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)

Chromosome 11 band q23 is commonly involved in nonrandom chromosomal translocations in hematopoietic malignancies, especially in infant acute leukemias. By using pulsed-field gel electrophoresis (PFGE) with restriction endonuclease digests of DNA from both a leukemia cell line (RS4;11) bearing the t(4;11)(q21;q23) and from human/hamster hybrid cells, we have been able to construct a detailed restriction map of the chromosome 11q23 region and have localized the t(4;11) chromosome 11 breakpoint to a region located approximately 200 to 230 kb telomeric to the CD3 gamma region and approximately 580 kb centromeric to the PBGD gene. PFGE analyses of DNA from clinical leukemia specimens and cell lines indicated a tight clustering of breakpoints in all eight t(4;11) acute leukemias studied. These data strongly suggest that discrete genetic loci are interrupted on both chromosomes 4 and 11 in a manner likely to be critically involved in the pathogenesis of t(4;11) acute leukemias. To our knowledge, these results represent the first evidence of breakpoint clustering in t(4;11) acute leukemias. In contrast to t(4;11), other 11q23 abnormalities studied to date have frequently shown evidence for alternative breakpoint sites in 11q23.
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PMID:Breakpoint clustering in t(4;11)(q21;q23) acute leukemia. 182 46

The effects of topoisomerase II-reactive epipodophyllotoxins etoposide and teniposide as well as amsacrine on the viability of thymocytes in primary culture has been examined. All three drugs were shown to produce DNA cleavage detectable by resolving isolated DNA by pulsed field agarose gel electrophoresis. The DNA cleavage was found to have two components. The first was due to the interaction of the drugs with topoisomerase II, whereas the second component was due to endonuclease cleavage caused by the drug-induced entry of the thymocytes into programmed cell death or apoptosis. This second component of the DNA cleavage was also detected in thymocytes undergoing apoptosis following exposure to the glucocorticoid analogue, dexamethasone. The effect of the drugs on programmed cell death is dependent upon new protein and RNA synthesis, indicating that topoisomerase II has a role in the very first stages of the process. These results are discussed in terms of the use of this class of topoisomerase II-reactive drugs in chemotherapy.
Cancer Res 1991 Feb 15
PMID:Topoisomerase II-reactive chemotherapeutic drugs induce apoptosis in thymocytes. 184 55

Androgen ablation induces an energy-dependent process of programmed death in nonproliferating androgen-dependent prostatic cancer cells which involves fragmentation of genomic DNA into nucleosomal oligomers catalyzed by nuclear Ca2+, Mg(2+)-dependent endonuclease enzymes activated following a sustained elevation in intracellular free Ca2+ (Cai). In contrast, androgen-independent prostatic cancer cells are not induced to undergo such programmed cell death by androgen ablation. One explanation for the inability of androgen ablation to induce programmed death of androgen-independent prostatic cancer cells is that such ablation does not result in a sustained elevation in Cai in these cells. This raises the issue of whether androgen-independent prostatic cancer cells can be induced to undergo programmed death if an elevation in the Cai is sufficiently sustained by nonhormonal means. To test this possibility, androgen-independent, highly metastatic Dunning R-3327 AT-3 rat prostatic cancer cells were chronically exposed in vitro to the calcium ionophore ionomycin to sustain an elevation in their Cai. These studies demonstrated that an elevation of Cai as small as only 3-6-fold above baseline can induce the death of these cells if sustained for greater than 12 h. Temporal analysis demonstrated that the death of these cells does not require cell proliferation and involves Ca(2+)-induced fragmentation of genomic DNA into nucleosome-sized pieces as the commitment step in this process. These results demonstrate that even nonproliferating androgen-independent prostatic cancer cells can be induced to undergo programmed cell death if a modest elevation in the Cai is sustained for a sufficient time. These observations identify Cai as a potential target for therapy for androgen-independent prostatic cancer cells.
Cancer Res 1991 Sep 01
PMID:Programmed death of nonproliferating androgen-independent prostatic cancer cells. 187 14

Tumors formed from wild type P1798 mouse lymphoma cells undergo regression when treated with pharmacological doses of natural and synthetic glucocorticoids in vivo. Variants have been selected that are insensitive to the cytolytic effects of glucocorticoids in vivo. Although the response of wild type and insensitive tumors is markedly different in vivo, the manner in which cells from such tumors respond to glucocorticoids is indistinguishable in culture under routine conditions. Glucocorticoids inhibit proliferation of wild type cells as well as those that are insensitive to glucocorticoids in vivo. Although neither cell line dies when exposed to dexamethasone in culture in the presence of fetal bovine serum, both sensitive and insensitive cell lines undergo cytolysis when exposed to dexamethasone in serum-free medium. Sensitive cells die more quickly, with 50% cell death observed within 6 h. Insensitive cells exhibit less than 10% cell death within 6 h. Sensitive cells continue to die after transitory exposure to dexamethasone, whereas insensitive cells do not. Thus, growth in serum-free medium mimics the response that prevails in vivo. Cell death is associated with rapid, internucleosomal chromatin degradation. The rate of DNA fragmentation is comparable to that of cell death. About 30% of the DNA in sensitive cells is degraded to fragments of less than 10 kilobases within 2 h after addition of dexamethasone, and 70-80% of the DNA is degraded within 6 h. There is no significant degradation observed when insensitive cells are treated for 6 h. P1798 cell lines express an endonuclease that is capable of degrading chromatin in vitro. Basal expression of this activity does not correlate with glucocorticoid sensitivity, and insensitivity does not appear to be attributable to a decrease in expression of the enzyme(s) thought to be responsible for glucocorticoid-mediated chromatin degradation. The data suggest that glucocorticoid insensitivity is associated with delayed activation and/or induction of some lytic principle. Alternatively, resistance may be due to enhanced ability to repair the damage induced by transitory exposure to glucocorticoids in vivo.
Cancer Res 1991 Oct 15
PMID:Insensitivity to the cytolytic effects of glucocorticoids in vivo is associated with a novel "slow death" phenotype. 191 73

Chromosome G-banding analysis of two human mammary carcinoma cell lines, Elco and MCF-7, showed the existence of two X chromosomes in both cell lines. To determine the state of activity of the X chromosomes, a methylation-sensitive restriction endonuclease, HpaII, was used to distinguish the active X from the hypermethylated, inactive X chromosome with a probe for the phosphogalactokinase locus by Southern blot hybridization. DNA digested with the restriction enzymes PstI and BstXI showed a band at either 1.05 or 0.9 kilobases. After HpaII digestion, a 50% reduction in intensity was observed in the female controls, whereas total reduction of the band was observed for the tumor cell lines and the male control. This indicates the absence of an inactive X and the presence of only active X chromosomes in the mammary carcinoma cell lines and the male control. To investigate the mechanisms involved in the alteration of the X chromosome composition and activity, restriction fragment length polymorphism analyses of seven additional X chromosome markers (L1.28, DX13, p52A, pX65H7, L782, pA13.RI, and pXG-12) were performed on the DNA isolated from the tumor cells and controls. Heterozygosity for at least one of the seven markers was detected in the six female controls whereas only homozygosity was detected for each marker in the tumor cell lines and the male control. These results indicate that the two active X chromosomes identified in each of the two tumor cell lines are identical, resulting from duplication or nondisjunction of the active X and loss of the inactive X chromosome.
Cancer Genet Cytogenet 1990 Jun
PMID:Two identical active X chromosomes in human mammary carcinoma cells. 197 Nov 94

To assess the effects of the combination of persistent hepadnavirus infection and chemical carcinogen exposure, aflatoxin B1 (AFB) was administered p.o. for 60 days to congenitally duck hepatitis B virus (DHBV)-infected and virus-free Pekin ducks, starting at 3 days of age, during a 28-month study. Hepatic neoplasia occurred only in AFB-dosed ducks. Hepatocellular carcinomas or biliary carcinomas occurred in 4 of 8 DHBV-infected and 3 of 4 DHBV-free ducks, and hepatocellular adenomas developed in 2 DHBV-infected AFB-dosed ducks that survived 20 months or longer. Altered foci of hepatocytes similar to those observed in chemical carcinogen-dosed rodents, characterized by enlarged eosinophilic hepatocytes or vacuolated cytoplasm, occurred in AFB-dosed ducks. Cells in foci or hepatic neoplasms did not contain histochemically detectable gamma-glutamyltranspeptidase but were distinguished from uninvolved parenchyma by altered glycogen content. Immunohistochemical staining indicated that DHBV core antigen persisted in liver, spleen, pancreas, and, to a lesser extent, kidney of most congenitally infected ducks up to 28 months of age. Hepatic neoplasms contained only patches of hepatocytes were detectable viral antigen. Southern blot analysis of restriction endonuclease-digested neoplastic and normal liver DNA revealed high molecular weight forms of DHBV DNA consistent with integration of viral DNA into the genome of hepatic neoplasms from 3 of 4 DHBV-infected ducks but not nontumorous liver. These findings indicate that AFB is a potent hepatic carcinogen in ducks and that persistent congenital DHBV infection did not contribute significantly to the emergence of hepatic neoplasia in ducks under these conditions.
Cancer Res 1990 Jul 01
PMID:Hepatic neoplasms in aflatoxin B1-treated, congenital duck hepatitis B virus-infected, and virus-free pekin ducks. 197 46

The use of Mabs for the detection and treatment of human carcinoma lesions can still be regarded in its infancy. As with other new approaches to cancer therapy, several conceptual as well as real problems exist when designing clinical protocols for Mab-directed immunotherapy. From the Mab standpoint, studies using the intact IgG have shown that, in a majority of patients injected with IgG, human anti-mouse IgG antibodies develop that hamper the effectiveness of subsequent antibody administration. It is believed that the human anti-mouse antibody response is directed against the Fc region of the IgG molecule. The elimination of this region through fractionation of the Mab to obtain the minimum binding site could result in a less immunogenic molecule. Another approach aimed at reducing the immunogenicity of the Mab would be to clone the genes encoding for individual Mabs, reduce them via restriction endonuclease techniques, and insert human immunoglobulin constant regions. The resulting chimeric antibodies are believed to reduce the development of human anti-mouse antibodies. Effective Mab therapy of human tumor lesions may also be achieved through the recruitment of a portion of the host's immunologic defense system. An example is the use of anti-idiotype Mabs that use as immunogen a Mab to a tumor antigen. The anti-idiotype antibodies are selected for binding to the antigen binding, or idiotype, region of the first Mab. The binding sites of the new anti-idiotype Mabs should reflect the 'internal image' of the original antigen. The anti-idiotype antibodies may be used to immunize patients (i.e., vaccines) in an attempt to mount an active immune response against the antigen-positive tumor cells. Recent studies have shown a synergism between interferon-alpha and an anti-idiotype Mab for the in-vivo antitumor activity in a murine B-cell lymphoma experimental model. Whether an interferon-mediated increase in the tumor antigen or the Fc receptor was part of the synergism was not investigated. Mabs alone have also been shown to elicit cytotoxic activity in vitro and tumoricidal activity in vivo. Antibodies of the IgG2a isotype can direct macrophage-mediated cytotoxicity. These studies revealed the importance of the number of antibody sites per cell as well as the number of cells that bind the IgG2a Mab, thus suggesting a 'threshold' requirement for the demonstration of effective tumor cell lysis in vitro and in vivo.(ABSTRACT TRUNCATED AT 400 WORDS)
Cancer Treat Res 1990
PMID:Augmentation of tumor antigen expression by recombinant human interferons: enhanced targeting of monoclonal antibodies to carcinomas. 197 58

In previous studies we used Southern blotting to examine the topoisomerase II locus (on chromosome 17) in human leukemia cell lines and noted a difference in the XmnI restriction endonuclease digestion pattern between an m-AMSA-resistant line and its m-AMSA-sensitive parent line (Zwelling, L. A.; Hinds, M,; Chan, D.; Mayes, J.; Sie, K. L.; Parker, E.; Silberman, L.; Radcliffe, A.; Beran, M.; Blick, M. Characterization of an amsacrine-resistant line of human leukemia cells. Evidence for a drug-resistant form of topoisomerase II. Journal of Biological Chemistry 264:16411-16420; 1989). We now demonstrate that the variable XmnI digestion pattern represents a normal restriction fragment length polymorphism (RFLP) which is observed in subjects without malignant disease and exhibits an autosomal pattern of inheritance. These data suggest that the previously described deviation in the genomic structure of topoisomerase II in the m-AMSA-resistant cell line did not reflect a new mutation, but rather a reduction to homozygosity at the topoisomerase II locus. This reduction to homozygosity is not due to chromosomal loss, as chromosome 17-specific gene probes clearly identify two chromosome 17's in the sensitive line and four in the resistant line, using chromosome painting with a chromosome 17-specific library. Some other genetic change must be the cause of the resistance of HL-60/AMSA and its topoisomerase II to the inhibiting actions of m-AMSA.
Cancer Commun 1990
PMID:A restriction fragment length polymorphism for human topoisomerase II: possible relationship to drug-resistance. 197 87

Two human erythroleukemia cell lines, HEL and K562, express transglutaminase activity. The enzyme was identified as a tissue transglutaminase following chromatographic purification. All-trans-retinoic acid (10 microM) stimulated differentiation in HEL cells as judged by a 4-fold increase in hemoglobin content and a reduction in cell proliferation. The transglutaminase activity increased 9-fold. This increase in transglutaminase was the result of a pretranslational regulation of the gene as revealed by Northern blot analysis of mRNA. These changes were not a result of cell apoptosis, since parallel DNA degradation catalyzed by a Ca2(+)-dependent endonuclease could not be demonstrated. The K562 cells, in contrast, showed no transglutaminase induction following exposure to retinoic acid and displayed no changes in maturation markers or cell growth.
Cancer Res 1990 Dec 15
PMID:Differential expression of transglutaminase in human erythroleukemia cells in response to retinoic acid. 197 50

The contribution of DNA damage to the effects of 193-nm excimer laser radiation on mammalian cells in culture was studied in order to evaluate the mutagenic potential of this UV wavelength in vivo. Two approaches were taken: measurement of pyrimidine dimer-specific endonuclease-sensitive sites/megabase and comparison of the 193-nm radiation-induced cytotoxicity in normal versus DNA repair-deficient cells. The formation of pyrimidine dimer-specific endonuclease-sensitive sites/megabase was inversely related to the thickness of the cytoplasm overlying the nuclei of normal human fibroblasts (NHF) and Chinese hamster ovary cells. The results of these measurements and a calculation of the absorption coefficient of cytoplasm indicate that each 1 micron of cytoplasm attenuates the incident radiation by greater than 90% and, therefore, the nuclear DNA in tissue will be highly protected from 193-nm radiation by overlying cytoplasm. The reduction in colony-forming ability induced by 254-nm, 193-nm, and X-ray radiation was measured in NHF, xeroderma pigmentosum (group A) cells, and ataxia telangiectasia cells. Xeroderma pigmentosum (group A) cells were 16.5 times more sensitive to 254-nm radiation but only 3.5 times more sensitive to 193-nm radiation than NHF cells, indicating that cyclobutylpyrimidine dimers were not the major lethal lesion formed at 193 nm. AT cells were 3.4 times more sensitive to X-rays than NHF cells, but these cell types were almost equally sensitive to 193-nm radiation, indicating that 193 nm did not induce the same type of lethal lesions as X-rays.
Cancer Res 1991 Jan 01
PMID:DNA damage induced by 193-nm radiation in mammalian cells. 198 91


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