To investigate the genotoxicity and reveal the potential toxicological mechanisms of Hexabromocyclododecane (HBCD), human breast cells HBL-100 were exposed to a sequence of HBCD concentrations (0, 5, 10, and 50 mg/...To investigate the genotoxicity and reveal the potential toxicological mechanisms of Hexabromocyclododecane (HBCD), human breast cells HBL-100 were exposed to a sequence of HBCD concentrations (0, 5, 10, and 50 mg/L) for 24 h. With a series of zymology and molecular biology methods, we found that HBCD induced dose-dependent oxidative stress on HBL-100 DNA. As revealed in q RT-PCR, activated prognostic factor ATM down-regulated tumor suppressor gene BRCA1 and prompted DNA repair genes h OGG1 and h MTH1 expression in lower concentrations of HBCD (〈 10 mg/L). However, DNA repair were inhibited as well as cell proliferation rate by higher concentrations of HBCD (50 mg/L). The results inferred that the genotoxicity of HBCD was dose-dependent and related to DNA repair pathway.展开更多
Maintenance of tissue-specific stem cells is vital for organ homeostasis and organismal longevity.Hematopoietic stem cells(HSCs) are the most primitive cell type in the hematopoietic system.They divide asymmetricall...Maintenance of tissue-specific stem cells is vital for organ homeostasis and organismal longevity.Hematopoietic stem cells(HSCs) are the most primitive cell type in the hematopoietic system.They divide asymmetrically and give rise to daughter cells with HSC identity(selfrenewal) and progenitor progenies(differentiation),which further proliferate and differentiate into full hematopoietic lineages.Mammalian ageing process is accompanied with abnormalities in the HSC self-renewal and differentiation.Transcriptional changes and epigenetic modulations have been implicated as the key regulators in HSC ageing process.The DNA damage response(DDR)in the cells involves an orchestrated signaling pathway,consisting of cell cycle regulation,cell death and senescence,transcriptional regulation,as well as chromatin remodeling.Recent studies employing DNA repair-deficient mouse models indicate that DDR could intrinsically and extrinsically regulate HSC maintenance and play important roles in tissue homeostasis of the hematopoietic system.In this review,we summarize the current understanding of how the DDR determines the HSC fates and finally contributes to organismal ageing.展开更多
The DNA damage response(DDR) is a complex biological system activated by different types of DNA damage.Mutations in certain components of the DDR machinery can lead to genomic instability disorders that culminate in...The DNA damage response(DDR) is a complex biological system activated by different types of DNA damage.Mutations in certain components of the DDR machinery can lead to genomic instability disorders that culminate in tissue degeneration,premature aging,and various types of cancers.Intriguingly,malfunctioning DDR plays a role in the etiology of late onset brain degenerative disorders such as Parkinson's,Alzheimer's,and Huntington's diseases.For many years,brain degenerative disorders were thought to result from aberrant neural death.Here we discuss the evidence that supports our novel hypothesis that brain degenerative diseases involve dysfunction of glial cells(astrocytes,microglia,and oligodendrocytes).Impairment in the functionality of glial cells results in pathological neuro-glial interactions that,in turn,generate a ‘‘hostile" environment that impairs the functionality of neuronal cells.These events can lead to systematic neural demise on a scale that appears to be proportional to the severity of the neurological deficit.展开更多
基金supported by the National Natural Science Foundation of China(No.41406088)The open fund of Key Laboratory for Ecological Environment in Coastal Areas,State Oceanic Administration(201506)
文摘To investigate the genotoxicity and reveal the potential toxicological mechanisms of Hexabromocyclododecane (HBCD), human breast cells HBL-100 were exposed to a sequence of HBCD concentrations (0, 5, 10, and 50 mg/L) for 24 h. With a series of zymology and molecular biology methods, we found that HBCD induced dose-dependent oxidative stress on HBL-100 DNA. As revealed in q RT-PCR, activated prognostic factor ATM down-regulated tumor suppressor gene BRCA1 and prompted DNA repair genes h OGG1 and h MTH1 expression in lower concentrations of HBCD (〈 10 mg/L). However, DNA repair were inhibited as well as cell proliferation rate by higher concentrations of HBCD (50 mg/L). The results inferred that the genotoxicity of HBCD was dose-dependent and related to DNA repair pathway.
基金supported by the National Natural Science Foundation of China(Grant No.81571380)the Natural Science Foundation of Zhejiang Province–China(Grant No.LY16H080009)+2 种基金supported by the National Natural Science Foundation of China(Grant Nos.81130074,81420108017,and 81525010)funded by the National Key R&D Plan from the Ministry of Science and Technology of China(Grant No.SQ2016ZY05002341)partially supported by the Deutsche Forschungsgemeinschaft(DFG),Germany
文摘Maintenance of tissue-specific stem cells is vital for organ homeostasis and organismal longevity.Hematopoietic stem cells(HSCs) are the most primitive cell type in the hematopoietic system.They divide asymmetrically and give rise to daughter cells with HSC identity(selfrenewal) and progenitor progenies(differentiation),which further proliferate and differentiate into full hematopoietic lineages.Mammalian ageing process is accompanied with abnormalities in the HSC self-renewal and differentiation.Transcriptional changes and epigenetic modulations have been implicated as the key regulators in HSC ageing process.The DNA damage response(DDR)in the cells involves an orchestrated signaling pathway,consisting of cell cycle regulation,cell death and senescence,transcriptional regulation,as well as chromatin remodeling.Recent studies employing DNA repair-deficient mouse models indicate that DDR could intrinsically and extrinsically regulate HSC maintenance and play important roles in tissue homeostasis of the hematopoietic system.In this review,we summarize the current understanding of how the DDR determines the HSC fates and finally contributes to organismal ageing.
基金funded by the Israel Science Foundation (Grant Nos.rants 549/12 and 421/15)German Israeli Foundation (Grant No.I-192-418.13-2014)Joint ItalianIsraeli Laboratory on Application of Neuroscience (Grant No.590308)
文摘The DNA damage response(DDR) is a complex biological system activated by different types of DNA damage.Mutations in certain components of the DDR machinery can lead to genomic instability disorders that culminate in tissue degeneration,premature aging,and various types of cancers.Intriguingly,malfunctioning DDR plays a role in the etiology of late onset brain degenerative disorders such as Parkinson's,Alzheimer's,and Huntington's diseases.For many years,brain degenerative disorders were thought to result from aberrant neural death.Here we discuss the evidence that supports our novel hypothesis that brain degenerative diseases involve dysfunction of glial cells(astrocytes,microglia,and oligodendrocytes).Impairment in the functionality of glial cells results in pathological neuro-glial interactions that,in turn,generate a ‘‘hostile" environment that impairs the functionality of neuronal cells.These events can lead to systematic neural demise on a scale that appears to be proportional to the severity of the neurological deficit.
