EC:3.1.22.1 - FACTA Search

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

Although apoptotic cells are recognized and engulfed by macrophages via a number of membrane receptors, little is known about the fate of apoptotic cells after the engulfment. We observed in this study that nucleosomal DNA fragments of apoptotic cells disappeared when they were engulfed by the macrophage cell line J774.1 at 37 degrees C. Pretreatment of J774.1 cells with chloroquine inhibited intensive DNA degradation, indicating that the cleavage of nucleosomal DNA fragments of apoptotic cells may take place in the lysosomes of J774. 1. When apoptotic cells were exposed to a lysosome-rich fraction derived from J774.1 cells under an acidic condition, nucleosomal DNA fragments of apoptotic cells were no longer detectable by agarose gel electrophoresis. Additionally, we found that the lysosome-rich fraction of J774.1 cells contained an acid DNase that is similar to DNase II with respect to its m.w., optimal pH, and sensitivity to the inhibitors of DNase II. By exposure of apoptotic cells to the lysosomal-rich fraction, nucleosomal core histones of apoptotic cells were hydrolyzed along with degradation of nucleosomal DNA fragments. Addition of pepstatin A to the reaction buffer resulted in accumulation of approximately 180-bp DNA fragments and inhibition of hydrolysis of nucleosomal core histones. Leupeptin or CA-074 partially inhibited the degradation of nucleosomal DNA fragments and core histones. These findings suggest that lysosomal enzymes of macrophages, e.g., DNase II-like acid DNase and cathepsins, are responsible for the degradation of nucleosomes of apoptotic cells.
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PMID:Role of macrophage lysosomal enzymes in the degradation of nucleosomes of apoptotic cells. 1055 58

CAD (caspase-activated DNase) can cause DNA fragmentation in apoptotic cells. Transgenic mice that ubiquitously express a caspase-resistant form of the CAD inhibitor (ICAD) were generated. Thymocytes prepared from the mice were resistant to DNA fragmentation induced by a variety of stimuli. However, similar numbers of TUNEL-positive cells were present in adult tissues of transgenic and wild-type mice. Exposure to gamma-irradiation caused a striking increase in the number of TUNEL-positive cells in the thymus of wild-type, but not transgenic, mice. TUNEL-positive nuclei in transgenic mice were confined to thymic macrophages. When apoptotic thymocytes from the transgenic mice were cocultured with macrophages, the thymocytes underwent phagocytosis and their chromosomal DNA underwent fragmentation. This DNA fragmentation was sensitive to inhibitors that block the acidification of lysosomes. Hence, we conclude that the DNA fragmentation that occurs during apoptosis not only can result cell-autonomously from CAD activity but can also be attributed to a lysosomal acid DNase(s), most likely DNase II, after the apoptotic cells are engulfed.
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PMID:An auxiliary mode of apoptotic DNA fragmentation provided by phagocytes. 1071 43

The composition of the 3'terminal, 5'terminal and 5'penultimate nucleotides of the oligonucleotides released by spleen acid DNase and snail acid DNase from five ;repetitive' DNAs (guinea pig, mouse and crab satellite DNAs, yeast mitochondrial DNA and poly (dAT:dAT)) and four ;eukaryotic' DNAs (calf thymus, guinea pig and mouse liver DNAs, and yeast nuclear DNA) have been investigated and found to deviate in characteristic ways from those expected for bacterial DNAs having comparable base compositions. The deviation patterns obtained represent a novel way of characterizing and comparing different DNAs on the basis of the frequency of the nucleotide sequences they contain.
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PMID:A new approach to the study of nucleotide sequences in DNAs. 1079 62

The 134 amino acid DNase domain of colicin E9 contains a zinc-finger-like HNH motif that binds divalent transition metal ions. We have used 1D 1H and 2D 1H-15N NMR methods to characterise the binding of Co2+, Ni2+ and Zn2+ to this protein. Data for the Co2+-substituted and Ni2+-substituted proteins show that the metal ion is coordinated by three histidine residues; and the NMR characteristics of the Ni2+-substituted protein show that two of the histidines are coordinated through their N(epsilon2) atoms and one via its N(delta1). Furthermore, the NMR spectrum of the Ni2+-substituted protein is perturbed by the presence of phosphate, consistent with an X-ray structure showing that phosphate is coordinated to bound Ni2+, and by a change in pH, consistent with an ionisable group at the metal centre with a pKa of 7.9. Binding of an inhibitor protein to the DNase does not perturb the resonances of the metal site, suggesting there is no substantial conformation change of the DNase HNH motif on inhibitor binding. 1H-15N NMR data for the Zn2+-substituted DNase show that this protein, like the metal-free DNase, exists as two conformers with different 1H-15N correlation NMR spectra, and that the binding of Zn2+ does not significantly perturb the spectra, and hence structures, of these conformers beyond the HNH motif region.
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PMID:NMR studies of metal ion binding to the Zn-finger-like HNH motif of colicin E9. 1083 Aug 90

The effect of ionic strength of the reaction medium on the pH optimum, specificity, and mechanism of action of the acid DNase isolated from mature eggs of the sea urchin Strongylocentrotus intermedius was studied. Changes in ionic strength of the reaction medium caused a displacement of the pH optimum of the enzyme to acidity or alkalinity. The region and range of this displacement depended on the buffer used and on the substrate structure. For single-stranded, duplex, and supercoiled forms of DNA, the pH optimum displacements were 1.0, 1.4, and 2.0 pH units, respectively. The pH optimum displacement changed the mechanism of action of the enzyme. Under optimum pH conditions, the enzyme cleaved supercoiled DNA only by the double-hit mechanism, and fragments of duplex DNA resulted due to the coincidence of breaks in opposite chains. On pH displacement to acidity, the enzyme acted by the mixed mechanism (single- and double-hit). And the quantitative ratio of products of the enzymatic hydrolysis of supercoiled DNA was significantly changed depending on the pH displacement to acidity or to alkalinity. The findings are explained by the effect of salt-dependent electrostatic interactions during the formation of a nonspecific DNA-enzyme complex.
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PMID:Effect of ionic strength on the pH optimum, specificity, and mechanism of action of acid DNase from mature eggs of the sea urchin Strongylocentrotus intermedius. 1100 89

Lysosomal and cytoplasmic fractions were prepared from rat submandibular glands for investigation of the release of lysosomal acid DNase in relation to aging. It was found that the acid DNase activity ratio for cytoplasmic/lysosomal fractions in rats aged 27 months was higher than that in three-month-old rats. The release of acid DNase from the lysosomal fraction by shaking was markedly increased in the fraction from the older animals.
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PMID:The influence of aging on lysosomal acid DNase of the rat submandibular gland. 1103 51

Human prostate cancer cells (DU145) implanted into nude mice are deficient in DNase activity. After administration of a vitamin C/vitamin K(3) combination, both alkaline DNase (DNase I) and acid DNase (DNase II) activities were detected in cryosections with a histochemical lead nitrate technique. Alkaline DNase activity appeared 1 hr after vitamin administration, decreased slightly until 2 hr, and disappeared by 8 hr after treatment. Acid DNase activity appeared 2 hr after vitamin administration, reached its highest levels between 4 and 8 hr, and maintained its activity 24 hr after treatment. Methyl green staining indicated that DNase expression was accompanied by a decrease in DNA content of the tumor cells. Microscopic examination of 1-microm sections of the tumors indicated that DNase reactivation and the subsequent degradation of DNA induced multiple forms of tumor cell death, including apoptosis and necrosis. The primary form of vitamin-induced tumor cell death was autoschizis, which is characterized by membrane damage and the progressive loss of cytoplasm through a series of self-excisions. These self-excisions typically continue until the perikaryon consists of an apparently intact nucleus surrounded by a thin rim of cytoplasm that contains damaged organelles.
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PMID:In vivo reactivation of DNases in implanted human prostate tumors after administration of a vitamin C/K(3) combination. 1111 83

During the development of the neural retina, 50% of the neurons die physiologically by apoptosis. In the chick embryo, the apoptotic wave starts at E8 and ends at E18, with a peak at E11. The onset of apoptosis is accompanied by the activation of several degradative enzymes. Among these, the activation of the endonucleases leads to the degradation of the genomic DNA of the cell which is thought to be the final event in apoptosis. Here, we have investigated the endonucleases activated during apoptosis associated with retinal development. We have found that Ca2+-Mg2+-dependent endonucleases, as well as acid endonucleases are activated. The results obtained in vitro using purified nuclei from chicken retina indicate that the endonuclease activity resulting from the activation of L-DNase II, an acid DNase is responsible for most of the DNA degradation observed in these cells.
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PMID:Involvement of L-DNase II in nuclear degeneration during chick retina development. 1127 72

We previously found that a novel DNA endonuclease named DLAD (DNase II-Like Acid DNase) is specifically expressed in murine liver. Here, we describe the isolation and characterization of the human DLAD and mouse Dlad genes. Both DLAD and Dlad consist of 6 exons. DLAD encodes a 361 amino acid protein sharing 34.6% amino acid identity with human DNase II. Although a recombinant protein for the putative human DLAD has a divalent cation-independent acid DNase activity, expression of the DLAD mRNA containing the entire open reading frame was not detected in any human tissues tested, except for lung, in which a short 1.1 kb transcript lacking the first two exons is expressed. Interestingly, sequence analysis of Dlad showed that the 1st exon of the urate oxidase gene, Uox, is located on the opposite strand in its 5'-flanking region. The head-to-head organization of DLAD and UOX is conserved in the human genomic sequence. Promoter analysis revealed that the intergenic region between Dlad and Uox has promoter activity for both the Dlad and Uox directions, however, the corresponding human genomic fragment has promoter activity only for DLAD. It is known that murine Uox is expressed only in the liver, whereas human UOX has been inactivated as a pseudogene. On the basis of these results, the expression of DLAD/Dlad and UOX/Uox is suggested to be coordinated by a common regulatory mechanism(s), and the balance between the two enzymes is thought to be important for maintaining the purine nucleotide pool in the liver.
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PMID:Isolation and characterization of the DLAD/Dlad genes, which lie head-to-head with the genes for urate oxidase. 1170 27

In the present study, we undertook kinetic analyses of DNA degradation and acid DNase activity in murine thymus after administration of hydrocortisone. Hydrocortisone induced apoptosis in thymocytes, and a large number of cortical thymocytes became TUNEL (terminal deoxynucleotidyl transferase-mediated dUTP biotin nick end labelling)-positive (TUNEL+). F4/80+ macrophages infiltrated through the cortico-medullay junction into the cortical region, and thereafter engulfed apoptotic cells in the cortex of thymus. The distribution of acid DNase-active cells appeared to be similar to that of F4/80+ macrophages. Eighteen hours after the injection, although the foci of apoptotic cells were situated within massively distended F4/80+ macrophages, oligonucleosomal DNA fragments on an agarose gel were undetectable. Our results showed that macrophages were involved in the disappearance of oligonucleosomal DNA fragments in apoptotic thymocytes. Taken together, macrophages play a role in the hydrolysis of DNA in apoptotic cells upon their phagocytosis of the dead cells.
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PMID:Macrophages are involved in DNA degradation of apoptotic cells in murine thymus after administration of hydrocortisone. 1184 Jan 61

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