Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The synthesis and isolation of two derivatives of 2-amino-1,3,4-thialdiazole(aminothiadiazole) are described. The derivatives are a nicotinamide adenine dinucleotide (NAD) analog prepared by an exchange reaction with NAD in the presence of nicotineamide adenine dinucleotide glycohydrolase and a presumed aminothiadiazole mononucleotide prepared by treatment of the NAD analog with nucleotide pyrophosphatase. Both derivatives are potent inhibitors of inosine 5'-phosphate (IMP) dehydrogenase obtained from leukemia L1210 cells. The NAD analog is a pseudoir-reversible inhibitor of the enzyme, noncompetitive with either IMP or NAD. The aminothiadiazole mononucleotide has a K1 of about 0.1 muM, is competitive with IMP, and is uncompetitive with NAD: the inhibition appears to be reversible by Ackermann-Potter analysis. A metabolite of [5-14C]aminothiadiazole is formed in L1210 cells in vivo to a level of 0.3 nmole/10(9) cells. Retention volume of the metabolite on a high-pressure liquid chromatography system is the same as that of the aminothiadiazole mononucleotide prepared as described above. These results suggest that IMP dehydrogenase is the site of action for aminothiadiazole metabolites as was indicated by earlier observations. There is no evidence that the NAD analog is formed in vivo. Nicotinamide prevented formation of the mononucleotide in vivo. Therefore, since formation and cleavage of the NAD analog apparently are not the route to the thiadiazole nucleotide, some other pathway for the metabolism of nicotinamide may be involved such as the action of a phosphoribosyltransferase or the sequential action of a nucleoside phosphorylase and a nucleoside kinase.
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PMID:Mechanism of action of 2-amino-1,3,4-thiadiazole (NSC 4728). 18 32

Tiazofurin (TR), an inhibitor of IMP dehydrogenase, causes remissions and induced differentiation in human leukemia through lowering the concentrations of GTP and dGTP. A deoxycytidine analog, difluorodeoxycytidine (DFDC), is an anti-tumor agent phosphorylated by deoxycytidine kinase, resulting in decreased concentration of dCTP, leading to inhibition of DNA synthesis. In HL-60 cells DFDC induced differentiation and inhibited proliferation in a dose-dependent manner (IC50 = 4 nM); TR provided synergism with DFDC. DFDC inhibited proliferation in OVCAR-5 human ovarian carcinoma cells (IC50 = 25 nM) and colony formation in PANC-1 human pancreatic carcinoma cells (IC50 = 2 nM) and rat hepatoma 3924A cells (IC50 = 22 nM). TR and DFDC are synergistically cytotoxic in hepatoma cells and additive in PANC-1 cells. The two drugs together should be helpful in treating leukemias and solid tumors in humans.
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PMID:Synergistic action of tiazofurin and difluorodeoxycytidine on differentiation and cytotoxicity. 134 74

N2-Isobutyryl-2'-deoxyguanosine-N7-cyanoborane derivatives were observed to be potent antineoplastic agents and to be active against a number of human tissue culture tumor cells, e.g. Tmolt3 leukemia, HeLa-S3 uterine carcinoma. Selective agents were active against colon adenocarcinoma, osteosarcoma and glioma growth. These agents preferentially inhibited both DNA and RNA synthesis of L1210 cells. De novo synthesis of purines was significantly inhibited at the regulatory sites of PRPP amido transferase and IMP dehydrogenase. Other sites of inhibition were thymidylate synthetase, OMP decarboxylase and thymidine kinases. The agents also significantly reduced deoxyribonucleotide levels and caused DNA strand scission.
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PMID:The synthesis and anti-neoplastic activity of N2-isobutyryl-2'-deoxyguanosine-N7-cyanoborane derivatives. 149 12

The sugar boronated thymidine nucleoside, 5' -0-[(triphenylphosphine-boryl) carbonyl]-3'-0-acetyl thymidine 1, and the boron-modified nucleoside phosphotriester, 5'-(diethylphosphite- cyanoborane)-3'-acetylthymidine 2, were successfully synthesized. Both compounds demonstrated differential activity when tested against eight cell lines, with significant cytotoxic activity against the growth of human Tmolt3 leukemia, colon adenocarcinoma, HeLa S3 uterine carcinoma, and osteosarcoma cells. In in vivo studies these agents were found to be active against the growth of Ehrlich ascites carcinoma at 8 mg/kg/day I.P. and to be marginally active against the growth of L1210 and Lewis lung cancers in mice. The mode of action of these thymidine derivatives in Tmolt3 cells was the inhibition of DNA and protein synthesis. Compound 2 was highly effective in inhibiting DNA polymerase alpha and m-RNA, r-RNA and t-RNA polymerase activities. Both compounds inhibited ribonucleoside reductase activity. The de novo purine pathway appeared to be the major site of inhibition of the agents, with IMP dehydrogenase, PRPP amido transferase, and dihydrofolate reductase activities being significantly inhibited. In the pyrimidine pathway, carbamyl phosphate synthetase and aspartate transcarbamylase activities were inhibited by 1. As expected, d[NTP] levels were significantly reduced by treatment with the agents. DNA strand scission was evident after incubating Tmolt3 cells for 24 hr with the agents.
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PMID:Antineoplastic activity of boron-containing thymidine nucleosides in Tmolt3 leukemic cells. 150 1

Benzohydroxamic acids proved to be potent cytotoxic agents suppressing the growth of a number of murine and human cell lines grown in tissue culture, e.g. leukemia, colon, uterine and glioma. Selected compounds demonstrated activity against the growth KB nasopharynx, bronchogenic lung, osteosarcoma and skin cancer. In vivo activity against Ehrlich ascites carcinoma growth was shown with certain compounds. In L1210 cells compound 2 inhibited DNA synthesis significantly within 60 min. the site of action of the agent appears to involve the purine de novo synthesis pathway at PRPP amido transferase and IMP dehydrogenase. Dihydrofolate reductase and nucleoside kinase activities were inhibited by the agent. The levels of d(NTP)s in L1210 cells were reduced after drug treatment. The drug did not appear to affect the DNA template directly causing any damage which might alter transcription and replication nor was there any inhibition of HeLa topoisomerase activity by the drug. Thus the drug appears to be a metabolic inhibitor of nucleoside metabolism.
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PMID:The antineoplastic and cytotoxicity of benzohydroxamic acids and related derivatives in murine and human tumor cells. 152 9

2,3-Dihydrophthalazine-1,4-dione derivatives demonstrated potent cytotoxicity against the growth of murine leukemia cells and human single cell suspension, i.e. Tmolt3 leukemia and HeLa-S3, as well as colon adenocarcinoma and KB nasopharynx. However, only select compounds demonstrated activity against bronchogenic lung, osteosarcoma and glioma growth. 2,3-Dihydrophthalazine-1,4-dione was active in vivo against L1210 leukemia, Lewis lung and Ehrlich ascites carcinoma growth. In L1210 cells the agents inhibited both DNA and RNA synthesis, and a few of the compounds were capable of inhibiting protein synthesis at 3 times their ED50 values. When 2,3-dihydrophthalazine-1,4-dione and N-butyl-2,3-dihydrophthalazine-1,4-dione were examined for their mode of action in the L1210 lymphoid leukemia cells, the sites of inhibition by the agents appear to be the de novo purine pathway at the enzymes IMP dehydrogenase and PRPP amido transferase. IMP dehydrogenase activity was inhibited at least 45% by 45 min at 100 microM concentration of drugs whereas the remaining enzymes that were affected by the drugs were not inhibited as early. Secondary sites were dihydrofolate reductase and thymidylate synthetase. The d(NTP) levels were also reduced specifically dATP and dCTP levels.
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PMID:The anti-neoplastic activity of 2,3-dihydrophthalazine-1,4-dione and N-butyl-2,3-dihydrophthalazine-1,4-dione in human and murine tumor cells. 162 17

Inosine monophosphate dehydrogenase (IMPDH, EC 1.1.1.205) inhibitors including mycophenolic acid (MPA) were reported to induce K562 human leukemia cells to differentiate into erythroid cells. A shuttle vector plasmid pMSG containing E. coli xanthine-guanine phosphoribosyl transferase (Eco gpt) gene was transfected into K562 cells (K562-pMSG cells) to investigate the role of IMPDH in both K562 cell proliferation and erythroid differentiation. Eco gpt provides K562 cells with an additional salvage pathway for GMP production from xanthine. In the presence of xanthine, K562-pMSG cells continued to proliferate and did not differentiate to erythroid cells regardless of the presence of MPA, but they discontinued proliferating and differentiated into the erythroid lineage in the absence of xanthine. Proliferation and differentiation of control K562 cells into erythroid cells were suppressed by MPA regardless of the presence or absence of xanthine. Addition of guanosine maintained the proliferation and blocked the erythroid differentiation of K562 and K562-pMSG cells induced by MPA even in the absence of xanthine. These data indicate that a decrease in the activity of IMPDH and a subsequent decline in the concentration of guanine nucleotides caused by MPA resulted in the induction of the erythroid differentiation and discontinuation of the proliferation of K562 cells.
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PMID:E. coli gpt gene expression effects on K562 human leukemia cell proliferation and erythroid differentiation altered by mycophenolic acid. 162 63

The effects of 4-carbamoylimidazolium 5-olate (SM-108), an antipurine compound, on a human leukemia cell line, K562, were studied. Treatment with SM-108 induced erythroid differentiation of K562 cells. During a 6-day culture with 100 microM SM-108, the cell number decreased to 37% of the control number, 77% of the cells became benzidine-positive, and the hemoglobin content increased from 2.1 +/- 0.2 to 10.6 +/- 1.3 pg/cell. Cell differentiation was associated with reduction of IMP dehydrogenase activity and intracellular GTP content to 25 and 36%, respectively, of the control values within 1.5 hr. The differentiation and decrease in the GTP pool induced by SM-108 were blocked by the presence of 25 microM guanine or guanosine. SM-108 also induced erythroid differentiation of K562 subline cells transfected with pMSG (K562/pMSG), which have an additional salvage pathway for GMP production from xanthine. The addition of 100 microM xanthine prevented erythroid differentiation of this subline and restored the GTP pool. These findings suggest that the induction of erythroid differentiation of K562 cells by SM-108 may be due to an early decrease in IMP dehydrogenase activity and a subsequent decrease in GTP content in the cells. Thus, purine metabolism may have an important role in SM-108-induced differentiation.
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PMID:Induction of erythroid differentiation of K562 cells by 4-carbamoylimidazolium 5-olate (SM-108). 168 98

Boron analogues of piperidine, piperazine, morpholine, and imidazole proved to be cytotoxic against the growth of murine and human tissue culture cells. Significant activity was demonstrated for single-cell suspensions of L1210 lymphoid leukemia, Tmolt3 lymphoblastic leukemia, and HeLa-S3 cervical carcinoma. Trimethylamine-imidazole carbonyldihydroborane 17 demonstrated activity against solid tumor growth of human colorectal adenocarcinoma, KB nasopharynx, and osteosarcoma. In addition, 4-methylpiperidine-carbomethoxyborane 12, 2-methylimidazole-3-cyanoborane 16, and 1-methylimidazole-3-(N-ethylcarbamoyl)borane 19 were active against the KB nasopharynx growth. Piperidine-cyanoborane 2, piperidine-carboxyborane 4, and 1-methylimidazole-3-(N-ethylcarbamoyl)borane 19 were effective in reducing the growth of osteosarcoma cells. The imidazole derivatives 13-19, as well as 4-methylpiperidine-carboxyborane 11 and carbomethoxyborane 12, demonstrated good activity against lung bronchogenic and glioma growth. In the in vivo studies, N-methylmorpholine-carboxyborane 7,4-phenylpiperidine-carboxyborane 9, 4-phenylpiperidine-carbomethoxyborane 10, 4-methylpiperidine-carboxyborane 11, imidazole cyanoborane 14, and 1-methylimidazole-3-carbomethoxyborane 18 demonstrated the best activity against Lewis Lung growth and P388 lymphocytic leukemia growth in mice. Mode of action studies in L1210 leukemia cells demonstrated that piperidine-carboxyborane 4 and N-methylmorpholine-carboxyborane 7 inhibited DNA synthesis, purine synthesis at PRPP amido transferase and IMP dehydrogenase sites, and thymidine kinase and thymidine diphosphate kinase activities, while lowering d(NTP) pool levels. Also, DNA strand scission was evident after incubation with these drugs.
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PMID:Synthesis and antineoplastic activity of some cyano-, carboxy-, carbomethoxy-, and carbamoylborane adducts of heterocyclic amines. 181 71

The IMP dehydrogenase inhibitors mycophenolic acid (MPA) and tiazofurin (TZ) induce a time- and dose-dependent inhibition of cell growth, as well as differentiation in T-lymphoid CEM-2 leukemia cells. The differentiated cells have acquired a suppressor/cytotoxic T-lymphocyte phenotype characterized by reactivity with maturation-specific monoclonal antibodies. Coadministration of guanosine and hypoxanthine reduces the growth inhibition and diminishes the induction of differentiation by either MPA or TZ. No such reduction was observed for differentiation induced by phorbol 12-myristate 13-acetate (PMA), another inducer of a suppressor/cytotoxic phenotype in CEM-2 cells. During the first 2 days of treatment with MPA or TZ, a pattern of stable IMPDH mRNA levels and increased amounts of cellular enzyme was observed, perhaps, because of compensation for the inhibitor-mediated decrease in cellular IMPDH activity or a MPA- or TZ-mediated decrease in proteolysis of IMPDH. PMA treatment decreased the levels of IMPDH mRNA, protein, and activity. In addition, treatment of CEM-2 cells with either IMPDH inhibitors or PMA caused different alterations of the ribonucleotide pools. The lack of a consistent pattern of IMPDH expression in CEM-2 cells treated with IMPDH inhibitors or PMA indicates that no general association exists between the induction of cell differentiation and the expression of IMPDH. Nevertheless, our results indicating that IMPDH inhibitors can induce differentiation in CEM-2 cells suggest that this treatment may provide a useful approach to circumvent the differentiation block in some tumor cells.
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PMID:Cell differentiation and altered IMP dehydrogenase expression induced in human T-lymphoblastoid leukemia cells by mycophenolic acid and tiazofurin. 196 83


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