DNA damage and integrity of UV-induced DNA repair in lymphocytes of smokers analysed by the comet assay

DNA damage was assessed in smoker lymphocytes by subjecting them to the single cell gel electrophoresis (SCGE) assay. In addition to the appearance of comet tails, smoker cells exhibited enlarged nuclei when analysed by the comet assay. On comparing basal DNA damage among smokers and a non-smoking control group, smoker lymphocytes showed higher basal DNA damage (smokers, 36.25±8.45 μm; non-smokers, 21.6±2.06 μm). A significant difference in DNA migration lengths was observed between the two groups at 10 min after UV exposure (smokers, 65.5±20.34 μm; non-smokers, 79.2±11.59 μm), but no significant differences were seen at 30 min after UV exposure (smokers, 21.13±10.73 μm; non-smokers, (27.2±4.13 μm). The study thus implies that cigarette smoking perhaps interferes with the incision steps of the nucleotide excision repair (NER) process. There appeared be no correlation between the frequency of smoking and DNA damage or the capacity of the cells to repair UV-induced DNA damage that suggests inherited host factors may be responsible for the inter-individual differences in DNA repair capacities. The study also suggests monitoring NER following UV insult using the SCGE assay is a sensitive and simple method to assess DNA damage and integrity of DNA repair in human cells exposed to chemical mutagens.     

Microcystic adnexal carcinoma of the scalp treated with surgical resection along with chemoradiation: A case report and review of the literature

Microcystic adnexal carcinoma (MAC) is an infiltrative rare cutaneous neoplasm for which there are no consensus management guidelines because of the paucity of evidence-based practice; hence, the utility of their management is based only on previously published case reports. We report a case of a scalp lesion that was successfully treated using a combination of surgical resection, chemotherapy, and radiotherapy.     

一种动态检测小鼠微量血中T细胞受体重排删除环含量的方法

目的:通过检测比较外周血(颈动脉大量采血和微量隐静脉采血)、胸腺组织和脾脏组织等不同成分或组织中T细胞受体重排删除环(T cell receptor rearrangement excision circles,TREC)的含量,并建立一种通过微量外周血PCR预扩增的方法,评估胸腺输出功能。方法:采用C57BL/6小鼠作为实验对象,分成幼年组(5周龄,n=10)和成年组(15周龄,n=10)。经过隐静脉采血及颈动脉采血后处死小鼠,取小鼠胸腺器官和脾脏器官,提取基因组DNA(g DNA),隐静脉微量血g DNA通过PCR预扩增,提纯后再和颈动脉血、胸腺组织和脾脏组织g DNA一起进行实时定量PCR,分析各组织成分TREC的表达水平及差别。结果:幼年组胸腺组织及外周血中TREC的含量比成年组高,且二者趋势基本一致;而脾脏组织结果与其相反;幼年组小鼠胸腺组织中TREC的含量比脾脏组织中高,成年组小鼠结果与之相反;微量外周血经过预扩增后再进行实时定量PCR的结果与直接定量PCR结果一致,且更高效。结论:研究提供了一种新型高效的动态检测T细胞受体重排删除环和检测胸腺输出功能的方法。     

piggyBac转座子AgoPLE1.1在黑腹果蝇种系转化中的应用

[目的]通过检测黑腹果蝇 DDrosophiila melanogaster中piggyBac(PB)转座子AgoPLE1.1的转化活性,明确AgoPLE1.1开发为昆虫转基因载体的潜力.[方法]构建AgoPLE1.1转座酶辅助质粒pAgoHsp和带有红色荧光标记的供体质粒pXLAgo-PUbDsRed,辅助质粒和供体...     

Mismatch repair factor MSH2-MSH3 binds and alters the conformation of branched DNA structures predicted to form during genetic recombination

Genetic studies in Saccharomyces cerevisiae predict that the mismatch repair (MMR) factor MSH2-MSH3 binds and stabilizes branched recombination intermediates that form during single strand annealing and gene conversion. To test this model, we constructed a series of DNA substrates that are predicted to form during these recombination events. We show in an electrophoretic mobility shift assay that S. cerevisiae MSH2-MSH3 specifically binds branched DNA substrates containing 3' single-stranded DNA and that ATP stimulates its release from these substrates. Chemical footprinting analyses indicate that MSH2-MSH3 specifically binds at the double-strand/single-strand junction of branched substrates, alters its conformation and opens up the junction. Therefore, MSH2-MSH3 binding to its substrates creates a unique nucleoprotein structure that may signal downstream steps in repair that include interactions with MMR and nucleotide excision repair factors.     

人XPB基因在核苷酸剪切修复和基因转录中的分子机制

核苷酸剪切修复(NER)途径是维持生物体基因组稳定的重要机制。人着色性干皮病B组(xeroderma pigmentosum group B,XPB)基因又名ERCC3基因,它既是NER途径不可缺少的成员又是转录因子TFIIH的最大p89亚基。它是具有从3’端→5’端依赖ATP的单链DNA解旋酶活性的蛋白质,执行依赖DNA的ATP酶和解旋酶功能,在损伤DNA修复和基因转录中均起重要作用,并将两者有机偶联。该基因突变将导致3种不同的遗传疾病：着色性干皮病(xeroderma pigmentosum,XP),科凯恩氏综合征(cockayne’s syndrome,CS),毛发硫营养不艮(trichothiodystrophy,TTD)。其基因型通过在DNA修复和转录中的功能与表型联系起来。另外,XPB与p53存在物理和功能上的相互作用。现从XPB的3个方面即“一个基因,两种功能,3种疾病”作一综述。     

How a mismatch repair enzyme balances the needs for efficient lesion processing and minimal action on undamaged DNA

Comment on: Maiti A, et al. Proc Natl Acad Sci USA 2012; 109:8091-6.     

The XRCC1 Arg280His polymorphism contributes to cancer susceptibility: an update by meta-analysis of 53 individual studies

The X-ray repair cross-complementing group 1 (XRCC1) protein plays a central role in DNA repair pathways. Epidemiological studies have revealed the association between XRCC1 Arg280His polymorphism and cancer risk, but the results were inconsistent. We conducted this meta-analysis to assess the effect of XRCC1 Arg280His polymorphism on cancer susceptibility with accumulated data. Up to January 2012, 53 case‐control studies with 21,349 cases and 23,649 controls were available for our study. Summary odds ratios (OR) and corresponding 95% confidence intervals (CIs) for XRCC1 Arg280His polymorphism and cancer were estimated using fixed‐ or random-effects models when appropriate. Our meta-analysis identified that elevated cancer risk was statistically associated with the minor variant His allele and Arg–His/His–His genotypes both in the overall population (allele comparison, His versus Arg: OR = 1.16; 95% CI: 1.08–1.25; dominant comparison, Arg–His/His–His versus Arg–Arg: OR = 1.17; 95% CI: 1.08–1.27) and in terms of subgroup analyses by ethnicity for both Caucasians and non‐Caucasians. However, no significant result was observed in the stratified analysis by cancer type. Moreover, significantly increased cancer risk was observed in smokers. These findings indicated that XRCC1 Arg280His polymorphism may play a role in cancer development.     

The deubiquitinating protein USP24 interacts with DDB2 and regulates DDB2 stability

Damage-specific DNA-binding protein 2 (DDB2) was first isolated as a subunit of the UV-DDB heterodimeric complex that is involved in DNA damage recognition in the nucleotide excision repair pathway (NER). DDB2 is required for efficient repair of CPDs in chromatin and is a component of the CRL4^DDB2 E3 ligase that targets XPC, histones and DDB2 itself for ubiquitination. In this study, a yeast two-hybrid screening of a human cDNA library was performed to identify potential DDB2 cellular partners. We identified a deubiquitinating enzyme, USP24, as a likely DDB2-interacting partner. Interaction between DDB2 and USP24 was confirmed by co-precipitation. Importantly, knockdown of USP24 in two human cell lines decreased the steady-state levels of DDB2, indicating that USP24-mediated DDB2 deubiquitination prevents DDB2 degradation. In addition, we demonstrated that USP24 can cleave an ubiquitinated form of DDB2 in vitro. Taken together, our results suggest that the ubiquitin-specific protease USP24 is a novel regulator of DDB2 stability.     

Telomere proteins POT1, TRF1 and TRF2 augment long-patch base excision repair in vitro

Human telomeres consist of multiple tandem hexameric repeats, each containing a guanine triplet. Guanosine-rich clusters are highly susceptible to oxidative base damage, necessitating base excision repair (BER). Previous demonstration of enhanced strand displacement synthesis by the BER component DNA polymerase β in the presence of telomere protein TRF2 suggests that telomeres employ long-patch (LP) BER. Earlier analyses in vitro showed that efficiency of BER reactions is reduced in the DNA-histone environment of chromatin. Evidence presented here indicates that BER is promoted at telomeres. We found that the three proteins that contact telomere DNA, POT1, TRF1 and TRF2, enhance the rate of individual steps of LP-BER and stimulate the complete reconstituted LP-BER pathway. Thought to protect telomere DNA from degradation, these proteins still apparently evolved to allow selective access of repair proteins.