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)

Gamma-irradiation, glucocorticoid hormones, and calcium ionophores stimulate a suicide process in thymocytes, known as apoptosis or programmed cell death, that involves internucleosomal DNA fragmentation by a Ca(2+)- and Mg(2+)-dependent nuclear endonuclease. In this study we report that N-(2-mercaptoethyl)-1,3-propanediamine (WR-1065) blocked DNA fragmentation and cell death in thymocytes exposed to gamma-radiation, dexamethasone, or calcium ionophore A23187. WR-1065 protected the thymocytes from radiation-induced apoptosis when incubated with cells after irradiation but not before and/or during irradiation. WR-1065 inhibited Ca(2+)- and Mg(2+)-dependent DNA fragmentation in isolated thymocyte nuclei. Our results suggest that WR-1065 protects thymocytes from apoptosis by inhibiting Ca(2+)- and Mg(2+)-dependent nuclear endonuclease action.
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PMID:N-(2-mercaptoethyl)-1,3-propanediamine (WR-1065) protects thymocytes from programmed cell death. 131 32

Pseudomonas putida PP3 expressed two dehalogenases, DehI and DehII. The DehI gene (dehI) was located on a mobile DNA element (DEH) which inserted at high frequencies into target plasmids from its chromosomal location. From a recombinant TOL plasmid (pWW0) containing a 6.0-kb DEH element inserted into the plasmid's 5.6-kb EcoRI-G restriction endonuclease fragment, an 11.6-kb EcoRI fragment was cloned. Subcloning analysis and insertion mutagenesis produced a structural map of the DEH element and located the dehalogenase functions. The gene dehI was transcribed from a regulated promoter on DEH which was expressed in P. putida and Escherichia coli. The direction of transcription of dehI was determined, and it was also found to be under positive control, activated by an adjacent regulatory gene (dehRI). Expression of dehI in clones containing the intact DEH supported good growth on 2-monochloropropionate (2MCPA). Subclones lacking dehRI expressed dehI at levels which allowed only slow growth on 2MCPA, even when dehI expression was initiated from vector promoters. Expression of dehI in P. putida containing the intact DEH element required rpoN, suggesting that it was omega 54 dependent. The intact DEH element transferred to P. putida on a suicide plasmid donor pAWT34 (pBR325 replicon), and dehI was stably inherited, without vector DNA sequences, in transformants selected on 2MCPA. This indicated that the cloned DEH element contained functions associated with recombination.
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PMID:Localization and functional analysis of structural and regulatory dehalogenase genes carried on DEH from Pseudomonas putida PP3. 131 34

Apoptosis is a particular type of programmed cell death which commonly occurs in the developing embryo, in normal healthy adult tissues and in many pathological settings. In contrast to necrosis, apoptosis is not a passive phenomenon but is gene-directed, usually requiring ongoing protein synthesis. The dying cell is characterised by having a raised level of cytosolic Ca2+; this activates a non-lysosomal Ca(2+)- and Mg(2+)-dependent endonuclease which digests the chromatin into oligonucleosome length fragments. The dying cell may or may not fragment into a number of apoptotic bodies, but in all cases the cell contents are bounded by a membrane which prevents the spillage of harmful substances such as DNA. Apoptotic cells are eliminated through phagocytosis by neighbouring cells and macrophages, and cell surface changes on apoptotic cells aid their recognition and engulfment by the phagocytosing cells. Extrinsic signals can both stimulate and inhibit apoptosis, and even direct damage to the cell can activate the process. Apoptosis is widely involved in organ formation in the embryo, and its occurrence in response to noxious stimuli such as cytotoxic drugs, irradiation and hyperthermia may be viewed as an altruistic suicide. Apoptosis provides a safe disposal mechanism for neutrophils at inflamed sites, and within the immune system it is considered responsible for eliminating self-reactive T-cell clones and for the affinity maturation of antibody producing cells. A failure to undergo apoptosis has been invoked in the pathogenesis of low-grade follicular lymphoma, and the triggering of apoptosis with monoclonal antibodies specifically in tumour cells has been achieved in one or two cases.
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PMID:Apoptosis: a gene-directed programme of cell death. 131 90

Glucocorticoid hormones, Ca2+ ionophores, and some toxic chemicals activate a suicide process in thymocytes, known as apoptosis or programmed cell death. A crucial event in apoptosis is the activation of a Ca(2+)- and Mg(2+)-dependent endonuclease that promotes extensive DNA fragmentation. In this study, we investigated the effect of various polyamines on endonuclease activation leading to thymocyte apoptosis. We found that both glucocorticoid- and Ca2+ ionophore-induced DNA fragmentation and apoptosis were prevented by spermine. Other polyamines such as putrescine or spermidine had moderate or no effect. Moreover, spermine, and to a lesser extent spermidine, but not putrescine, prevented endonuclease activation in permeabilized liver nuclei incubated in the presence of Ca2+ and Mg2+, indicating that spermine efficiency in blocking DNA fragmentation was related to the interaction of this polyamine with the endonuclease or its substrate, DNA. Experiments with the fluorescent dye, ethidium bromide, and a purified preparation of liver endonuclease revealed that the protective effect of spermine on DNA fragmentation was related to its ability to modify the chromatin arrangement. Thymocytes incubated with methyl glyoxal bis(guanylhydrazone) to deplete intracellular spermine exhibited spontaneous DNA fragmentation, which suggests that modulation of the intracellular polyamine content and regulation of chromatin structure may play a critical role in the early phases of apoptosis. Finally, these results demonstrate that inhibition of DNA fragmentation also prevents the onset of apoptosis, directly linking endonuclease activation and cell death.
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PMID:Spermine prevents endonuclease activation and apoptosis in thymocytes. 164 56

Exposure of confluent human synovial McCoy's cells to near-freezing temperatures followed by rewarming at 37 degrees C resulted in endonuclease activation and cell death characteristic of a suicide process known as apoptosis. Both DNA fragmentation and cell killing were dependent on a sustained increase in the cytosolic Ca2+ concentration. Sensitivity to cold shock-induced endonuclease activation was critically dependent on the cell cycle (proliferative) status and limited to confluent cells, whereas cells in the logarithmic growth phase were completely resistant. However, DNA fragmentation was promoted in the proliferating McCoy's cells pretreated with H-7 or sphingosine, inhibitors of protein kinase C. In addition, phorbol ester, known to activate PKC, inhibited DNA fragmentation in the confluent cells. Our findings indicate that cold shock-induced DNA fragmentation in McCoy's cells is dependent on a sustained Ca2+ increase, and sensitivity to the process appears to be regulated by the status of protein kinase C.
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PMID:Calcium-dependent DNA fragmentation in human synovial cells exposed to cold shock. 215 84

Increases in the cAMP level are often inhibitory in mature T lymphocytes and may be involved in the development of tolerance to self Ag. In this report, agents inducing an increase in the cAMP level by independent mechanisms were found to stimulate DNA fragmentation, characteristic of a suicide program known as apoptosis, in isolated thymocytes. Data obtained with cAMP analogs known to act synergistically to stimulate protein kinase A suggested that the latter directly mediated endonuclease activation. Agents previously shown to stimulate protein kinase C and to inhibit Ca2(+)-dependent, TCR-mediated thymocyte apoptosis, including IL-1, also blocked both DNA fragmentation and cell death in response to cAMP, suggesting interactions ("cross-talk") between the two protein kinase systems. As it has been proposed that apoptosis mediates negative cell selection in the thymus, our results indicate that cAMP may play a role in the development of functional mature T lymphocytes.
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PMID:Agents that elevate cAMP stimulate DNA fragmentation in thymocytes. 216 10

An integrated view of the processes which most likely play a critical role in the aging process at the cellular level is proposed. Cells are continuously exposed to a variety of internal and external stressors, potentially dangerous for the maintenance of the functional integrity of the cell (UV and gamma radiation, heat, oxygen free radicals, glucose, bacteria, viruses). In the course of evolution a number of mechanisms [DNA repair, production of heat shock and other stress proteins, enzymatic and non-enzymatic antioxidant defence systems, poly(ADP-ribose) polymerase activation] have emerged which allow the cell to cope with such a variety of potentially harmful agents. These mechanisms are in fact interconnected and constitute a network of cellular defence systems. It is suggested that they play a physiological role, being involved in the control of gene expression. A failure of these mechanisms does not allow the cell to maintain homeostasis and has profound consequences as far as two of the major programs of the cell are concerned, i.e. cell proliferation and cell death. Recent data suggesting that these are two physiologically active phenomena tightly linked and regulated are examined. Thus, activation of cell cycle related genes and active inhibition of suicide genes appear to be a part of an integrated process. Conversely, deprivation of growth factors seems able to induce an active process of programmed cell death characterized by Ca++,Mg+(+)-dependent endonuclease activity and DNA fragmentation (apoptosis). Similar phenomena have been shown to accompany the terminal differentiation process in several cellular systems. The understanding of the factors which favour or prevent cell death (a phenomenon which has been recognized as one of the most important in fetal development and morphogenesis) will help to unravel and eventually to manipulate the aging process. In an evolutionary perspective, cell senescence appears to be the price paid to avoid unlimited capability of proliferation, i.e. cell transformation and cancer.
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PMID:Cell proliferation, cell death and aging. 248 97

Glucocorticoid hormones kill immature thymocytes by activating a self-destructive process that involves extensive DNA fragmentation. It has been demonstrated that thymocyte suicide is dependent on an early, sustained increase in cytosolic Ca2+ concentration, and new protein synthesis, but the biochemical lesion that leads to cell death has not been established. To determine whether endonuclease activation or activation of another Ca2+-dependent process could mediate cell killing, we treated thymocytes with the glucocorticoid methylprednisolone in the presence of inhibitors of various Ca2+-dependent degradative enzymes. The role of poly(ADP-ribose) polymerase, an enzyme known to be activated by DNA damage, was also assessed. Glucocorticoid-induced chromatin cleavage and cell killing were blocked by the endonuclease inhibitor aurintricarboxylic acid, whereas inhibitors of other Ca2+-dependent degradative processes or of poly(ADP-ribose) polymerase did not abrogate cell death. In addition, stimulation of thymocyte DNA fragmentation by the Ca2+ ionophore A23187 resulted in cell killing that could be blocked by the endonuclease inhibitor. Together, our results suggest that thymocyte suicide is caused by extensive Ca2+-stimulated DNA fragmentation.
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PMID:Calcium-activated DNA fragmentation kills immature thymocytes. 249 41

Glucocorticoid hormones and Ca2+ ionophores stimulate a suicide process in immature thymocytes, known as apoptosis or programmed cell death, that involves extensive DNA fragmentation. We have recently shown that a sustained increase in cytosolic Ca2+ concentration stimulates DNA fragmentation and cell killing in glucocorticoid- or ionophore-treated thymocytes. However, a sustained increase in the cytosolic Ca2+ level also mediates lymphocyte proliferation, suggesting that apoptosis is blocked in proliferating thymocytes. In this study we report that phorbol esters, which selectively stimulate protein kinase C (PKC), blocked DNA fragmentation and cell death in thymocytes exposed to Ca2+ ionophore or glucocorticoid hormone. The T cell mitogen, concanavalin A, which stimulates thymocytes by a mechanism that involves PKC activation, caused concentration-dependent increases in the cytosolic Ca2+ level that did not result in DNA fragmentation, but incubation with concanavalin A and the PKC inhibitor H-7 (1-(5-isoquinolinylsulfonyl)-2-methylpiperazine) resulted in both DNA fragmentation and cell death. Phorbol ester directly inhibited Ca2+-dependent DNA fragmentation in isolated thymocyte nuclei. Our results strongly suggest that PKC activation blocks thymocyte apoptosis by preventing Ca2+-stimulated endonuclease activation.
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PMID:Inhibition of DNA fragmentation in thymocytes and isolated thymocyte nuclei by agents that stimulate protein kinase C. 250

Development of tolerance to self Ag occurs during a negative cell selection process in the thymus. This selection process is thought to involve interactions between Ag-specific thymocyte receptors and self Ag presented by the MHC proteins on accessory cells, resulting in deletion of potentially harmful self-reactive precursors. However, the mechanisms underlying this clonal deletion have not been identified. In confirmation of previous findings (C. A. Smith, G. T. Williams, R. Kingston, E. J. Jenkins, and J. J. T. Owen, 1989. Antibodies to CD3/T-cell receptor complex induce death by apoptosis in immature T cells in thymic cultures. Nature 337:181), we have found that an anti-CD3 antibody stimulated DNA fragmentation, characteristic of a suicide mechanism known as apoptosis or programmed cell death (PCD), in suspensions of human thymocytes. Endonuclease activation and cell killing were dependent on an early, sustained increase in cytosolic Ca2+ concentration, most of which was of extracellular origin. Although the magnitude and duration of the Ca2+ increase were similar to those observed in response to Con A, the mitogen did not stimulate DNA fragmentation or cell death. Phorbol ester prevented Ca2+-dependent DNA fragmentation and cell killing in response to anti-CD3 or other agents that stimulated PCD, suggesting that activation of protein kinase C abrogated cell suicide. Disappearance of CD4+CD8+ immature thymocytes was generally observed in response to all agents that stimulated PCD, whereas mature PBL were insensitive to stimulation of PCD. Our results suggest that antibody-mediated stimulation of immature thymocytes via the TCR complex results in Ca2+-dependent, endonuclease-mediated cell killing, depending on the activation status of protein kinase C.
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PMID:Calcium-dependent killing of immature thymocytes by stimulation via the CD3/T cell receptor complex. 252 81

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