Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.22.1 (DNase II)
 429 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Small cell lung cancer cells (OC-NYH-VM) were permeabilized and treated with different nucleases. The long-range distribution of DNA cleavage sites in the amplified c-myc gene locus was then analyzed by pulsed field gel electrophoretic separation of the released 50-kilobase to 1-megabase DNA fragments followed by indirect end labeling. Exogenous DNase I and nucleases specific for the single-stranded DNA were found to generate similar nonrandom patterns of large DNA fragments. The cleavage sites were located close to or even colocalized with matrix attachment regions, which were mapped independently using a recently developed procedure for DNA loop excision by DNA topoisomerase II-mediated DNA cleavage. Endogenous acidic nuclease with the properties of DNase II also digested DNA preferentially in proximity to the matrix attachment regions, generating characteristic patterns of excised DNA loops and their oligomers. A similar, although less specific, pattern of DNA fragmentation was observed after incubation of permeabilized cells under conditions favoring the activity of endogenous neutral Ca(2+)- and Mg(2+)-dependent nucleases. These findings are discussed in the context of the current model of the spatial domain organization of eukaryotic genome.
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PMID:Long-range fragmentation of the eukaryotic genome by exogenous and endogenous nucleases proceeds in a specific fashion via preferential DNA cleavage at matrix attachment sites. 762 1

We have recently demonstrated that a high c-myc endogenous amplification level confers an apoptosis-prone phenotype to serum-deprived colon carcinoma SW613-S cells. The aim of this study was to gain new insights into the features of c-myc-dependent apoptosis, by extending our analysis to different apoptogenic stimuli. The study was carried out on clones, derived from the human colon carcinoma SW613-S cell line, which harbor different levels of endogenous c-myc amplification, and on isogenic cell lines with an enforced c-myc overexpression. Our results indicate that cells with endogenous or transfected exogenous c-myc overexpression (SW613-12A1 and -2G1mycP2Tu1 cell lines, respectively), activate the apoptotic machinery in response to the treatment with etoposide, doxorubicin and vitamin D3, which induce apoptosis through the death receptor Fas. The low levels of c-myc expression present in SW613-B3 and -B3mycC5, seem to be unable to activate Fas-mediated apoptosis, thus suggesting that only a high c-myc expression can bypass the lack of Fas receptor. Apoptosis induction mediated by DNA damage and long-term culture was independent of c-myc expression. A pathway of apoptosis characterized by the activation of the enzyme L-DNase II, was observed in both 12A1 and B3 cell lines.
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PMID:Effect of apoptogenic stimuli on colon carcinoma cell lines with a different c-myc expression level. 1273 15

We have previously shown that DNA from dying tumor cells may be transferred to living cells via the uptake of apoptotic bodies and may contribute to tumor progression. DNA encoding H-ras(V12) and c-myc oncogenes may be transferred to the nucleus of the phagocyte but will only integrate and propagate in p53- and p21-deficient mouse embryonic fibroblasts, whereas normal cells are resistant to transformation. Here, we show that this protective mechanism (activation of p53 and p21 after uptake of apoptotic bodies) is dependent on DNA fragmentation, where inhibition of the caspase-activated DNase in the apoptotic cells, in conjunction with genetic ablation of lysosomal DNase II in the phagocytes, completely blocks p53 activation and consequently allows DNA replication of transferred DNA. We, therefore, suggest that there is a causal relationship between DNA degradation during apoptosis and p53 activation. In addition, we could further show that Chk2-/- cells were capable of replicating the hyg(R) gene taken up from engulfed apoptotic cells, suggesting involvement of the DNA damage response. These data show that the phagocytosing cell is sensing the degraded DNA within the apoptotic cell, hence preventing these genes from being replicated, probably through activation of the DNA damage response. We, therefore, hypothesize that DNase II together with the Chk2, p53, and p21 pathway form a genetic barrier blocking the replication of potentially harmful DNA introduced via apoptotic bodies, thereby preventing transformation and malignant development.
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PMID:DNase II and the Chk2 DNA damage pathway form a genetic barrier blocking replication of horizontally transferred DNA. 1654 56