Without exposure to any DNA-damaging agents, non-dividing eukaryotic cells carry endogenous DNA double-strand breaks (EDSBs), or Replication-Independent (RIND)-EDSBs. In human cells, RIND-EDSBs are enriched in the methylated heterochromatic areas of the genome and are repaired by an ATM-dependent non-homologous end-joining pathway (NHEJ). Here, we showed that Saccharomyces cerevisiae similarly possess RIND-EDSBs. Various levels of EDSBs were detected during different phases of the cell cycle, including G0. Using a collection of mutant yeast strains, we investigated various DNA metabolic and DNA repair pathways that might be involved in the maintenance of RIND-EDSB levels. We found that the RIND-EDSB levels increased significantly in yeast strains lacking proteins involved in NHEJ DNA repair and in suppression of heterochromatin formation. RIND-EDSB levels were also upregulated when genes encoding histone deacetylase, endonucleases, topoisomerase, and DNA repair regulators were deleted. In contrast, RIND-EDSB levels were downregulated in the mutants that lack chromatin-condensing proteins, such as the high-mobility group box proteins, and Sir2. Likewise, RIND-EDSB levels were also decreased in human cells lacking HMGB1. Therefore, we conclude that the genomic levels of RIND-EDSBs are evolutionally conserved, dynamically regulated, and may be influenced by genome topology, chromatin structure, and the efficiency of DNA repair systems.
The mechanism that causes genomic instability in nondividing aging cells is unknown. Our previous study of mutant yeast suggested that 2 types of replication-independent endogenous DNA double-strand breaks (RIND-EDSBs) exist and that they play opposing roles. The first type, known as physiologic RIND-EDSBs, were ubiquitous in the G phase of both yeast and human cells in certain genomic locations and may act as epigenetic markers. Low RIND-EDSB levels were found in mutants that lacked chromatin-condensing proteins, such as the high-mobility group box (HMGB) proteins and Sir2. The second type is referred to as pathologic RIND-EDSBs. High pathological RIND-EDSB levels were found in DSB repair mutants. Under normal physiologic conditions, these excess RIND-EDSBs are repaired in much the same way as DNA lesions. Here, chronological aging in yeast reduced physiological RIND-EDSBs and cell viability. A strong correlation was observed between the reduction in RIND-EDSBs and viability in aging yeast cells ( r = 0.94, P < 0.0001). We used galactose-inducible HO endonuclease (HO) and nhp6a∆, an HMGB protein mutant, to evaluate the consequences of reduced physiological RIND-EDSB levels. The HO-induced cells exhibited a sustained reduction in RIND-EDSBs at various levels for several days. Interestingly, we found that lower physiologic RIND-EDSB levels resulted in decreased cell viability ( r = 0.69, P < 0.0001). Treatment with caffeine, a DSB repair inhibitor, increased pathological RIND-EDSBs, which were distinguished from physiologic RIND-EDSBs by their lack of sequences prior to DSB in untreated cells [odds ratio (OR) ≤1]. Caffeine treatment in both the HO-induced and nhp6a∆ cells markedly increased OR ≤1 breaks. Therefore, physiological RIND-EDSBs play an epigenetic role in preventing pathological RIND-EDSBs, a type of DNA damage. In summary, the reduction of physiological RIND-EDSB level is a genomic instability mechanism in chronologically aging cells.-Thongsroy, J., Patchsung, M., Pongpanich, M., Settayanon, S., Mutirangura, A. Reduction in replication-independent endogenous DNA double-strand breaks promotes genomic instability during chronological aging in yeast.
BackgroundCellular senescence due to genomic instability is believed to be one of the mechanisms causing health problems in diabetes mellitus (DM). Low methylation levels of Alu elements or Alu hypomethylation, an epigenomic event causing genomic instability, were commonly found in aging people and patients with aging phenotypes, such as osteoporosis.ResultsWe investigate Alu methylation levels of white blood cells of type 2 DM, pre-DM, and control. The DM group possess the lowest Alu methylation (P < 0.001, P < 0.0001 adjusted age). In the DM group, Alu hypomethylation is directly correlated with high fasting blood sugar, HbA1C, and blood pressure.ConclusionGenome-wide hypomethylation may be one of the underlining mechanisms causing genomic instability in type 2 DM. Moreover, Alu methylation levels may be a useful biomarker for monitoring cellular senescence in type 2 DM patients.Electronic supplementary materialThe online version of this article (10.1186/s13148-017-0395-6) contains supplementary material, which is available to authorized users.
BackgroundReplication-independent endogenous double-strand breaks (RIND-EDSBs) occur in both humans and yeast in the absence of inductive agents and DNA replication. In human cells, RIND-EDSBs are hypermethylated, preferentially retained in the heterochromatin and unbound by γ-H2AX. In single gene deletion yeast strains, the RIND-EDSB levels are altered; the number of RIND-EDSBs is higher in strains with deletions of histone deacetylase, endonucleases, topoisomerase, or DNA repair regulators, but lower in strains with deletions of the high-mobility group box proteins or Sir2. In summary, RIND-EDSBs are different from pathologic DSBs in terms of their causes and consequences. In this study, we identified the nucleotide sequences surrounding RIND-EDSBs and investigated the features of these sequences as well as their break locations.ResultsIn recent work, we detected RIND-EDSBs using ligation mediated PCR. In this study, we sequenced RIND-EDSB PCR products of resting state Saccharomyces cerevisiae using next-generation sequencing to analyze RIND-EDSB sequences. We found that the break locations are scattered across a number of chromosomes. The number of breaks correlated with the size of the chromosomes. Most importantly, the break occurrences had sequence pattern specificity. Specifically, the majority of the breaks occurred immediately after the sequence “ACGT” (P = 2.2E-156). Because the “ACGT” sequence does not occur primarily in the yeast genome, this specificity of the “ACGT” sequence cannot be attributed to chance.ConclusionsRIND-EDSBs occur non-randomly; that is, they are produced and retained by specific mechanisms. Because these particular mechanisms regulate their generation and they possess potentially specific functions, RIND-EDSBs could be epigenetic marks.Electronic supplementary materialThe online version of this article (doi:10.1186/1471-2164-15-750) contains supplementary material, which is available to authorized users.
The endogenous DNA damage triggering an aging progression in the elderly is prevented in the youth, probably by naturally occurring DNA gaps. DecreasedThis is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
Stroke represents the leading cause of disability and mortality amongst the elderly worldwide. Multiple risk factors, including both genetic and non-genetic components, as well as their interactions, are proposed as etiological factors involved in the development of ischemic stroke (IS). Promoter polymorphisms of the IL-6-174G/C (rs1800795) and TNF-α-308G/A (rs1800629) genes have been considered as predictive risk factors of IS; however, these have not yet been evaluated in a Thai population. The aims of this study were to investigate the association of IL-6-174G/C and TNF-α-308G/A polymorphisms with IS. Genomic DNA from 200 patients with IS and 200 controls were genotyped for IL-6-174G/C and TNF-α-308G/A polymorphisms using TaqMan™ SNP genotyping and quantitative PCR-high resolution melting analysis, respectively. It was found that the TNF-α-308 A allele was significantly associated with an increased risk of IS development compared with the G allele [odds ratio (OR)=2.044; 95% CI=1.154-3.620; P=0.014]. Moreover, the IS risk was significantly higher in the presence of TNF-α-308 GA or AA genotypes compared with that in the presence of GG genotypes with a dominant inheritance (OR=1.971; 95% CI=1.080-3.599; P=0.027). However, there was no association between IL-6-174G/C and the risk of IS development. The interaction study demonstrated that IL-6-174 GG and TNF-α-308 GG genotypes enhanced IS susceptibility when combined with hypertension, hyperlipidemia and alcohol consumption. Hypertensive and hyperlipidemic subjects with the TNF-α-308 GA and AA genotypes were more likely to develop IS compared with those who did not have these two conditions and had the GG genotype. In a matched study design (1:1), the IL-6-174 GC genotype was associated with higher IL-6 levels in the control group. Collectively, the present results highlight the utility of the TNF-α-308G/A polymorphism as a predictive genetic risk factor for development of IS.
Introduction Epigenetic changes that cause genomic instability may be the basis of pathogenic processes of age-associated noncommunicable diseases (NCDs). Essential hypertension is one of the most common NCDs. Alu hypomethylation is an epigenetic event that is commonly found in elderly individuals. Epigenomic alterations are also found in age-associated NCDs such as osteoporosis and diabetes mellitus. Alu methylation prevents DNA from being damaged. Therefore, Alu hypomethylated DNA accumulates DNA damage and, as a result, causes organ function deterioration. Here, we report that Alu hypomethylation is a biomarker for essential hypertension. Results We investigated Alu methylation levels in white blood cells from normal controls, patients with prehypertension, and patients with hypertension. The hypertension group possessed the lowest Alu methylation level when classified by systolic blood pressure and diastolic blood pressure (P = 0.0002 and P = 0.0088, respectively). In the hypertension group, a higher diastolic blood pressure and a lower Alu methylation level were observed (r = -0.6278). Moreover, we found that changes in Alu hypomethylation in the four years of follow-up in the same person were directly correlated with increased diastolic blood pressure. Conclusions Similar to other age-associated NCDs, Alu hypomethylation is found in essential hypertension and is directly correlated with severity, particularly with diastolic blood pressure. Therefore, Alu hypomethylation may be linked with the molecular pathogenesis of high blood pressure and can be used for monitoring the clinical outcome of this disease.
Subcutaneous panniculitis-like T-cell lymphoma (SPTCL) is a rare primary cutaneous lymphoma characterized by infiltration of the subcutaneous tissue by neoplastic cytotoxic T cells mimicking panniculitis. There is a strong association between SPTCL and lupus erythematosus panniculitis (LEP). However, patients who were diagnosed with LEP with a preceding diagnosis of SPTCL have been scarcely reported. We herein reported a 21-year-old Thai woman presenting to a dermatology clinic for evaluation of a 1-month history of a painful mass on the right buttock and bilateral upper eyelid swelling. A subcutaneous mass which was 5 by 2 cm in diameter, tender, firm, and fixed with a smooth surface was palpated over the upper outer quadrant of her right gluteal area. After a diagnosis of SPTCL had been made based on the histological and immunohistochemical studies, treatment with oral dexamethasone and ciclosporin A was initially started. Because of intolerance to adverse reactions of dexamethasone, only ciclosporin A was given. Improvement was not achieved at 6-month follow-up. She then underwent the re-incisional biopsy at the same gluteal area and the histological features were consistent with LEP. After hydroxychloroquine was given, the lesion resolved within 3 months, and no recurrence was detected during the following 6-month follow-up. We emphasize that long-term follow-up of patients with SPTCL is required. Additionally, in case of poor response to the given treatment, a repeat skin biopsy should be considered in order to determine the proper management.
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