Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:3.1.21.1 (
DNase
)
7,655
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Meta-iodobenzylguanidine (MIBG) is a guanidine analogue of the neurotransmitter norepinephrine. Radioiodinated [131I]MIBG is clinically used as a tumor-targeted radiopharmaceutical in the diagnosis and treatment of adrenergic tumors. Moreover, non-radiolabelled MIBG exerts several cell-biological effects, tentatively ascribed to interference with cellular mono(ADP-ribosyl) transferases (Smets, L.A., Bout, B. and Wisse, J. (1988) Cancer Chemother. Pharmacol. 21, 9-13; Smets, L.A., Metwally, E.A.G., Knol, E. and Martens, M. (1988)
Leukemia
Res. 12, 737-743). In the present study it was investigated whether MIBG could serve as an acceptor for the ribosyl transferase activity of cholera toxin and of erythrocyte membranes. MIBG appeared a substrate for the cholera toxin-catalyzed transfer of the ADP-ribose moiety of NAD to arginine-like residues with the highest affinity for this enzyme reported as yet (Km = 6.5 microM). MIBG was also ADP-ribosylated by the mono(ADP-ribosyl)transferase(s) of turkey erythrocyte membranes. Moreover, the drug appeared a potent affector of the ADP-ribose linkage to membrane proteins by these enzymes. Interference by MIBG was stronger than by related guanyltyramine, the monoamine precursors of MIBG, meta-iodobenzylamine had no effect at all. In contrast, the drug failed to affect endogenous, O-linked poly(ADP-ribose) polymerase, induced in nuclei of S49-leukemia cells by
deoxyribonuclease
. Since MIBG is the first described drug that specifically interferes with the cellular N-linked mono(ADP-ribosyl) transferase reactions, it may be an important tool to elucidate the physiological role of this posttranscriptional protein modification.
...
PMID:Meta-iodobenzylguanidine (MIBG), a novel high-affinity substrate for cholera toxin that interferes with cellular mono(ADP-ribosylation). 210 58
The transcriptional enhancer of the Moloney Murine
Leukemia
virus (Mo-MuLV) is comprised of a 75-bp direct repeat, each of which contains multiple binding sites for transcription factors. The occupancy of these sites determines the tissue specificity of expression and disease tropism of the virus. The identification of proteins that bind to this enhancer is therefore required in order to understand the molecular basis of this viral-host interaction. Analysis of the nucleic acid sequence of the Mo-MuLV has identified 4 potential binding sites for the transcription factor NF-1. Evidence is presented using
DNAase
I protection analysis that NF-1 binds to these 4 sites within the enhancer. The potential role of NF-1 binding in tissue specific expression of Mo-MuLV is discussed.
...
PMID:Nuclear factor-1 (NF-1) binds to multiple sites within the transcriptional enhancer of Moloney murine leukemia virus. 226 57
The Philadelphia (Ph1) chromosome (22q-), found in more than 90% of patients with chronic myeloid leukemia (CML), is one part of a reciprocal translocation, t(9;22) (q34;q11), in which the oncogene c-abl moves from 9q34 to 22q11. The translocation results in the translation of an aberrant abl-related protein with tyrosine kinase activity. Genetically active genes are known to have chromatin which is hypersensitive to
deoxyribonuclease I
(DNase I) and to be hypomethylated. Using an in situ nick translation technique on metaphase chromosomes, we have examined DNase I sensitivity and methylation status at the breakpoints 9q34 and 22q11 in bone marrow cells from controls (two cases) and CML patients (three cases). In CML cells DNase I sensitivity was significantly increased, at both breakpoints, in the translocated chromosomes compared with their normal homologues in CML cells and with both homologues in control marrows. A hypermethylated site, seen at 22q11 in normal 22s was hypomethylated on 22q-. The 9q34 region was hypomethylated in normal and translocated chromosomes. DNase I sensitivity, seen at 22q13 in CML cells, was lost following translocation in one of three cases. This technique demonstrates alterations in chromatin conformation and methylation status at translocation breakpoints which may be related to acquired genetic activity at one or both of these sites.
Leukemia
1990 May
PMID:Possible evidence for acquired genetic activity at both chromosomal breakpoints of the Philadelphia translocation in chronic myeloid leukemia. 238 79
Ditercalinium (DIT; NSC 335153), a 7H-pyridocarbazole dimer, was reported to be capable of binding with high affinity to DNA by bisintercalation. Both the cytostatic and cytotoxic effects of this drug have been attributed to its binding to DNA. DIT inhibits the growth and is cytotoxic to Friend erythroleukemia (FL) cells. When FL cells were treated with 0.5-2.5 microM DIT and then stained with acridine orange (AO), which differentially stains DNA and RNA, the green, orthochromatic fluorescence representing AO binding to DNA was unchanged, while the metachromatic red luminescence characteristic of AO binding to RNA was reduced by as much as 40% in 4 hr; the effect was DIT-concentration dependent. The reduction in RNA stainability by DIT in the absence of any significant decrease in RNA content, was also observed with another RNA-specific fluorochrome, pyronin Y (PY). These results indicate that in live cells DIT preferentially binds to RNA rather than DNA, preventing stainability of the former by the monointercalating dyes AO and PY. When FL cells were exposed to 10 microM DIT after being first permeabilized by ethanol, the subsequent stainability of DNA in these cells was reduced by up to 67% and RNA by up to 44%, indicating that under these conditions DIT binds to both DNA and RNA. This observation was confirmed by competition experiments between AO and DIT bound to DNA or RNA in permeabilized cells mixed with equivalent numbers of RNA-containing (
DNase
-treated) or DNA-containing (RNase-treated) cells, respectively. The mechanisms that protect DNA against binding by DIT in live cells are unknown but are lost in fixed cells and may be related to maintenance of cellular and/or nuclear membrane integrity. If the propensity for other intercalating drugs to bind to RNA in live cells is correlated with their antitumor activity as is DIT, the rationale for designing new drugs based solely on their affinity for DNA should be reevaluated.
Leukemia
1989 Jul
PMID:The antitumor intercalating drug ditercalinium binds preferentially to RNA in Friend erythroleukemia cells. 247 3
Nuclear matrix prepared from
mouse leukemia
L5178Y cells contained not only the two common actin isomers, beta and gamma actins, but also two additional acidic species of actin (pI 5.1 and 5.3). An anti-actin antibody recognized these acidic species as well as beta and gamma actins on a nitrocellulose filter following western blotting of two-dimensional electrophoresis. These acidic species were co-purified with beta and gamma actins using DNase I-Sepharose affinity chromatography on the nuclear matrix. Limited digestion of the acidic actin with protease V8 or trypsin gave very similar peptide fragments as did digestion of beta and gamma actins. These acidic actins were found to be distributed in the nuclear fraction, but were scarcely detectable in the cytoplasmic fraction. One of the acidic actins (pI 5.3) was found in all subnuclear fractions (
DNase
extract, high-salt extract and nuclear matrix), while the other species, the most acidic actin (pI 5.1), was localized predominantly in the nuclear matrix.
...
PMID:Preferential association of acidic actin with nuclei and nuclear matrix from mouse leukemia L5178Y cells. 351 45
Growth of L1210 leukemia cells which had been previously incubated with thymus DNA was inhibited.
Leukemia
-cell DNA did not affect tumor growth under similar conditions. Pretreatment of the thymus DNA with
deoxyribonuclease
suppressed the DNA induced inhibition. Both ribonucleasetreated DNA and untreated DNA inhibited tumor growth.
...
PMID:Inhibition of L1210 tumor growth by thymus DNA. 582 48
1. Nilemycin (NM) is found to exert an inhibitory effect on the mouse tumor Sarcoma 180 near toxic doses but not with
Leukemia
1210. 2. In Yoshida rat sarcoma cells NM inhibits cellular de novo nucleic acid synthesis and protein to a much lesser extent. 3. More than 50% inhibition by NM to de novo synthesis of RNA, in a system using calf thymus DNA as a template, could be observed. 4. Suitable levels of NM reduce the S values of DNA. 5. The antibiotic induced metachromatic changes in the u.v. spectrum of DNA solutions. 6. NM markedly inhibited the polynucleotide ligase repairing action on
DNase
-1-nicked DNA. 7. It is presumed that NM intercalates nicked DNA into such a configuration that the reactive sites of the polynucleotides are inaccessible to the ligase activities.
...
PMID:Nilemycin, an intercalating agent for deoxyribonucleic acid. 618 40
The stem cell leukaemia (SCL) gene is a member of the basic helix-loop-helix family of transcription factors and is essential for the development of all haematopoietic lineages. SCL is expressed in pluripotent haematopoietic stem cells and also following commitment to the erythroid, mast and megakaryocytic lineages. The mechanisms responsible for this pattern of expression are poorly understood, but are likely to illuminate the molecular basis for stem cell development and lineage commitment. Here we present the first description of the regulation of the SCL gene in mast cells. In this study we systematically analysed the chromatin structure of a 45 kb region of the murine SCL locus in mast cells. The pattern of
DNase
1 and restriction endonuclease hypersensitive sites in mast cells was distinct from, but overlapped with, the pattern previously described in erythroid and primitive myeloid cells. Each potential regulatory element was tested using transient reporter assays to assess their functional significance in mast cells. These studies identified two potent enhancers, one of which was downstream of the SCL gene. Further characterisation of this 3' enhancer demonstrated that it required the presence of two distinct
DNase
1 hypersensitive sites for full activity, and that it was capable of stimulating transcription from both promoter 1a and 1b. Since the 3' enhancer is active in both erythroid and mast cells, it will now be important to see whether it is independently activated in these lineages, or whether it is also active in haematopoietic stem cells.
Leukemia
1999 May
PMID:Chromatin structure and transcriptional regulation of the stem cell leukaemia (SCL) gene in mast cells. 1037 80
HOX homeobox proteins are key oncogenic drivers in hematopoietic malignancies. Here we demonstrate that HOXA1, HOXA6 and predominantly HOXA9 are able to induce the production of insulin-like growth factor 1 (Igf1). In chromatin immunoprecipitations, HOXA9 bound directly to the putative promoter and a
DNase
-hypersensitive region in the first intron of the Igf1 gene. Transcription rates of the Igf1 gene paralleled HOXA9 activity. Primary cells transformed by HOXA9 expressed functional Igf1 receptors and activated the protein kinase Akt in response to Igf1 stimulation, suggesting the existence of an autocrine signaling loop. Genomic deletion of the Igf1 gene by Cre-mediated recombination increased sensitivity toward apoptosis after serum starvation. In addition, the leukemogenic potential of Igf1-negative, HOXA9-transformed cells was impaired, leading to a significant delay in disease development on transplantation into recipient animals.
Leukemia
2015 Apr
PMID:Insulin-like growth factor 1 is a direct HOXA9 target important for hematopoietic transformation. 2525 70
