and XRCC7 formed an integral part of double strand break repair (DSBR) pathway. The two genes are thought to play an important role in the repair of lethal double strand damage on DNA. Polymorphic DSBR genes are studied to effect genomic stability. We intend to explore the association of DSBR genes i.e. XRCC6 and XRCC7 with susceptibility and survival in North Indian lung cancer patients. DNA isolation and genotyping was done for 320 controls and 330 lung cancer cases enrolled in the study. Each and every lung cancer study subjects were made a telephonic call and were followed for their health after administration of chemotherapy. Statistical analysis for susceptibility was done using logistic regression analysis. Survival analysis was done using Kaplan–Meier followed by Cox-regression. Small cell lung cancer (SCLC) subtype posed an amplified risk towards lung cancer in case of XRCC7 6721G>T (OR?=?4.11, p?=?0.0040). Gene-environment interaction analysis revealed that non-smokers with heterozygous genotype (CG) in case of XRCC6 61C>G showed a strong protective effect (OR?=?0.38, p?=?0.01) towards lung cancer. Survival analysis revealed poor prognosis in case of XRCC6 61C>G SCLC subtype. XRCC6 and XRCC7 were not involved in overall susceptibility and survival. However, in case of XRCC7 6721G>T subjects with SCLC subtype showed an increased susceptibility while poor prognosis in case of XRCC6 61C>G.     

Search for osteoarthritis genetic markers in women with undifferentiated connective tissue dysplasia

We conducted an association study of ten polymorphisms in six candidate genes of OA (rs1799750 (MMP1), rs35068180 (MMP3), rs2252070 (MMP13), rs63118460 and rs2276455 (COL2A1), rs143383 (GDF5), rs1544410, rs7975232, rs731236, and rs2228570 (VDR)) with the development of osteoarthritis (OA) in 333 women taking into account the localization of the pathological process, the age of disease manifestation, and ethnicity and investigated the presence of signs of undifferentiated connective tissue dysplasia (UCTD). On the basis of clinical and genetic data, we revealed statistically significant models to predict the development of osteoarthritis of various localizations (knee, hip, and generalized forms).     

Association between glutathione S-transferases M1, T1 and P1 gene polymorphisms and prostate cancer in Koreans

Prostate cancer (PCa) is the most commonly diagnosed cancer in the developed world, and the incidence of this cancer is rising rapidly in many countries. Several polymorphic genes encoding enzymes involved carcinogenesis have been studied as potential risk factor of prostate cancer. Genetic polymorphisms in glutathione S-transferases M1 (GSTM1), T1 (GSTT1) and P1 (GSTP1) genes have been constantly reported to have a meaningful effect on prostate cancer risk. But other surveys of this relationship have yielded inconsistent results. To assess the possible contribution of the GSTM1, GSTT1, and GSTP1 gene polymorphisms in prostate cancer, we performed a population-based study of 139 prostate cancer patients and 115 healthy controls based on their genotype distributions of the genes. There were no differences in distributions of genotype frequencies of GSTM1 and GSTP1 polymorphisms between prostate cancer patients and controls (OR 1.60, 95 % CI 0.886–2.860 for GSTM1 and OR 1.38, 95 % CI 0.739–2.577 for GSTP1). In contrast, the distribution of GSTT1-null genotype is significantly different between the prostate cancer case and controls (OR 0.26, 95 % CI 0.128–0.518, p < 0.001). Meanwhile, GSTP1 I/V and V/V genotypes were significantly associated with prostate cancer where the PSA level was more than 10.0 (OR 2.73, 95 % CI 1.319–5.639, p = 0.006). Thus, our data imply that the GSTT1-null genotype may not be a risk factor but a protective factor of prostate cancer and GSTP1 Val allele is a risk factor for the prostate cancer where the PSA level was high, although functional studies with larger sample size are necessary to elucidate these findings.     

The effect of <Emphasis Type="Italic">UGT1A9</Emphasis>, <Emphasis Type="Italic">CYP2B6</Emphasis> and <Emphasis Type="Italic">CYP2C9</Emphasis> genes polymorphism on individual differences in propofol pharmacokinetics among Polish patients undergoing general anaesthesia

Propofol (2,6-diisopropylphenol) is one of the safest and most commonly used anaesthetic agents for intravenous general anaesthesia. However, in clinical practice, a large inter-individual variability in response to propofol is observed. To limit the risk of adverse effects, pharmacogenetic investigations are recommended. The aim of our study was to verify the impact of genetic changes c.516G>T in the CYP2B6, c.98T>C in the UGT1A9 and c.1075A>C in the CYP2C9 genes on the individual propofol pharmacokinetic profile in the Polish patients undergoing general anaesthesia. Eighty-five patients from the Department of Anaesthesiology and Intensive Therapy, Regional Hospital in Poznan, Poland, anaesthetised with propofol for surgery, were enrolled in the study. We have genotyped CYP2B6, UGT1A9 and CYP2C9 polymorphisms with the use of pyrosequencing. HPLC measurements of propofol plasma concentration were applied for a pharmacokinetic analysis of the anaesthetic. We identified poor (20), intermediate (42) and rapid (23) metabolisers of propofol, which constituted 24%, 49% and 27% of the group, respectively. Homozygotes c.516 T/T in the CYP2B6 gene were statistically more often found in the rapid metabolisers group (p?<?0.05). However, polymorphisms c.98T>C in the UGT1A9 and c.1075A>C in the CYP2C9 genes did not affect the pharmacokinetic profile of propofol. The mean propofol retention time (MRT) correlated with the patient’s body mass index (BMI) (p?<?0.05). From all the analysed changes, only polymorphism c.516G>T in the CYP2B6 gene and BMI affect the metabolism rate of propofol and may play an important role in the optimisation of propofol anaesthesia.     

MicroRNA Biogenesis Pathway Gene Polymorphisms Are Associated with Breast Cancer Risk

MicroRNAs (miRNAs) play an important role as epigenetic regulators in cancer initiation and progression. One of the mechanisms of miRNA dysregulation is altered functioning of proteins involved in miRNA processing machinery. It has been suggested that single nucleotide polymorphisms (SNPs) within miRNA gene regions, miRNA target genes, and miRNA machinery genes may affect the miRNAs regulation. We selected 25 SNPs in the key genes of miRNA biosynthesis, including DROSHA/RNASEN, DGCR8, DICER1, XPO5, RAN, PIWIL1/HIWI, AGO1/EIF2C1, AGO2, GEMIN4, GEMIN3/DDX20, and DDX5, and investigated the association between these SNPs and the risk of breast cancer. The total number of breast cancer cases and cancer-free controls enrolled in the investigation were 778 (417 breast cancer patients and 361 healthy women). We found that rs11060845 and rs10773771 in the PIWIL1 gene, rs3809142/RAN, rs10719/DROSHA, rs1640299/DGCR8, rs563002/DDX20, rs595055/AGO1, and rs2740348/GEMIN4 were associated with breast cancer risk in Russians.     

Association of gene polymorphisms of matrix metalloproteinases with reproductive losses in the first trimester of pregnancy

In the present study, the frequencies of genotypes and alleles of candidate genes with respect to polymorphisms associated with increased pregnancy loss in the first trimester of pregnancy, including MMP1–1607insG, MMP9 A–8202G, and TIMP1 С536T, were reported. The frequency of homozygotes for allele MMP9 A–8202 was increased by a factor of two among women with miscarriage in the first trimester compared to the control. Significant models of interaction of genes MMPs and TIMP1 were revealed. The genotypes of genes MMP1 (rs1799750), MMP9 (rs11697325), and TIMP1 (rs11551797) increasing the risk of pregnancy loss in the first trimester were determined.     

The analysis of association between type 2 diabetes and polymorphic markers in the <Emphasis Type="Italic">CDKAL1</Emphasis> gene and in the <Emphasis Type="Italic">HHEX/IDE</Emphasis> locus

The increase in diabetes was noted at the turn of the 21st century. Patients with type 2 diabetes (T2DM) make up the majority of patients. Diabetes is a multifactorial disease. It arises from adverse effects of environmental factors on the body of genetically susceptible peoples. According to modern concepts, T2DM is a polygenic disease. Each of the involved genes contributes to the risk of developing of this disease. In our study, the association between polymorphic genetic markers rs7756992, rs9465871, rs7754840, and rs10946398 in the CDKAL1 gene and rs1111875 in the HHEX/IDE locus and T2DM in the Russian population were studied. Four hundred forty patients with type 2 diabetes and 264 healthy individuals without any signs of the disease were examined. The comparative analysis of distribution of genotypes and allele frequencies points to an association between polymorphic genetic markers rs7756992, rs9465871, and rs10946398 in the CDKAL1 gene and this disease. For the other polymorphic genetic markers (rs7754840 in the CDKAL1 gene and rs1111875 in the HHEX/IDE locus), no statistically significant associations are found. On the basis of these data, we can conclude that the CDKAL1 gene is associated with development of T2DM. For the HHEX/IDE locus, such an association is absent.     

Carriage of 2R allele at VNTR polymorphous site of <Emphasis Type="Italic">XRCC5</Emphasis> gene increases risk of multiple sclerosis in an Iranian population

The DNA damage has considerably raised in active MS lesions compared to normal brains, indicating the possible role of DNA repairing genes in MS. In the current study, we sought to highlight the association between genetic polymorphisms of XRCC5 and XRCC6 genes, involved in Double Strand Breaks (DSBs) repair, and MS susceptibility. A total of 235 Iranian individuals; including 113 MS patients and 122 healthy controls were participated in this study. They were genotyped for the XRCC5 VNTR polymorphism by polymerase chain reaction (PCR). The genotype analysis of the XRCC6–61C>G polymorphism was performed using the polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) technique. The genotypic frequency of 2R/2R in the XRCC5 VNTR polymorphism was significantly higher in MS patients than controls (p = 0.048). The frequency of individuals with 2R allele was statistically significant in MS patients compared to controls (p = 0.041). Moreover, the frequency of 2R allele of the XRCC5 VNTR polymorphism was found to be significantly difference between MS patients and healthy groups (p = 0.003). The present study suggests that the presence of 2R allele in XRCC5 VNTR gene polymorphism may be a genetic risk factor for MS susceptibility in Iranian population.     

Glutathione-S-transferase gene polymorphism in Russian populations of European part of Russia

Distribution of several widespread, extensively studied polymorphic variants of genes of the cytosol glutathione-S-transferase subfamily (GSTA1, GSTM1, GSTM3, GSTP1, and GSTT1) has been studied in samples from Russian populations of European Russia, as well as Komi and Yakut populations used for comparison. Analysis of the GSTP1 and GSTM3 polymorphisms has not revealed significant differences in the distribution of alleles of the loci, including two-site GSTP1 haplotypes, in most Russian populations and between Komi populations. Only in the Yakut sample have a significant difference been found with respect to these loci in each pairwise comparison. Regarding the GSTT1 and GSTA1 genes, in addition to differences between the Yakut population and all other populations with respect to the GSTA1 gene, it has been found that the frequencies of the GSTT1 0/0 deletion genotype and GSTA1 ?69T allele in the Russian sample from Mezen’ (Arkhangel’sk oblast) are substantially lower than in other Russian populations and Komi populations. The significance of these differences has been confirmed by tests for heterogeneity of the entire pool of Russian populations.     

Genome-wide association studies provide insights on genetic architecture of resistance to leaf rust in a worldwide barley collection

We assembled an international barley panel comprising 282 entries from 26 countries with various levels of field resistance to leaf rust caused by Puccinia hordei. The panel was screened for leaf rust response with an array of pathotypes at the seedling stage, and at the adult plant stage in multiple environments (2013–2015) in Australia and Uruguay, and genotyped using >?13 K polymorphic DArT-Seq markers. Multipathotype testing in the greenhouse postulated the presence of seedling resistance genes Rph1, Rph2, Rph3, Rph4, Rph7, Rph9.am, Rph12, Rph14, Rph15, Rph19, and Rph25. Genome-wide association studies (GWAS) based on field data identified 13 QTLs significantly associated with DArT-Seq markers on chromosomes 2H (Rph_G_Q1, Rph_G_Q2, Rph_G_Q3, and Rph_G_Q4), 4H (Rph_G_Q5), 5H (Rph_G_Q6, Rph_G_Q7, Rph_G_Q8), 6H (Rph_G_Q9 and Rph_G_Q10), and 7H (Rph_G_Q11, Rph_G_Q12, and Rph_G_Q13). Three QTLs (Rph_G_Q3, Rph_G_Q5, and Rph_G_Q6) were detected under all environments, whereas the other ten were variable, being detected in 1–4 environments; Rph_G_Q1 and Rph_G_Q13 being detected only in Uruguay. Among the three QTLs detected under all environments, Rph_G_Q6 on chromosome 5H had the largest effect and corresponded to a region where the cataloged APR gene Rph20 is located. Rph_G_Q3 and Rph_G_Q5 detected on chromosome 2H and 4H aligned with QTLs reported in at least three previous studies. The studies provide useful information towards better understanding of the genetic architecture of seedling and adult plant resistance to leaf rust in diverse global barley germplasm.     

Association of polymorphic markers of chemokine genes,their receptors,and <Emphasis Type="Italic">CD14</Emphasis> gene with coronary atherosclerosis

Atherosclerosis represents an inflammatory response to the disturbance of the endothelial layer in the arterial bloodstream. In the present study, an analysis of associations of polymorphic markers for the genes controlling synthesis of proteins involved in atherosclerosis pathogenesis in coronary atherosclerosis (CA) patients (217 subjects) and in a control group (250 subjects) was conducted. The following genes were examined: rs991804 (CCL2 gene), rs1126579 (CXCR2 gene), rs4074 (CXCL1 gene), rs4073 (CXCL8 gene), rs333 (CCR5 gene), rs2471859 (CXCR4 gene), rs1801157 (CXCL12 gene), and rs2569190 (CD14 gene). Using the Monte Carlo and Markov chain (APSampler) method, allele/genotype combinations associated with both low and high CA risk were revealed. The most important findings included the following: CXCR4*T/T + CCL2*C + CCR5*I/I (P_perm = 1 × 10^–6, OR = 0.44, 95% CI 0.3–0.63), CXCR2*C + CD14*C + CXCL12*G + CCL2*C + CCR5*D (P_perm = 4 × 10^–6, OR = 5.78, 95% CI 2.34–14.28), CD14*C + CCL2*C/C + CCR5*D (P_perm = 6.3 × 10^–6, OR = 5.81, 95% CI 2.17–15.56), CXCL8*A + CXCR2*C + CD14*T + CXCR4*C (P_perm = 0.01, OR = 3.21, 95% CI 1.63–6.31).