DNMT1 and DNMT3B gene variants and their association with endometriosis in South Indian women

Background

Endometriosis is a multifactorial estrogen dependent gynecological disease characterized by implantation of functional endometrial tissue at ectopic positions. Though this disease is benign, it is associated with an increased risk of malignant transformation. Epigenetic disruptions like aberrant DNA methylation, resulting changes in gene expression capacity, are important in tumor progression and malignant cellular transformation. Therefore, variation in genes involved in DNA methylation might lead to disease susceptibility.

Purpose

To investigate the association between DNA methyl transferases (DNMT1 and DNMT3B) single nucleotide polymorphisms (SNPs) and the risk of endometriosis in South Indian women.

Methods

In the present study, we examined the genotypic and allele distribution of DNMT1 (rs10423341C/A, rs2228611G/Aandrs4804490C/A) and DNMT3B (rs1569686G/T) among the endometriosis patients (n?=?150) and controls (n?=?150). The genotypes were analyzed by polymerase chain reaction (PCR) and sequencing methods. Haplotype frequencies for multiple loci and the standardized disequilibrium coefficient (D?) for pairwise linkage disequilibrium (LD) were surveyed by Haploview Software.

Result

Significant increase in the frequencies of DNMT1 rs10423341 (P?=?0.04601), rs2228611 (P?=?0.00175) and DNMT3B rs1569686 (P?=?0.033) genotypes and alleles was observed in patients compared to controls. In addition, the frequency of A/A/C (P?=?0.0065) haplotype was significantly high in patients. But the DNMT1 (rs4804490) SNP did not show significant association with the disease.

Conclusion

The DNMT1 and DNMT3B polymorphism may constitute an inheritable risk factor for endometriosis in South Indian women. To the best of our knowledge there is no reported study on the association of polymorphisms in DNMT1 and DNMT3B with endometriosis risk.

     

Mitochondrial genome variations in advanced stage endometriosis: a study in South Indian population

Background

Endometriosis is a chronic gynecological benign disease that shares several features similar to malignancy. Mitochondrial DNA (mtDNA) mutations have been reported in all most all types of tumors. However, it is not known as to whether mtDNA mutations are associated with endometriosis.

Methodology

We sequenced the entire mitochondrial genome of analogous ectopic and eutopic endometrial tissues along with blood samples from 32 advanced stage endometriosis patients to analyze the role of somatic and germ-line mtDNA variations in pathogenesis of endometriosis. All ectopic tissues were screened for tumor-specific mtDNA deletions and microsatellite instability (MSI). We also performed mtDNA haplogrouping in 128 patients and 90 controls to identify its possible association with endometriosis risk.

Principal Findings

We identified 51 somatic (novel: 31; reported: 20) and 583 germ-line mtDNA variations (novel: 53; reported: 530) in endometriosis patients. The A13603G, a novel missense mutation which leads to a substitution from serine to glycine at the codon 423 of ND5 gene showed 100% incidence in ectopic tissues. Interestingly, eutopic endometrium and peripheral leukocytes of all the patients showed heteroplasmy (A/G; 40–80%) at this locus, while their ectopic endometrium showed homoplasmic mutant allele (G/G). Superimposition of native and mutant structures of ND5 generated by homology modeling revealed no structural differences. Tumor-specific deletions and MSI were not observed in any of the ectopic tissues. Haplogrouping analysis showed a significant association between haplogroup M5 and endometriosis risk (P: 0.00069) after bonferroni correction.

Conclusions

Our findings substantiate the rationale for exploring the mitochondrial genome as a biomarker for the diagnosis of endometriosis.     

In vivo chitin-cadmium complexation in cell wall of Neurospora crassa

Fungal cell wall, mainly composed of chitin, an N-acetylglucosamine polymer, is known to participate in heavy metal detoxification. In the present study, an effort was made to elucidate the sites involved in complexation of cadmium by the chitin material of cell wall of Neurospora crassa. Based on the results of physical techniques, such as solid-state 13C-NMR, X-ray diffraction, IR and molecular modeling, a structure was proposed for the chitin-cadmium complex. The ring and C-3 hydroxyl oxygens of N-acetylglucosamine were implicated in the complexation of cadmium by the chitin of the fungal cell wall. The studies further revealed that the conformation of chitin did not alter after cadmium complexation.     

Mitochondrial Control Region Alterations and Breast Cancer Risk: A Study in South Indian Population

Background

Mitochondrial displacement loop (D-loop) is the hot spot for mitochondrial DNA (mtDNA) alterations which influence the generation of cellular reactive oxygen species (ROS). Association of D-loop alterations with breast cancer has been reported in few ethnic groups; however none of the reports were documented from Indian subcontinent.

Methodology

We screened the entire mitochondrial D-loop region (1124 bp) of breast cancer patients (n = 213) and controls (n = 207) of south Indian origin by PCR-sequencing analysis. Haplotype frequencies for significant loci, the standardized disequilibrium coefficient (D′) for pair-wise linkage disequilibrium (LD) were assessed by Haploview Software.

Principal Findings

We identified 7 novel mutations and 170 reported polymorphisms in the D-loop region of patients and/or controls. Polymorphisms were predominantly located in hypervariable region I (60%) than in II (30%) of D-loop region. The frequencies of 310‘C’ insertion (P = 0.018), T16189C (P = 0.0019) variants and 310‘C’ins/16189C (P = 0.00019) haplotype were significantly higher in cases than in controls. Furthermore, strong LD was observed between nucleotide position 310 and 16189 in controls (D′ = 0.49) as compared to patients (D′ = 0.14).

Conclusions

Mitochondrial D-loop alterations may constitute inherent risk factors for breast cancer development. The analysis of genetic alterations in the D-loop region might help to identify patients at high risk for bad progression, thereby helping to refine therapeutic decisions in breast cancer.     

Mitochondrial NADH:ubiquinone oxidoreductase alterations are associated with endometriosis

Genetic alterations and aberrant expression of ‘mitochondrial membrane complex I’ (MMC-I) underlie several complex human disorders, but no reports are documented to date in endometriosis. Sequencing of mitochondrially encoded MMC-I subunits revealed 72 mutations of which 2 missense (G10398A; A13603A/G) mutations and 1 synonymous (T10400C) mutation showed higher prevalence in patients. In silico functional analysis predicted A13603A/G, a novel heteroplasmy as a ‘damaging variant’. Our results indicate higher endometriosis risk for haplotype ‘10398A/10400C/13603AG’ and haplogroup ‘N’. Immunohistochemical analysis revealed elevated MMC-I expression in eutopic endometria of patients compared to controls. In conclusion, MMC-I alterations may constitute an inheritable risk factor for endometriosis.     

Mitochondrial genome variations in advanced stage breast cancer: A case–control study

Entire mitochondrial DNA (mtDNA) sequencing was carried out in 101 primary breast cancer patients and 90 controls of south Indian origin. We identified 69 novel mutations in breast cancer patients and 637 reported polymorphisms in patients and/or controls. PolyPhen-2 analysis predicted 5 out of 14 novel missense mutations as ‘probably damaging variants’. Haplogrouping analysis identified a significant association between haplogroup M5 and breast cancer risk. Microsatellite instability and tumor specific large scale mtDNA deletions were not observed in tumor tissues from the patients. In conclusion, mtDNA mutations and haplogroups may constitute an inheritable risk factor for pathogenesis of breast cancer.