Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0029463 (osteosarcoma)
 16,637 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A series of acyclic nucleoside analogues of 5'-O-tritylthymidine have been synthesized and evaluated as potential human mitochondrial thymidine kinase (TK-2) inhibitors. In this series, the sugar moiety of the parent 5'-O-tritylthymidine has been replaced by aliphatic chains including (E)- and (Z)-butenol, butynol, or butanol. Among them the (Z)-butenyl derivative (10) showed an IC(50) against TK-2 of 1.5 microM, being 1 order of magnitude more potent than the parent 5'-O-tritylthymidine. This lead compound has been further modified by replacing the thymine base by other pyrimidine bases such as 5-iodouracil, 5-ethyluracil, 5-methylcytosine, 3-N-methylthymine, or 5,6-dihydrothymine, as well as by the purine base guanine. The trityl group has also been replaced by different aliphatic and aromatic acyl moieties including tert-butylacetyl, hexanoyl, decanoyl, and diphenylacetyl moieties. The evaluation of the compounds against TK-2 and the phylogenetically close HSV-1 TK has shown that the base moiety plays a crucial role in their interaction against these pyrimidine nucleoside kinases. Also, the presence of a lipophilic substituent, preferentially an aromatic moiety such as diphenylmethyl or triphenylmethyl, is required for efficient TK-2 inhibition. Whereas some compounds showed marked specificity for either TK-2 (i.e, the 5,6-dihydrothymine derivative, 26) or HSV-1 TK (i.e., the butynyl derivative, 11), some others, including the (Z)-and (E)-butenyl derivatives 10 and 12, showed significant inhibition against both enzymes. They also proved to be inhibitory against HSV-1 TK in intact human osteosarcoma cells that were transduced with the HSV-1 TK gene.
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PMID:Acyclic nucleoside analogues as novel inhibitors of human mitochondrial thymidine kinase. 1221 66

The conformationally locked nucleoside, (north)-methanocarbathymine (1a), is a potent and selective anti-herpes agent effective against herpes simplex type 1 (HSV1) and type 2 (HSV2) viruses. Hereby, we report on the synthesis and biological evaluation of a small set of 5-substituted pyrimidine nucleosides belonging to the same class of bicyclo[3.1.0]hexane nucleosides. Both the 5-bromovinyl (4) and the 5-bromo analogue (3) appeared to be exclusive substrates of HSV1 thymidine kinase (TK), contrasting with the 5-iodo analogue (2), which was significantly phosphorylated by the human cytosolic TK. The binding affinity constant and catalytic turnover for HSV1 TK were measured to assess the influence of the substitution on these parameters. In the plaque reduction and cytotoxicity assays, the 5-bromo analogue (3) showed good activity against HSV1 and HSV2 with less general toxicity than 1a. Against varicella-zoster virus (VZV), the north-locked 5-bromovinyl analogue (4) proved to be as potent as its conformationally unlocked 2'-deoxyriboside equivalent BVDU. The three compounds were also tested in vitro as prodrugs used in a gene therapy context on three osteosarcoma cell lines, either deficient in TK (TK(-)), nontransduced, or stably transduced with HSV1 TK. The 5-iodo compound (2, CC(50) 25 +/- 7 microM) was more efficient than ganciclovir (GCV, CC(50) 75 +/- 35 microM) in inhibiting growth of HSV1-TK transfected cells and less inhibitory than GCV toward TK(-) cells, whereas compound 3 inhibited transfected and nontransfected cell lines in a relatively similar dose-dependent manner.
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PMID:Synthesis and biological evaluation of 5-substituted derivatives of the potent antiherpes agent (north)-methanocarbathymine. 1458 54

Since de-novo synthesis of pyrimidine nucleotides is coupled to the mitochondrial respiratory chain (RC) via dehydroorotic acid dehydrogenase (DHODH), respiratory chain dysfunction should impair pyrimidine synthesis. To investigate this, we used specific RC inhibitors, Antimycin A and Rotenone, to treat primary human keratinocytes and 143B cells, a human osteosarcoma cell line, in culture. This resulted in severe impairment of de novo pyrimidine nucleotide synthesis. The effects of RC inhibition were not restricted to pyrimidine synthesis, but concerned purine nucleotides, too. While the total amount of purine nucleotides was not diminished, they were significantly broken down from triphosphates to monophosphates, reflecting impaired mitochondrial ATP regeneration. The effect of Rotenone was similar to that of Antimycin A. This was surprising since Rotenone inhibits complex I of the respiratory chain, which is upstream of ubiquinone where DHODH interacts with the RC. In order to avoid unspecific effects of Rotenone, we examined the consequences of a mitochondrial DNA mutation that causes a specific complex I defect. The effect was much less pronounced than with Rotenone, suggesting that complex I inhibiton cannot fully explain the marked effect of Rotenone on pyrimidine nucleotide synthesis.
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PMID:Severe impairment of nucleotide synthesis through inhibition of mitochondrial respiration. 1557 Dec 45

The absence of any formally licensed antiadenovirus drugs and the increasing incidence of life-threatening adenovirus infections in immunosuppressed patients warrant the development of effective antiadenovirus compounds. A detailed study was performed on the antiadenovirus activities of several classes of nucleoside and nucleotide analogues in human embryonic lung fibroblast cells. The antiadenovirus activities were evaluated by three methods, viz., evaluating the adenoviral cytopathic effect, monitoring cell viability by a colorimetric assay, and real-time PCR quantitation of viral DNA as a direct parameter for virus replication. The most active and selective compounds were the acyclic nucleoside phosphonate analogues cidofovir, its adenine analogue (S)-9-(3-hydroxy-2-phosphonylmethoxypropyl)adenine [(S)-HPMPA], and the new derivative (S)-2,4-diamino-6-[3-hydroxy-2-(phosphonomethoxy)propoxy]pyrimidine [(S)-HPMPO-DAPy]; the N7-substituted acyclic derivative 2-amino-7-(1,3-dihydroxy-2-propoxymethyl)purine (S-2242); and the 2',3'-dideoxynucleoside analogues zalcitabine and alovudine. No antiadenovirus activity was observed for the antiviral drugs ribavirin, foscarnet, acyclovir, penciclovir, and brivudin, while ganciclovir displayed modest activity. However, in human osteosarcoma cells transfected with herpes simplex virus thymidine kinase, ganciclovir demonstrated highly potent antiadenovirus activity, suggesting that the efficacy of ganciclovir against adenovirus is limited by inefficient phosphorylation in adenovirus-infected cells, rather than by insufficient inhibition at the viral DNA polymerase level. Collectively, our antiviral data show that the adenovirus DNA polymerase exhibits sensitivity to a relatively broad spectrum of inhibitors and should be studied further as an antiviral target in antiadenovirus drug development programs.
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PMID:Antiadenovirus activities of several classes of nucleoside and nucleotide analogues. 1572 96

The urokinase-type plasminogen activator (uPA) receptor (uPAR) has been implicated in signal transduction and biological processes including cancer metastasis, angiogenesis, cell migration, and wound healing. It is a specific cell surface receptor for its ligand uPA, which catalyzes the formation of plasmin from plasminogen, thereby activating the proteolytic cascade that contributes to the breakdown of extracellular matrix, a key step in cancer metastasis. We have synthesized three different DNA enzymes (Dz372, Dz483 and Dz720) targeting uPAR mRNA at three separate purine (A or G)-pyrimidine (U or C) junctions. Two of these DNAzymes, Dz483 and Dz720, cleaved uPAR transcript in vitro with high efficacy and specificity at a molar ratio (uPAR to Dz) as low as 1 : 0.2. When analyzed over 2 h with a 200-fold molar excess of DNAzymes to uPAR transcript, Dz720 and Dz483 were able to decrease uPAR transcript in vitro by approximately 93% and approximately 84%, respectively. They also showed an ability to cleave uPAR mRNA in the human osteosarcoma cell line Saos-2 after transfection. The DNAzyme Dz720 decreased uPAR mRNA within 4 h of transfection, and inhibited uPAR protein concentrations by 55% in Saos-2 cells. The decrease in uPAR mRNA and protein concentrations caused by Dz720 significantly suppressed Saos-2 cell invasion as assessed by an in vitro Matrigel assay. The use of DNAzyme methodology adds a new potential clinical agent for decreasing uPAR mRNA expression and inhibiting cancer invasion and metastasis.
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PMID:Inhibition of urokinase receptor gene expression and cell invasion by anti-uPAR DNAzymes in osteosarcoma cells. 1600 57

DNA repair defects can predispose to cancer development and progression. We previously showed that the breast and ovarian cancer susceptibility gene product BRCA1, through p53, upregulates expression of the XPE gene DDB2 encoding the nucleotide excision repair protein p 48. Both XPE and XPC are p53 target genes containing p53 response elements. To further explore the role of BRCA1 and p53 in repair of photoproducts, we eliminated wild type p53 from U2OS osteosarcoma cells and found that cyclobutane pyrimidine dimer (CPD) repair was markedly impaired following UV damage whereas repair of 6-4 photoproduct (6-4 PP) occurred efficiently. Overexpression of p53 in p53-null Calu-6 cells also enhanced CPD repair. In HCC1937 breast cancer cells, harboring mutant BRCA1 and p53 genes, repair of CPD was markedly impaired. Reintroduction of either p53 or BRCA1 using adenovirus vectors into HCC1937 alone had little effect on repair of CPD whereas the combination of p53 and BRCA1 resulted in efficient repair of CPD. Thus there appears to be a cooperative effect between p53 and BRCA1 that may involve induction of repair proteins, inhibition of p53-induced cell death by BRCA1 with altered p53 selectivity towards repair pathways and/or p53-independent effects of BRCA1 on CPD repair.
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PMID:Cooperation between BRCA1 and p53 in repair of cyclobutane pyrimidine dimers. 1635 11

The multisubstrate deoxyribonucleoside kinase of Drosophila melanogaster (Dm-dNK) is investigated for possible use as a suicide gene in combined gene/chemotherapy of cancer. The enzyme has broader substrate specificity and higher catalytic rate compared to herpes simplex type 1 thymidine kinase and other known dNKs. Although the enzyme has broad substrate specificity, it has a preference for pyrimidine nucleosides and nucleoside analogs. We have evaluated the substrate specificity and kinetic properties of Dm-dNK proteins containing M88R, V84A+M88R or V84A+M88R+A110D mutations in the amino-acid sequence. These engineered enzymes showed a relative increase in phosphorylation of purine nucleoside analogs such as ganciclovir, 9-beta-D-arabinofuranosylguanine and 2',2'-difluorodeoxyguanosine compared to the wild-type enzyme. The mutant enzymes were expressed in an osteosarcoma thymidine kinase-deficient cell line and the sensitivity of the cell line to nucleoside analogs was determined. The cells expressing the M88R mutant enzyme showed the highest increased sensitivity to purine nucleoside analogs with 8- to 80-fold decreased inhibition constant IC(50) compared to untransduced control cells or cells expressing the wild-type nucleoside kinase. In summary, our data show that enzyme engineering can be used to shift the substrate specificity of the Dm-dNK to selectively increase the sensitivity of cells expressing the enzyme to purine nucleoside analogs.
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PMID:Enhanced toxicity of purine nucleoside analogs in cells expressing Drosophila melanogaster nucleoside kinase mutants. 1688 99

The multisubstrate deoxyribonucleoside kinase from Drosophila melanogaster deoxyribonucleoside kinase (Dm-dNK) is studied as a candidate suicide gene for applications in combined gene/chemotherapy of cancer. We have created an engineered Dm-dNK nucleoside kinase that is targeted to the mitochondrial matrix. The enzyme was expressed in a thymidine kinase 1-deficient osteosarcoma cell line, and the sensitivity of the cells to cytotoxic nucleoside analogs was determined when the enzyme was targeted to either the nucleus or the mitochondrial matrix. Although the total deoxythymidine (dThd) phosphorylation activity was similar in cells expressing Dm-dNK in the nucleus or in the mitochondria, the cells expressing the enzyme in the mitochondria showed higher sensitivity to the antiproliferative activity of several pyrimidine nucleoside analogs, such as (E)-5-(2-bromovinyl)-2'-deoxyuridine, 5-bromo-2'-deoxyuridine, and 5-fluoro-2'-deoxyuridine. Labeling studies using [3H]dThd showed that the cells expressing the mitochondrial enzyme had an increased incorporation of [3H]dThd into DNA, shown to be due to a higher [3H]dTTP specific activity of the total dTTP pool in the cells in which Dm-dNK was targeted to the mitochondria. The difference in the specific activity of the dTTP pool is a result of different contributions of the de novo and the salvage pathways for the dTTP synthesis in transduced cells. In summary, these findings suggest that mitochondrial targeting of Dm-dNK facilitates nucleoside and nucleoside analog phosphorylation and could be used as a strategy to enhance the efficacy of nucleoside analog phosphorylation and concomitantly their cytostatic potential.
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PMID:Mitochondrial expression of the Drosophila melanogaster multisubstrate deoxyribonucleoside kinase. 1785 55

Osteosarcoma is the most frequent primitive malignant tumor of the skeletal system, characterized by an extremely aggressive clinical course that still lacks an effective treatment. Src kinase seems to be involved in the osteosarcoma malignant phenotype. We show that the treatment of human osteosarcoma cell lines with a new pyrazolo[3,4-d]pyrimidine derivative Src inhibitor, namely SI-83, impaired cell viability, with a half-maximal inhibitory concentration of 12 microM in nonstarved cells and a kinetic different from that known for the Src inhibitor PP2. Analysis by terminal deoxynucleotidyl transferase-mediated nick end labeling, Hoechst, and flow cytometric assay showed that SI-83 induced apoptosis in SaOS-2 cells. Moreover, SI-83, by inhibiting Src phosphorylation, decreased in vivo osteosarcoma tumor mass in a mouse model. Finally, SI-83 showed selectivity for osteosarcoma, since it had a far lower effect in primary human osteoblasts. These results show that human osteosarcoma had Src-dependent proliferation and that modulation of Src activity may be a therapeutic target of this new compound with low toxicity for nonneoplastic cells.
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PMID:Antiproliferative and proapoptotic activities of new pyrazolo[3,4-d]pyrimidine derivative Src kinase inhibitors in human osteosarcoma cells. 1817 92

A library of 23 pyrazolo-pyrimidine compounds Src tyrosine kinase (TK) inhibitors, that reduced proliferation of a human osteogenic sarcoma cell line, was taken to investigate lack of correlation between inhibition of cellular viability (CV%) and enzymatic inhibition constants (K(i) Src). With the aim of understanding this behaviour, we focused on physico-chemical parameters which characterize partition coefficient and diffusion through membrane. Parallel artificial membrane permeability assay (PAMPA) has been frequently used for the evaluation of in vitro permeability of new chemical entities and, in this paper, a new approach for determining permeability of low soluble compounds was obtained. Goodness of PAMPA methodology was confirmed by logK(w) and computational approaches, by VolSurf, Cerius(2) and QikProp software programs. The results suggest that the lipophilicity and passive diffusion across the membranes do not significantly influence the activity of the compounds. This trend can be explained by a different target for some of the compounds in our set. In fact some compounds resulted also to be active toward Abl enzyme, another cytoplasmatic TK.
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PMID:Determination of permeability and lipophilicity of pyrazolo-pyrimidine tyrosine kinase inhibitors and correlation with biological data. 1941 Mar 38


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