BackgroundExtracellular matrix degradation by matrix metalloproteinases (MMPs) is an important mechanism involved in tumor invasion and metastasis. Genetic variations of MMPs have shown association with multiple cancers. The present study is focused to elucidate the association of MMP-1, 3 and 9 genetic variants with respect to epidemiological and clinicopathological variables by haplotype, LD, MDR, survival in silico analyses among South Indian women.Material and methodsMMP3–1171 5A/6A and MMP9–1562 C/T SNPs were genotyped by Allele specific polymerase chain reaction and MMP1-1607 1G/2G polymorphism by restriction fragment length polymorphism assays respectively, in 300 BC patients and age-matched 300 healthy controls. Statistical analysis was performed using the SNPStats and SPSS software. Linkage disequilibrium and gene-gene interactions were performed using Haploview and MDR software respectively. Further, transcription factor binding sites in the promoter regions of SNPs under study were carried out using AliBaba2.1 software.ResultsWe have observed an increased frequency of 2G-allele of MMP1, 6A-allele of MMP3 and T-allele of MMP9 (p<0.05) respectively in BC subjects. The 2G-6A haplotype (minor alleles of MMP-1 and MMP-3 respectively) has shown an increased susceptibility to BC. Further, MMP polymorphisms were associated with the clinical characteristics of BC patients such as steroid hormone receptor status, lymph node involvement and metastasis. SNP combinations were in perfect LD in controls. MDR analysis revealed a positive interaction between the SNPs. 5-years survival rate and cox-regression analysis showed a significant association with clinicopathological variables.ConclusionOur results suggest that MMP1–1607 1G/2G, MMP3–1171 5A/6A and MMP9–1562 C/T gene polymorphisms have synergistic effect on breast cancer. The interactions of MMPs clinical risk factors such as lymph node involvement has shown a strong correlation and might influence the 5-years survival rate, suggesting their potential role in the breast carcinogenesis.
Introduction: Proprotein convertase subtilisin/kexin type 9 (PCSK9) genetic polymorphisms play a significant role in cholesterol homeostasis. Therefore, we aimed to investigate the association of PCSK9 genetic variations NM_174936.3:c.137G>T (R46L, rs11591147) and NM_174936.3:c.1120G>T (D374Y, rs137852912), as well as promoter DNA methylation status, with mRNA expression and circulating serum protein levels in coronary artery disease (CAD) patients.Methods: The present study includes 300 CAD cases and 300 controls from South India. Biochemical assays were performed using commercially available kits. PCSK9 rs11591147 and rs137852912 polymorphisms were analyzed by the polymerase chain reaction (PCR)-restriction fragment length polymorphism method, whereas promoter DNA methylation status and gene expression were determined using methylation specific PCR and quantitative PCR respectively. Results:The genotypic distribution of PCSK9 rs11591147 revealed that individuals with the TT-genotype and T-allele have a reduced risk for CAD. Furthermore, patients with the PCSK9 rs11591147 TT genotype have a significantly lower total cholesterol and low-density lipoprotein-cholesterol levels and also higher high-density lipoproteincholesterol levels than individuals with the GG genotype. Logistic regression analysis has shown that the GG and GT (p = 1.51 Â 10 -8 , p = 1.47 Â 10 -9 ) genotypes predicted the risk for CAD with an odds ratio of 5.8 and 7.3 respectively. In addition, individuals with the TT genotype were hypermethylated at promoter DNA of PCSK9, resulting in lower mRNA expression and circulating serum proteins than in individuals with the GG genotype. In silico analyses revealed that rs11591147 T-allele has protein destabilizing capacity.
Coronary artery disease (CAD) is the major cause of morbidity and mortality. Diabetes is one of the powerful and independent risk factor for CAD. Hyperglycemia and hypercholesterolemia initiate the oxidative stress and complications like atherosclerosis which induces poor prognosis in diabetic CAD patients. The aim of the present study was to assess oxidative stress by comparing the levels of malondialdehyde and comet tail length in diabetic CAD patients, non-diabetic CAD patients and healthy controls. The study included 400 subjects of which 200 were healthy controls, 100 were diabetic CAD patients, and 100 were nondiabetic CAD patients. Fasting and postprandial glucose levels, glycosylated hemoglobin, serum lipid levels, malondialdehyde, and DNA damage were estimated in all subjects by using commercially available kits and standard protocols. FBS (185.60 ± 6.0 mg/dL), PPG (250 ± 7.06 mg/dL), HbA1c (10.65 ± 2.01 %), TC (280.72 ± 5.25 mg/dL), TG (195.11 ± 5.99 mg/dL), LDL (163.28 ± 5.68 mg/dL), MDA (9.74 ± 2.33 n moles/mL), and comet tail length (21.60 ± 5.69 μm) were significantly high in diabetic CAD patients (p < 0.05) compared to non-diabetic CAD patients and controls. Fasting and postprandial blood sugar levels significantly correlated with oxidative stress markers like MDA (r = 0.553, r = 0.557, p < 0.01) and comet tail length (r = 0.489, r = 0.626, p < 0.01) in diabetic CAD patients compared to nondiabetic CAD patients. Our study showed that diabetic CAD patients with increased levels of oxidative stress markers (MDA and DNA damage) might have the poor prognosis than nondiabetic CAD patients.
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