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)

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

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

We investigated the T cell antigen receptor constant (TCR beta) beta-chain genes of patients with Graves' disease using restriction fragment length polymorphism analysis. Genomic DNA from patients and normal subjects was digested with the restriction endonuclease Bg1 II, transferred to nylon membranes using the Southern blot technique, and hybridized with a TCR beta probe. A significant increase in the frequency of the 10.0; 9.2-kilobase heterozygous phenotype was found in GD (68.6%) vs. 42.1% in normal subjects (P = 0.003). Using the complex phenotype TCR homozygote (hetero) DR3 as a reference (odds ratio = 1.00), we found that the risk for Graves' disease was restricted to TCR beta heterozygote/DR3+ individuals (odds ratio = 8.31; chi 2 = 11.82; P = 0.0009); in the absence of TCR beta heterozygosity, DR3 was not significantly associated with the disease. These results suggest that TCR beta chain genes also are associated with susceptibility to GD and that the association is most pronounced in (or restricted to) those individuals who are HLA DR3 positive.
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PMID:Polymorphism of the T cell receptor beta-chain in Graves' disease. 288 83

We investigated the T cell receptor constant beta chain (TCR C beta) genes of patients with insulin dependent diabetes mellitus (IDDM) using DNA restriction fragment length polymorphism (RFLP) analysis. Genomic DNA from patients and controls was digested with the restriction endonuclease Bg1 II and transferred to nylon filters using the Southern blot procedure. This enzyme identifies a polymorphic site between the two TCR C beta chain genes. We have found a highly significant increase in the frequency of the 10.0; 9.2 kilobase heterozygous phenotype in patients with IDDM (62.7% versus 42.0% in normal controls; P = 0.0006). In identical twin pairs, this association was most striking in those concordant for IDDM (79.2% versus 42.0% in controls; P = 0.0006).
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PMID:T cell receptor beta chain polymorphisms are associated with insulin-dependent diabetes. 289 59

DNA was isolated from 20 fine needle aspiration (FNA) biopsies from lymphomas, hyperplastic lymph nodes and nonlymphoid malignant tumors. Small aliquots (0.2 microgram to 2.0 micrograms) of DNA from each sample were digested to completion with restriction endonuclease Eco RI and/or Bam HI and electrophoresed in 0.8% agarose minigels. DNA was transferred to a nylon filter after brief treatment in HCl and subsequent denaturation and neutralization. Filters were hybridized to radiolabeled JH, C kappa, TCR beta or bcl-2 probes to determine if these genes were in germline or rearranged configurations in each of the samples. It was possible to demonstrate rearrangement of at least one immunoglobulin gene in each of the samples diagnosed as lymphoma, while all samples derived from hyperplastic lymph nodes and nonlymphoid malignant tumors exhibited a germline pattern for each probe tested. Thus, FNA biopsies can provide suitable and sufficient DNA for genotypic analysis using molecular probes that detect gene rearrangement.
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PMID:Genotypic analysis of DNA isolated from fine needle aspiration biopsies. 321 71

Negative selection of self-reactive immature T cells is mediated by TCR engagement and is thought to occur via apoptosis (programmed cell death). The requirement for the co-receptors CD4 and CD8 in negative selection has been demonstrated, but the biochemical mechanisms underlying their involvement in this process remain undefined. Here we present evidence that co-receptor engagement dramatically enhances CD3-induced endonuclease activation and cell death characteristic of apoptosis in immature thymocytes. The responses are associated with increased tyrosine phosphorylation of a number of cellular substrates, including the gamma isoform of phospholipase C, and with increased association of tyrosine phosphoproteins, including the protein tyrosine kinase p56lck, with the TCR complex. Co-receptor engagement also potentiated CD3-mediated Ca2+ increases via a mechanism dependent upon tyrosine kinase activation. Sustained Ca2+ availability was found to be necessary for endonuclease activation and apoptosis to occur. We suggest that CD4 and CD8 may participate in negative selection by enhancing TCR/CD3-induced tyrosine kinase activation and sustained Ca2+ increases that lead to endonuclease activation and apoptosis in self-reactive CD4+ CD8+ thymocytes.
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PMID:Co-receptor (CD4/CD8) engagement enhances CD3-induced apoptosis in thymocytes. Implications for negative selection. 807 59

Treatment of experimental animals with T-2 toxin has been found to markedly decrease thymic cellularity and to suppress cell-mediated immune function. Although T-2 toxin readily crosses the placenta, little is known about its effect on development of immunity following gestational exposure. In the present report, prenatal T-2 toxin resulted in significant fetal thymic atrophy in mice. In vitro exposure to T-2 toxin resulted in decreased thymocyte proliferation, as well as significant but transient increases in thymocyte viability. Cycloheximide increased thymocyte viability parallel to that seen after T-2 toxin, indicating that enhanced viability after T-2 toxin may be the result of inhibited endonuclease synthesis. These findings suggest that direct cytotoxic effects of T-2 toxin make limited contribution to thymic atrophy production. In support of this conclusion, in vivo T-2 toxin exposure resulted in only limited alteration of thymocyte development, as evidenced by expression of CD4, CD8, and alpha beta TCR cell-surface antigens. These data further indicate that antiproliferative effects of T-2 toxin on thymocytes may contribute limitedly to thymic atrophy observed in vivo. In vivo T-2 toxin treatment did not affect total numbers of CD44+, CD45+, or Mac-1+ fetal liver cells. However, such exposure resulted in significant decreases in CD44lo and CD45lo fetal liver prolymphoid cell subpopulations. Subsequent in vitro T-2 toxin exposure of fetal liver cells enriched for lymphoid precursors resulted in both decreased cell viability and highly significant decreased proliferation. Taken together, these data suggest that lymphocyte progenitors, in contrast to thymocytes, represent highly sensitive targets of T-2 toxin exposure, responsible for thymic atrophy.
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PMID:Fetal thymic atrophy after exposure to T-2 toxin: selectivity for lymphoid progenitor cells. 833 3

Apoptotic cell death is typically accompanied by internucleosomal chromatin fragmentation. Although a number of candidate enzymes have been proposed, there is as yet no direct evidence for the involvement of any particular endonuclease in this process. Here we demonstrate the existence of an endonuclease(s) that is up-regulated during apoptotic T cell death. The endonuclease(s) is located in the nucleus, and its activity is increased up to eightfold by a variety of stimuli or conditions that induce apoptosis in T cell hybridomas and thymocytes. Treatments that prevent TCR-mediated apoptosis, such as cyclosporin A or concomitant administration of glucocorticoids, also prevent the induction of enzyme activity. The endonuclease activity is associated with three molecular forms, designated A, B, and C, with apparent M(r) of 49K, 47K, and 45K, respectively, and constitutes the major endonuclease activity in T hybridoma cells. From A exists in resting cells, and its activity is increased threefold after the induction of apoptosis. Forms B and C are absent in resting cells and are induced up to 20-fold after stimuli that lead to apoptosis. All three forms are Ca2+/Mg2+ dependent and are inhibited by Zn2+. This enzyme(s) introduces double strand breaks and single strand nicks into supercoiled plasmid DNA, demonstrating the mode of DNA fragmentation characteristic of products of apoptotic chromatin degradation. The enzyme(s) produces DNA fragments with 5'-P and 3'-OH terminals, also consistent with apoptotic chromatin degradation. Finally, enzyme solubilized from cells activated to die cleaves chromatin in nuclei isolated from unstimulated T hybridoma cells, yielding the classic DNA ladder. Because of its biologic properties, we named this enzyme(s) inducible lymphocyte Ca2+/Mg(2+)-dependent endonuclease, or ILCME. Because inducible lymphocyte Ca2+/Mg(2+)-dependent endonuclease possesses the key features predicted for an apoptosis-specific enzyme, it is a new candidate for an enzyme(s) that participates in DNA cleavage in apoptotic T cells.
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PMID:An inducible lymphocyte nuclear Ca2+/Mg(2+)-dependent endonuclease associated with apoptosis. 855 18

Programmed cell death (PCD), also known as apoptosis, is a genetically controlled cellular response, manifested in morphologically distinct non-necrotic cellular destruction: cell shrinkage, cytoplasmic "boiling", condensation of chromatin, loss of nuclear membrane followed by DNA fragmentation and cell membrane blebbing, all of which initiate the formation of apoptotic bodies. During the early stages of PCD, cell membrane phospholipid asymmetry is altered, resulting in the dislocation of phosphatidylserine (PS) to the cell surface. During apoptosis, DNA is cut by endonucleases at DNA-linked sites between nucleosomes, producing a number of multimers of nucleosomal DNA units in the cell nuclei. The mechanism of apoptosis and the cellular signals involved in its induction have been studied during thymic prenatal ontogenesis and postnatal development, mainly in immature thymocytes and in the cells of the reticulo-epithelial (RE) network. In thymocytes or resting T lymphocytes, p53 tumor suppressor protein was identified to be a critical mediator of apoptosis in response to DNA damage. The cellular interaction of immature, cortical thymocytes (characterized by a double positive CD4+CD8+TCRlow immunophenotype) with thymic RE cells induces positive selection of T lymphocytes that recognize, but are not activated by self-MHC molecules (tolerance induction). Double positive CD4+CD8+CD3- thymocytes undergo Fas-mediated apoptosis, while CD4+CD8+CD3+ cells use the CD3 mediated pathway of PCD. Two step, apoptotic cell death is mainly restricted to the CD4+CD8+TCRdull thymocyte subpopulation. T-lymphocytes which do not undergo positive selection are killed by apoptosis in response to a number of intrinsic and extrinsic factors, such as chemical toxins, viral infections, X- and UV irradiation, mild hyperthermia, the actions of various hormones, extracellular survival factors, calcium ionophores (such as A23187), various chemotherapeutic drugs (adriamycin, actinomycin D, etc) and antibodies directed to the CD3-TCR (T cell receptor) complex. Immature thymocytes also undergo a second selective process, so-called negative selection, when thymic stromal cells eliminate autoreactive T lymphocytes. This process has been termed clonal deletion and also involves apoptosis. In addition to the two intrathymic T lymphocyte selection mechanisms, Immunocompetent, but autoreactive T lymphocytes which have already reached the periphery are also eliminated by apoptosis. All the divers stimuli of PCD are associated with an increase in the concentration of cytosolic calcium ions (Ca+2), which activate an endogenous endonuclease. This trigger for PCD results in rapid cleavage of DNA, a hallmark of apoptosis. Despite the diversity of the signals that can trigger apoptosis, the changes in cellular morphology characteristic of PCD are very similar. The uniformity of the morphological changes suggests the existence of a predetermined, final and common cell suicide pathway. Apoptosis requires energy in the form of ATP, indicating that PCD, as opposed to necrosis, is an energy dependent, active physiological and pathophysiological phenomenon.
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PMID:Apoptosis in the mammalian thymus during normal histogenesis and under various in vitro and in vivo experimental conditions. 957 34

Two new 5'-untranslated region (5'UTR) exons were identified in the human gene for the lymphocyte-specific endonuclease recombination activating gene-1 (RAG1) required for the somatic recombination yielding functional Ag receptors. These 5'UTR exons were used in three different splice forms by jejunal lymphocytes of the T cell lineage. RAG1 mRNA containing the previously described 5'UTR exon was not expressed in these cells. Conversely, one of the new 5'UTR exons was not expressed in thymus. The new RAG1 mRNA splice forms were all expressed in immature T cells (CD2(+)CD7(+)CD3(-)). This cell population also expressed high levels of mRNA for the pre-T alpha-chain. In situ hybridization demonstrated jejunal cells expressing the new splice forms of RAG1 mRNA, both intraepithelially and in lamina propria. Pre-T alpha-chain mRNA-expressing cells were detected at the same sites. These results strongly suggest ongoing TCR gene rearrangement in human small intestinal mucosa, yielding T cells specially adapted for this environment. This seems to be achieved by two parallel processes, extrathymic T cell development and peripheral Ag-driven TCR editing.
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PMID:Extrathymic TCR gene rearrangement in human small intestine: identification of new splice forms of recombination activating gene-1 mRNA with selective tissue expression. 1450 Jun 29

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