EC:3.1.30.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A comparative study of several parameters of the cell nuclei of hybridoma MLC-1c and its parent cells--myeloma X-63.Ag8.653 and spleen lymphocytes of Balb/c mice, has been carried out. The results of cytogenetic studies suggest that although the hybridoma and myeloma cell lines used in this study are rather stable, they contain some proportion of the altered chromosomal material. Two-dimensional electrophoresis performed according to O'Farrell revealed that the similarity between the relative presentation and reciprocal location of the nuclear proteins expressed by the myeloma and the hybridoma was greater than that between these cell lines and lymphocytes. Probing of the chromatin structure by micrococcal nuclease showed no significant differences in the degree of nuclease resistance of chromatin between myeloma, hybridoma and lymphoid cells. A comparative study of the Ca/Mg-dependent endonuclease activity of the nuclei in situ and in nuclear extracts demonstrated that whereas its content in lymphocytes was rather high, in myeloma and hybridoma it was practically absent. At the same time, cell nucleus extracts of the myeloma and the hybridoma contained high amounts of DNA-binding proteins which were undetectable in mouse spleen lymphocytes.
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PMID:[Comparative characteristics of some parameters of the cell nucleus in the series myeloma-hybridoma-lymphocyte]. 848 24

Azidothymidine (AZT), which has been extensively used as an antiviral agent in the treatment of AIDS, showed strong inhibition of growth of Sp2/0 cells in vitro. AZT-treated cells showed a decrease in viability in a dose-dependent manner. AZT specifically induced typical apoptotic cell death with DNA double-strand cleavage and subsequent formation of apoptotic bodies. The induction of DNA double-strand cleavage into the oligonucleosomal ladder by AZT was protected in the presence of thymidine or uridine. An increase in endonuclease activity from nuclear extract of AZT-treated cells was observed. The enzyme activity was found to be Ca(2+)-and Mg(2+)-dependent and was inhibited by zinc acetate. A marked enhancement of PARP activity was observed in AZT-treated cells. These observations show that AZT can trigger both morphological and biochemical changes typical of apoptosis in the mouse myeloma cell line Sp2/0.
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PMID:Azidothymidine induces apoptosis in mouse myeloma cell line Sp2/0. 878 3

The endonuclease activity of two drug-sensitive and drug-resistant mouse myeloma cell lines during cytotoxic drug-induced apoptosis was studied. It was shown that internucleosomal fragmentation of DNA in drug-sensitive line sp2/0, undergoing apoptosis in the presence of adriamycin and colchicine, was not dependent on intracellular calcium content and was associated with activation of both Ca(2+)-Mg(2+)-dependent and acidic cation-independent endonucleases. In contrast, in multidrug resistant spEBR-5 cells, treated with the same drugs, only Ca(2+)-Mg(2+)-dependent endonuclease activity was detected. These data suggest that the differences in the pattern of endonuclease activity revealed in these cells are linked to drug-resistant phenotype and do not depend on the apoptosis-inducing agent used.
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PMID:[The nuclease activity of the cell nuclei in 2 lines of murine myeloma sp2/0 differing in their resistance to cytostatics in adriamycin-induced apoptosis]. 902 4

It is well established that interleukin-6 (IL-6) is an essential growth factor for multiple myeloma (MM) and patients with increased IL-6 levels have a poor prognosis. In healthy subjects, the presence of the C allele at a polymorphic site (-174 G/C) of the IL-6 gene is related to low IL-6 levels. In view of the potential association of this particular polymorphism with IL-6 concentration, and the relevance of IL-6 in MM pathogenesis, the objective of the present study was to investigate the prevalence of IL-6 (-174 G/C) promoter polymorphism and its association with development of MM in Brazilian individuals. We investigated the prevalence of these alleles in 52 patients and 60 healthy subjects (matched by age, sex, and race) of a Brazilian population. Thirty patients were male (42.4%), 24 (46.2%) were white and the median age at diagnosis was 58.5 years (range: 28 to 84 years). To determine the IL-6 (-174 G/C) polymorphism, molecular analysis was performed by polymerase chain reaction followed by endonuclease restriction digestion. The genotype distributions observed in the group of patients were 4% CC, 42% GC and 54% GG. The C allele frequency was 0.25. These results were similar to the control group, suggesting no impact of this polymorphism on the susceptibility to MM.
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PMID:Analysis of polymorphism at site -174 G/C of interleukin-6 promoter region in multiple myeloma. 1727 64

This study was aimed to investigate the effect of VEGF antisense RNA on proliferation and apoptosis in myeloma cell line U266 as well as on angiogenesis in endothelial cell ECV304, and to explore the feasibility of gene therapy for multiple myeloma using VEGF antisense RNA. The VEGF121 cDNA was inserted into multiple clone site of eukaryotic expression vector pIRES2-EGFP to construct the recombinant plasmid AS-VEGF. Restriction endonuclease analysis and DNA sequencing were used to confirm the reverse orientation of the VEGF cDNA. The recombinant plasmid was transfected into human myeloma cell line U266 and the positive clone was screened by G418. The VEGF mRNA and protein expressions of the positive clone were detected by RT-PCR and Western blot respectively. The viability and apoptosis of U266 cells were observed by MTT assay, flow cytometry. Angiogenesis was tested by network formation of endothelial cells on matrigel. The results indicated that the recombinant plasmid AS-VEGF expressing VEGF antisense RNA were constructed successfully. VEGF expression in U266 cells was blocked partially by VEGF antisense RNA. Expression of VEGF mRNA and protein decreased more significantly in U266 cells transfected by AS-VEGF than that in control group. Then increasing of apoptosis and inhibition of proliferation in U266 cells transfected by AS-VEGF were observed. Vasoformation on matrigel in the supernatants of U266 culture group transfected by AS-VEGF decreased more significantly than that in control group. It is concluded that VEGF antisense RNA can inhibit the expression of VEGF gene in U266 cells, thereby inhibits the proliferation of U266 cells; increases the apoptosis of U266 cells; and inhibits angiogenesis in vitro.
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PMID:[Effect of VEGF antisense RNA on inducing apoptosis of myeloma cells and inhibition of angiogenesis in endothelial cells in vitro]. 1842 55

Activation of the adaptive Ire1-XBP1 pathway has been identified in many solid tumors and hematologic malignancies, including multiple myeloma (MM). Here, we report the identification of STF-083010, a novel small-molecule inhibitor of Ire1. STF-083010 inhibited Ire1 endonuclease activity, without affecting its kinase activity, after endoplasmic reticulum stress both in vitro and in vivo. Treatment with STF-083010 showed significant antimyeloma activity in model human MM xenografts. Similarly, STF-083010 was preferentially toxic to freshly isolated human CD138(+) MM cells compared with other similarly isolated cell populations. The identification of this novel Ire1 inhibitor supports the hypothesis that the Ire1-XBP1 axis is a promising target for anticancer therapy, especially in the context of MM.
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PMID:Identification of an Ire1alpha endonuclease specific inhibitor with cytotoxic activity against human multiple myeloma. 2108 13

We used the I-SceI endonuclease to produce DNA double-strand breaks (DSBs) and observed that a fraction of these DSBs were repaired by insertion of sequences, which we termed "templated sequence insertions" (TSIs), derived from distant regions of the genome. These TSIs were derived from genic, retrotransposon, or telomere sequences and were not deleted from the donor site in the genome, leading to the hypothesis that they were derived from reverse-transcribed RNA. Cotransfection of RNA and an I-SceI expression vector demonstrated insertion of RNA-derived sequences at the DNA-DSB site, and TSIs were suppressed by reverse-transcriptase inhibitors. Both observations support the hypothesis that TSIs were derived from RNA templates. In addition, similar insertions were detected at sites of DNA DSBs induced by transcription activator-like effector nuclease proteins. Whole-genome sequencing of myeloma cell lines revealed additional TSIs, demonstrating that repair of DNA DSBs via insertion was not restricted to experimentally produced DNA DSBs. Analysis of publicly available databases revealed that many of these TSIs are polymorphic in the human genome. Taken together, these results indicate that insertional events should be considered as alternatives to gross chromosomal rearrangements in the interpretation of whole-genome sequence data and that this mutagenic form of DNA repair may play a role in genetic disease, exon shuffling, and mammalian evolution.
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PMID:Repair of DNA double-strand breaks by templated nucleotide sequence insertions derived from distant regions of the genome. 2482 9

Dis3 encodes a conserved RNase that degrades or processes all RNA species via an N-terminal PilT N terminus (PIN) domain and C-terminal RNB domain that harbor, respectively, endonuclease activity and 3'-5' exonuclease activity. In Schizosaccharomyces pombe, dis3 mutations cause chromosome missegregation and failure in mitosis, suggesting dis3 promotes cell division. In humans, apparently hypomorphic dis3 mutations are found recurrently in multiple myeloma, suggesting dis3 opposes cell division. Except for the observation that RNAi-mediated depletion of dis3 function drives larval arrest and reduces tissue growth in Drosophila, the role of dis3 has not been rigorously explored in higher eukaryotic systems. Using the Drosophila system and newly generated dis3 null alleles, we find that absence of dis3 activity inhibits cell division. We uncover a conserved CDK1 phosphorylation site that when phosphorylated inhibits Dis3's exonuclease, but not endonuclease, activity. Leveraging this information, we show that Dis3's exonuclease function is required for mitotic cell division: in its absence, cells are delayed in mitosis and exhibit aneuploidy and overcondensed chromosomes. In contrast, we find that modest reduction of dis3 function enhances cell proliferation in the presence of elevated Ras activity, apparently by accelerating cells through G2/M even though each insult by itself delays G2/M. Additionally, we find that dis3 and ras genetically interact in worms and that dis3 can enhance cell proliferation under growth stimulatory conditions in murine B cells. Thus, reduction, but not absence, of dis3 activity can enhance cell proliferation in higher organisms.
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PMID:Collaborative Control of Cell Cycle Progression by the RNA Exonuclease Dis3 and Ras Is Conserved Across Species. 2702 30

The high-risk pedigree (HRP) design is an established strategy to discover rare, highly-penetrant, Mendelian-like causal variants. Its success, however, in complex traits has been modest, largely due to challenges of genetic heterogeneity and complex inheritance models. We describe a HRP strategy that addresses intra-familial heterogeneity, and identifies inherited segments important for mapping regulatory risk. We apply this new Shared Genomic Segment (SGS) method in 11 extended, Utah, multiple myeloma (MM) HRPs, and subsequent exome sequencing in SGS regions of interest in 1063 MM / MGUS (monoclonal gammopathy of undetermined significance-a precursor to MM) cases and 964 controls from a jointly-called collaborative resource, including cases from the initial 11 HRPs. One genome-wide significant 1.8 Mb shared segment was found at 6q16. Exome sequencing in this region revealed predicted deleterious variants in USP45 (p.Gln691* and p.Gln621Glu), a gene known to influence DNA repair through endonuclease regulation. Additionally, a 1.2 Mb segment at 1p36.11 is inherited in two Utah HRPs, with coding variants identified in ARID1A (p.Ser90Gly and p.Met890Val), a key gene in the SWI/SNF chromatin remodeling complex. Our results provide compelling statistical and genetic evidence for segregating risk variants for MM. In addition, we demonstrate a novel strategy to use large HRPs for risk-variant discovery more generally in complex traits.
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PMID:Novel pedigree analysis implicates DNA repair and chromatin remodeling in multiple myeloma risk. 2938 35

DIS3 (defective in sister chromatid joining) is the catalytic subunit of the exosome, a protein complex involved in the 3'-5' degradation of RNAs. DIS3 is a highly conserved exoribonuclease, also known as Rrp44. Global sequencing studies have identified DIS3 as being mutated in a range of cancers, with a considerable incidence in multiple myeloma. In this work, we have identified two protein-coding isoforms of DIS3. Both isoforms are functionally relevant and result from alternative splicing. They differ from each other in the size of their N-terminal PIN (PilT N-terminal) domain, which has been shown to have endoribonuclease activity and tether DIS3 to the exosome. Isoform 1 encodes a full-length PIN domain, whereas the PIN domain of isoform 2 is shorter and is missing a segment with conserved amino acids. We have carried out biochemical activity assays on both isoforms of full-length DIS3 and the isolated PIN domains. We find that isoform 2, despite missing part of the PIN domain, has greater endonuclease activity compared with isoform 1. Examination of the available structural information allows us to provide a hypothesis to explain this altered behaviour. Our results also show that multiple myeloma patient cells and all cancer cell lines tested have higher levels of isoform 1 compared with isoform 2, whereas acute myeloid leukaemia and chronic myelomonocytic leukaemia patient cells and samples from healthy donors have similar levels of isoforms 1 and 2. Taken together, our data indicate that significant changes in the ratios of the two isoforms could be symptomatic of haematological cancers.
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PMID:DIS3 isoforms vary in their endoribonuclease activity and are differentially expressed within haematological cancers. 2980 18

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