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991.
Histone H1 variant, H1R is involved in DNA damage response 总被引:2,自引:0,他引:2
Hashimoto H Sonoda E Takami Y Kimura H Nakayama T Tachibana M Takeda S Shinkai Y 《DNA Repair》2007,6(11):1584-1595
In Saccharomyces cerevisiae, the linker histone HHO1 is involved in DNA repair. In higher eukaryotes, multiple variants of linker histone H1 exist but their involvement in the DNA damage response is unknown. To address this issue, we examined sensitivity to genotoxic agents in chicken DT40 cells lacking specific H1 variants. Among the six H1 variant mutants, only H1R(-/-) DT40 cells exhibited increased sensitivity to the alkylating agent methyl-methanesulfonate (MMS). The MMS sensitivity of H1R(-/-) cells was not enhanced by inactivation of Rad54. H1R(-/-) DT40 cells also exhibited: (i) a reduction in gene targeting efficiencies, (ii) impaired sister chromatid exchange, and (iii) an accumulation of IR-induced chromosomal aberrations at the G2 phase, all of which indicate the involvement of H1R in the Rad54-mediated homologous recombination (HR) pathway. The mobility of H1R but not H1L in the nucleus decreased after MMS treatment and the repair of double-stranded breaks generated by I-SceI was unaffected in H1R(-/-) cells, suggesting that H1R integrates into HR-mediated repair pathways at the chromosome structure level. Together, these findings provide the first genetic evidence that a specific H1 variant plays a unique and important role in the DNA damage response in vertebrates. 相似文献
992.
Toxoplasma gondii is an intracellular protozoan parasite that invades a wide range of nucleated cells. In the course of intracellular parasitism, the parasite releases a large variety of proteins from three secretory organelles, namely, micronemes, rhoptries and dense granules. Elevation of intracellular Ca(2+) in the parasite causes microneme discharge, and microneme secretion is essential for the invasion. In this study, we performed a proteomic analysis of the Ca(2+)-dependent secretion to evaluate the protein repertoire. We found that Ca(2+)-mobilising agents, such as thapsigargin, NH(4)Cl, ethanol and a Ca(2+) ionophore, A23187, promoted the secretion of the parasite proteins. The proteins, artificially secreted by A23187, were used in a comparative proteomic analysis by 2-DE followed by PMF analysis and/or N-terminal sequencing. Major known microneme proteins (MICs), such as MIC2, MIC4, MIC6 and MIC10 and apical membrane antigen 1 (AMA1), were identified, indicating that the proteomic analysis worked accurately. Interestingly, new members of secretory proteins, namely rhoptry protein 9 (ROP9) and Toxoplasma SPATR (TgSPATR), which was a homologue of a Plasmodium secreted protein with an altered thrombospondin repeat (SPATR), were detected in Ca(2+)-dependent secretion. Thus, we succeeded in detecting Ca(2+)-dependent secretory proteins in T. gondii, which contained novel secretory proteins. 相似文献
993.
Fv-4 is a mouse gene that confers resistance against ecotropic murine leukemia virus (MLV) infection on mice. While receptor interference by the Fv-4 env gene product, Fv-4 Env, that can bind to the ecotropic MLV receptor has been shown to play an important role in the resistance, other mechanisms have also been suggested because it confers extremely efficient, complete resistance in vivo. Here, we have examined the effect of Fv-4 Env on infectious MLV production. Infectious MLV titers in supernatants obtained after transfection with a Friend MLV (FMLV) Env-expressing plasmid from MLV gag-pol producer cells harboring a retroviral vector were largely reduced by coexpression of Fv-4 Env. Syncytia formation mediated by R-peptide-deleted FMLV Env in NIH 3T3 cells was impaired by Fv-4 Env coexpression. Similarly, Fv-4 Env inhibited infectious amphotropic MLV production and syncytia formation mediated by R-peptide-deleted amphotropic MLV Env. Immunoprecipitation analysis revealed interaction of Fv-4 Env with amphotropic MLV Env as well as FMLV Env. These results indicate that Fv-4 Env inhibits infectious ecotropic and amphotropic MLV production by exerting dominant negative effect on MLV Env, suggesting contribution of this inhibitory effect to the resistance against ecotropic MLV infection in Fv-4-expressing mice. 相似文献
994.
Roles and Programming of Arabidopsis ARGONAUTE Proteins during Turnip Mosaic Virus Infection 总被引:1,自引:0,他引:1
Hernan Garcia-Ruiz Alberto Carbonell J. Steen Hoyer Noah Fahlgren Kerrigan B. Gilbert Atsushi Takeda Annalisa Giampetruzzi Mayra T. Garcia Ruiz Michaela G. McGinn Nicholas Lowery Maria T. Martinez Baladejo James C. Carrington 《PLoS pathogens》2015,11(3)
In eukaryotes, ARGONAUTE proteins (AGOs) associate with microRNAs (miRNAs), short interfering RNAs (siRNAs), and other classes of small RNAs to regulate target RNA or target loci. Viral infection in plants induces a potent and highly specific antiviral RNA silencing response characterized by the formation of virus-derived siRNAs. Arabidopsis thaliana has ten AGO genes of which AGO1, AGO2, and AGO7 have been shown to play roles in antiviral defense. A genetic analysis was used to identify and characterize the roles of AGO proteins in antiviral defense against Turnip mosaic virus (TuMV) in Arabidopsis. AGO1, AGO2 and AGO10 promoted anti-TuMV defense in a modular way in various organs, with AGO2 providing a prominent antiviral role in leaves. AGO5, AGO7 and AGO10 had minor effects in leaves. AGO1 and AGO10 had overlapping antiviral functions in inflorescence tissues after systemic movement of the virus, although the roles of AGO1 and AGO10 accounted for only a minor amount of the overall antiviral activity. By combining AGO protein immunoprecipitation with high-throughput sequencing of associated small RNAs, AGO2, AGO10, and to a lesser extent AGO1 were shown to associate with siRNAs derived from silencing suppressor (HC-Pro)-deficient TuMV-AS9, but not with siRNAs derived from wild-type TuMV. Co-immunoprecipitation and small RNA sequencing revealed that viral siRNAs broadly associated with wild-type HC-Pro during TuMV infection. These results support the hypothesis that suppression of antiviral silencing during TuMV infection, at least in part, occurs through sequestration of virus-derived siRNAs away from antiviral AGO proteins by HC-Pro. These findings indicate that distinct AGO proteins function as antiviral modules, and provide a molecular explanation for the silencing suppressor activity of HC-Pro. 相似文献
995.
Yasuyuki Shitomi Ida B. Th?gersen Noriko Ito Birgit Leitinger Jan J. Enghild Yoshifumi Itoh 《Molecular biology of the cell》2015,26(4):659-673
Discoidin domain receptor 1 (DDR1) is a receptor tyrosine kinase that binds and transmits signals from various collagens in epithelial cells. However, how DDR1–dependent signaling is regulated has not been understood. Here we report that collagen binding induces ADAM10-dependent ectodomain shedding of DDR1. DDR1 shedding is not a result of an activation of its signaling pathway, since DDR1 mutants defective in signaling were shed in an efficient manner. DDR1 and ADAM10 were found to be in a complex on the cell surface, but shedding did not occur unless collagen bound to DDR1. Using a shedding-resistant DDR1 mutant, we found that ADAM10-dependent DDR1 shedding regulates the half-life of collagen-induced phosphorylation of the receptor. Our data also revealed that ADAM10 plays an important role in regulating DDR1-mediated cell adhesion to achieve efficient cell migration on collagen matrices. 相似文献
996.
Okada H Iwamaru Y Fukuda S Yokoyama T Mohri S 《The journal of histochemistry and cytochemistry》2012,60(4):290-300
A sensitive immunohistochemical procedure, the tyramide signal amplification (TSA) system, was applied to detect the localization of immunolabeled disease-associated prion protein (PrP(Sc)) in cattle affected with bovine spongiform encephalopathy (BSE). In this procedure, immunolabeling could be visualized in the optic nerve and the adrenal medulla. In the optic nerve, the dual immunofluorescent technique showed that the granular PrP(Sc) was occasionally detected in the astrocytes, microglia, and myelin sheath adjacent to the axon. Clustered PrP(Sc) was also scattered in association with microglial cells and astrocytes of the optic nerve. In the adrenal gland, PrP(Sc) immunolabeling was confined within the sympathetic nerve fibers and endings. The results suggest that (1) PrP(Sc) might centrifugally spread within and between glial cells and/or the non-axonal (also known as ad-axonal) region of nerve fibers, rather than the axonal and/or extracellular space pathway in the optic nerve, and (2) the sympathetic innervations might be important for the trafficking of BSE agent in the adrenal glands of cattle. This study also suggests that tyramide-based immunochemical analysis should be performed to detect immunolabeled PrP(Sc) in the extracerebral tissues of BSE-affected cattle. 相似文献
997.
Pratakpiriya W Seki F Otsuki N Sakai K Fukuhara H Katamoto H Hirai T Maenaka K Techangamsuwan S Lan NT Takeda M Yamaguchi R 《Journal of virology》2012,86(18):10207-10210
Canine distemper virus (CDV) uses signaling lymphocyte activation molecule (SLAM), expressed on immune cells, as a receptor. However, epithelial and neural cells are also affected by CDV in vivo. Wild-type CDV strains showed efficient replication with syncytia in Vero cells expressing dog nectin4, and the infection was blocked by an anti-nectin4 antibody. In dogs with distemper, CDV antigen was preferentially detected in nectin4-positive neurons and epithelial cells, suggesting that nectin4 is an epithelial cell receptor for CDV and also involved in its neurovirulence. 相似文献
998.
Murai J Huang SY Das BB Dexheimer TS Takeda S Pommier Y 《The Journal of biological chemistry》2012,287(16):12848-12857
Tyrosyl-DNA phosphodiesterase 1 (Tdp1) repairs topoisomerase I cleavage complexes (Top1cc) by hydrolyzing their 3'-phosphotyrosyl DNA bonds and repairs bleomycin-induced DNA damage by hydrolyzing 3'-phosphoglycolates. Yeast Tdp1 has also been implicated in the repair of topoisomerase II-DNA cleavage complexes (Top2cc). To determine whether vertebrate Tdp1 is involved in the repair of various DNA end-blocking lesions, we generated Tdp1 knock-out cells in chicken DT40 cells (Tdp1-/-) and Tdp1-complemented DT40 cells with human TDP1. We found that Tdp1-/- cells were not only hypersensitive to camptothecin and bleomycin but also to etoposide, methyl methanesulfonate (MMS), H(2)O(2), and ionizing radiation. We also show they were deficient in mitochondrial Tdp1 activity. In biochemical assays, recombinant human TDP1 was found to process 5'-phosphotyrosyl DNA ends when they mimic the 5'-overhangs of Top2cc. Tdp1 also processes 3'-deoxyribose phosphates generated from hydrolysis of abasic sites, which is consistent with the hypersensitivity of Tdp1-/- cells to MMS and H(2)O(2). Because recent studies established that CtIP together with BRCA1 also repairs topoisomerase-mediated DNA damage, we generated dual Tdp1-CtIP-deficient DT40 cells. Our results show that Tdp1 and CtIP act in parallel pathways for the repair of Top1cc and MMS-induced lesions but are epistatic for Top2cc. Together, our findings reveal a broad involvement of Tdp1 in DNA repair and clarify the role of human TDP1 in the repair of Top2-induced DNA damage. 相似文献
999.
Sato Y Hatta M Karim MF Sawa T Wei FY Sato S Magnuson MA Gonzalez FJ Tomizawa K Akaike T Yoshizawa T Yamagata K 《The Journal of biological chemistry》2012,287(27):23236-23245
1000.
Nakayama Y Matsui Y Takeda Y Okamoto M Abe K Fukumoto Y Yamaguchi N 《The Journal of biological chemistry》2012,287(30):24905-24915
Src family tyrosine kinases (SFKs) participate in mitotic signal transduction events, including mitotic entry, cleavage furrow ingression, and cytokinesis abscission. Although SFKs have been shown to associate with the mitotic spindle, the role of SFKs in mitotic spindle formation remains unclear. Here, we show that c-Src promotes proper spindle orientation in early prometaphase. Src localizes close to spindle poles in a manner independent of Src kinase activity. Three-dimensional analyses showed that Src inhibition induced spindle misorientation, exhibiting a tilting spindle in early prometaphase. Spindle misorientation is frequently seen in SYF cells, which harbor triple knock-out mutations of c-Src, c-Yes, and Fyn, and reintroduction of c-Src but not Fyn into SYF cells rescued spindle misorientation. Spindle misorientation was also observed upon Src inhibition under conditions in which Aurora B was inhibited. Inducible expression of c-Src promoted a properly oriented bipolar spindle, which was suppressed by Src inhibition. Aster formation was severely inhibited in SYF cells upon Aurora B inhibition, which was rescued by reintroduction of c-Src into SYF cells. Furthermore, reintroduction of c-Src facilitated microtubule regrowth from cold-induced depolymerization and accelerated M phase progression. These results suggest that c-Src is involved in spindle orientation through centrosome-mediated aster formation. 相似文献