Telomeres are specialized structures at the ends of linear chromosomes that protect genome stability.The telomeric repeat-containing RNA(TERRA)that is transcribed from subtelomeric regions can invade into double-stran...Telomeres are specialized structures at the ends of linear chromosomes that protect genome stability.The telomeric repeat-containing RNA(TERRA)that is transcribed from subtelomeric regions can invade into double-stranded DNA regions and form RNA:DNA hybrid-containing structure called R-loop.In tumor cells,R-loop formation is closely linked to gene expression and the alternative lengthening of telomeres(ALT)pathway.Dysregulated R-loops can cause stalled replication forks and telomere instability.However,how R-loops are recognized and regulated,particularly at telomeres,is not well understood.We discovered that ILF3 selectively associates with telomeric R-loops and safeguards telomeres from abnormal homologous recombination.Knocking out ILF3 results in excessive R-loops at telomeres and triggers telomeric DNA damage responses.In addition,ILF3 deficiency disrupts telomere homeostasis and causes abnormalities in the ALT pathway.Using the proximity-dependent biotin identification(BioID)technology,we mapped the ILF3 interactome and discovered that ILF3 could interact with several DNA/RNA helicases,including DHX9.Importantly,ILF3 may aid in the resolution of telomeric R-loops through its interaction with DHX9.Our findings suggest that ILF3 may function as a reader of telomeric R-loops,helping to prevent abnormal homologous recombination and maintain telomere homeostasis.展开更多
To date,few studies have reported on the folding mechanism of tandem G-quadruplexes in human telomeric DNA.Hence,the control of the biofunctions of G-quadruplex,which requires a thorough understanding of its dynamic b...To date,few studies have reported on the folding mechanism of tandem G-quadruplexes in human telomeric DNA.Hence,the control of the biofunctions of G-quadruplex,which requires a thorough understanding of its dynamic behavior,is limited.Here,we investigated the folding/unfolding behavior of human telomeric sequences with lengths over 10 kilonucleotide(knt)by circular dichroism(CD)spectroscopy,UV melting assay,and atomic force microscopy(AFM)-based single-molecule force spectroscopy.展开更多
Objective:To investigate the radiosensitivity of 6-thio-dG and its underlying molecular mechanisms in non-small cell lung cancer(NSCLC).Methods:H1299 and A549 NSCLC cells were pretreated with 6-thio-dG for one week an...Objective:To investigate the radiosensitivity of 6-thio-dG and its underlying molecular mechanisms in non-small cell lung cancer(NSCLC).Methods:H1299 and A549 NSCLC cells were pretreated with 6-thio-dG for one week and then exposed toγ-irradiation.Cell proliferation and survival were quantified using clonogenic assays.DNA damage was assessed using immunofluorescence forγH2AX.Telomere dysfunction-induced foci analysis was performed by the colocalization of telomere signals(FISH)andγH2AX.Telomere fusion was defined as two telomere signals merged into one at the chromosome by immuno-FISH in metaphase spreads.Proteins related to the DNA damage response were detected using Western blot analysis.Apoptosis wasanalyzed using flow cytometry and Western blot.Results:The presence of 6-thio-dG increased the radio sensitivity of H1299 and A549 cells(P<0.05),but had no effect on the normal human lung fibroblast line,MRC5.6-thio-dG pretreatment significantly reduced the clonogenic potential induced byγ-ray irradiation and aggravated genomic DNA and telomeric DNA damage(P<0.05).In addition,6-thio-dG pretreatment effectively increasedγ-ray irradiation induced telomere dysfunction(P<0.05),resulting in disruption of chromosome stability and inhibition of the ATM pathway,thereby impairing genomic DNA and telomeric DNA repair,which was closely associated with enhanced drug-mediated radiation-induced apoptosis.Conclusions:6-thio-dG increases the radiosensitivity of NSCLC by inhibiting ATM and inducing telomere dysfunction,which can potentially be used as a strategy for radiotherapy for NSCLC.展开更多
G-Quadruplexes(GQs),which are formed by G-rich DNA sequences in human telomeres,have become an attractive target for cancer treatment.The ligands to stabilize the conformation of human telomeric GQs in vivo are partic...G-Quadruplexes(GQs),which are formed by G-rich DNA sequences in human telomeres,have become an attractive target for cancer treatment.The ligands to stabilize the conformation of human telomeric GQs in vivo are particularly important for structure-based ligand design and drug development targeting the noncanonical DNA structure.Here we report the conformational conversion of Tel26 induced by a naphthalene diimide(NDI)ligand in K^(+)buffer,even at cellular physiological temperature(37℃)and under mimetic cellular crowding conditions created by Ficoll 70.We provide an insight into the dynamic conversion from initial hybrid-2 GQ topology to final parallel GQ topology.These results are helpful for the design of ligands with GQ conformation regulation.展开更多
基金National Natural Science Foundation(Grant Nos.82271598,81871109,82071587,31930058,32330023 and 32170757)National Key Research and Development Program of China(2018YFA0107003)Guang Dong Basic and Applied Basic Research Foundation(2020A1515010462).
文摘Telomeres are specialized structures at the ends of linear chromosomes that protect genome stability.The telomeric repeat-containing RNA(TERRA)that is transcribed from subtelomeric regions can invade into double-stranded DNA regions and form RNA:DNA hybrid-containing structure called R-loop.In tumor cells,R-loop formation is closely linked to gene expression and the alternative lengthening of telomeres(ALT)pathway.Dysregulated R-loops can cause stalled replication forks and telomere instability.However,how R-loops are recognized and regulated,particularly at telomeres,is not well understood.We discovered that ILF3 selectively associates with telomeric R-loops and safeguards telomeres from abnormal homologous recombination.Knocking out ILF3 results in excessive R-loops at telomeres and triggers telomeric DNA damage responses.In addition,ILF3 deficiency disrupts telomere homeostasis and causes abnormalities in the ALT pathway.Using the proximity-dependent biotin identification(BioID)technology,we mapped the ILF3 interactome and discovered that ILF3 could interact with several DNA/RNA helicases,including DHX9.Importantly,ILF3 may aid in the resolution of telomeric R-loops through its interaction with DHX9.Our findings suggest that ILF3 may function as a reader of telomeric R-loops,helping to prevent abnormal homologous recombination and maintain telomere homeostasis.
基金funded by the National Natural Science Foundation of China(nos.21827805 and 21525418).
文摘To date,few studies have reported on the folding mechanism of tandem G-quadruplexes in human telomeric DNA.Hence,the control of the biofunctions of G-quadruplex,which requires a thorough understanding of its dynamic behavior,is limited.Here,we investigated the folding/unfolding behavior of human telomeric sequences with lengths over 10 kilonucleotide(knt)by circular dichroism(CD)spectroscopy,UV melting assay,and atomic force microscopy(AFM)-based single-molecule force spectroscopy.
基金National Natural Science Foundation of China(No.31670860 and 11835014)Recruitment Program for Leading Talent Team of Anhui Province(2019–16).
文摘Objective:To investigate the radiosensitivity of 6-thio-dG and its underlying molecular mechanisms in non-small cell lung cancer(NSCLC).Methods:H1299 and A549 NSCLC cells were pretreated with 6-thio-dG for one week and then exposed toγ-irradiation.Cell proliferation and survival were quantified using clonogenic assays.DNA damage was assessed using immunofluorescence forγH2AX.Telomere dysfunction-induced foci analysis was performed by the colocalization of telomere signals(FISH)andγH2AX.Telomere fusion was defined as two telomere signals merged into one at the chromosome by immuno-FISH in metaphase spreads.Proteins related to the DNA damage response were detected using Western blot analysis.Apoptosis wasanalyzed using flow cytometry and Western blot.Results:The presence of 6-thio-dG increased the radio sensitivity of H1299 and A549 cells(P<0.05),but had no effect on the normal human lung fibroblast line,MRC5.6-thio-dG pretreatment significantly reduced the clonogenic potential induced byγ-ray irradiation and aggravated genomic DNA and telomeric DNA damage(P<0.05).In addition,6-thio-dG pretreatment effectively increasedγ-ray irradiation induced telomere dysfunction(P<0.05),resulting in disruption of chromosome stability and inhibition of the ATM pathway,thereby impairing genomic DNA and telomeric DNA repair,which was closely associated with enhanced drug-mediated radiation-induced apoptosis.Conclusions:6-thio-dG increases the radiosensitivity of NSCLC by inhibiting ATM and inducing telomere dysfunction,which can potentially be used as a strategy for radiotherapy for NSCLC.
文摘G-Quadruplexes(GQs),which are formed by G-rich DNA sequences in human telomeres,have become an attractive target for cancer treatment.The ligands to stabilize the conformation of human telomeric GQs in vivo are particularly important for structure-based ligand design and drug development targeting the noncanonical DNA structure.Here we report the conformational conversion of Tel26 induced by a naphthalene diimide(NDI)ligand in K^(+)buffer,even at cellular physiological temperature(37℃)and under mimetic cellular crowding conditions created by Ficoll 70.We provide an insight into the dynamic conversion from initial hybrid-2 GQ topology to final parallel GQ topology.These results are helpful for the design of ligands with GQ conformation regulation.
