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Query: UMLS:C0027651 (tumor)
 685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The antitumor effects of two new hydrosoluble derivatives of oxygenated sterols: JB69 and JC40 have been evaluated in vitro on a panel of lymphoma and leukemia cells from human and murine origins. These compounds result from the combination of a nucleotide with 7 beta-hydroxycholesterol (JB69) or 7 beta,25-dihydroxycholesterol (JC40). Both derivatives exhibit a significant cytotoxic activity against the different tumor cell lines tested, with some degree of difference between them. On the whole, the concentrations needed to inhibit the cell growth were found to be higher than those required for their parent compounds. However, two interesting features appeared in our experiments. (1) In a serum-free culture medium, cell lysis occurred within the first hours of incubation and seemed to result from the detergent-like properties possessed by this type of compounds. (2) In a culture medium supplemented with serum, we noted, that at high concentrations of JB69 (40 microM or 20 microM) and only with this oxysterol derivative, an important increase of incorporation of tritiated thymidine and uridine into DNA and RNA by viable cells. The origin of this effect is as yet unknown, but it strongly suggests a possible action on nucleic acids synthesis and metabolism. Taken together, these results emphasize the diversity and the complexity of the mechanisms involved in the cytotoxicity of these derivatives of oxysterols.
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PMID:Antiproliferative effects of two hydrosoluble derivatives of oxysterols on cultured lymphoma cells. 169 7

FRTL-5 cells were used to set up a thyroid tumor model system in C3H nu/nu mice. FRTL-5 tumors could be grown in nude mice provided serum TSH levels were elevated. Persistent TSH elevation was obtained by administration of Na131I, rendering the mice hypothyroid. After 4 weeks FRTL-5 cells were injected sc resulting in tumor growth within 2 weeks in eight out of eight mice. Although the tumors showed an apparently undifferentiated histology, lacking normal follicular structures, they were functional since the tumors were capable of concentrating [131]iodine, as demonstrated by nuclear imaging. From one of the tumors a new cell line was isolated (FRTL-5/T) that, like the parental FRTL-5 cell line, was TSH dependent for growth. In a control group of six euthyroid nude mice FRTL-5 tumor growth could not be obtained with one exception. After 3 months one animal developed a small tumor that grew rapidly thereafter. This tumor was easily transplantable in other euthyroid nude mice, showed an undifferentiated histology, and was nonfunctional, as it could not concentrate [131]iodine. From this tumor two cell lines were derived: one cultured in the presence of TSH (FRTL-5/TP) and one in the absence of TSH (FRTL-5/TA). Both cell lines were found to be TSH independent for growth. The cell lines were analyzed for TSH responsive functions and TSH receptor expression. Responsiveness to TSH in FRTL-5/T and the parental FRTL-5 cell line were similar for most thyroid specific functions tested. However, FRTL-5/T was less sensitive than FRTL-5 for TSH induced [3H]thymidine incorporation. Both cell lines had two classes of TSH binding sites with high and low affinity respectively, as determined by Scatchard analysis. FRTL-5/TP and FRTL-5/TA were both able to grow in TSH free medium and were nonresponsive to TSH in vitro, as tested for [3H]thymidine and [3H]uridine incorporation, iodine uptake, thyroglobulin iodination, and thyroglobulin secretion. This correlated with an approximately 100-fold decreased number of TSH binding sites compared to FRTL-5. The latter was caused by a complete absence of low affinity binding sites, whereas high affinity receptors were still detectable. The FRTL-5/TA cell line was the least differentiated one as thyroglobulin mRNA was detectable in only minute amounts and thyroid peroxidase expression could not be measured. These in vivo selected FRTL-5 cell lines offer a suitable model to investigate several aspects of TSH responsiveness, including signal transduction and postreceptor events, thyroid differentiation, and thyroid tumorigenesis.
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PMID:Thyrotropin dependent and independent thyroid cell lines selected from FRTL-5 derived tumors grown in nude mice. 169 96

Anabolism of 5-fluorouracil (5-FU) in the presence of uracil was examined using the cell-free extract of Ehrlich ascites tumor cells. FU-nucleoside formation from 5-FU with ribose 1-phosphate (R-1-P) or 2'-deoxyribose 1-phosphate was not readily inhibited even by the addition of uracil at 100 times higher concentration than 5-FU. FU-nucleotide formation from 5-FU with R-1-P and adenosine 5'-triphosphate or with 5-phosphoribosyl 1-pyrophosphate was slightly reduced as the concentration of uracil was increased. It was also found that 5-fluorouridine (5-FUR) was produced by "nucleoside N-ribosyltransferase," transferring a ribose moiety from uridine (UR) to 5-FU directly. This activity might play a role in the preferential formation of 5-FUR. However, 5-fluoro-2'-deoxyuridine was not produced by directly transferring a deoxyribose moiety. On the basis of several column chromatographies and characterization of kinetics, pH dependency, and response to inhibitors, the enzyme protein of the ribosyltransferase could not be distinguished from that of the phosphorylase.
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PMID:Ribose-transfer activity from uridine to 5-fluorouracil in Ehrlich ascites tumor cells. 169 95

The effect of cis-DDP (cis-diamminedichloroplatinum(II)), trans-DDP (trans-diamminedichloroplatinum(II)), SPC (spermine-platinum(II) complex), and K2PtCl4 on the ribomononucleotide and RNA metabolism was studied. When Ehrlich ascites tumor cells were preincubated with the aforementioned compounds and then labeled with [C14]uridine a clear-cut suppression of the radioactive labeling of RNA was observed. As radioactivity incorporated into the pool of the free uridine nucleotides in the cells treated with platinum compounds was even higher in comparison with that of the non-treated cells a conclusion may be drawn with certainty that the platinum compounds studied inhibit RNA biosynthesis. It was also found that under the effect of these compounds in the in vivo-assessed rate of the conversion of uridine nucleotides into cytidine nucleotides was considerably diminished. Using NaH14CO3 as a radioactive precursor it was shown that platinum compounds also inhibited purine biosynthesis de novo, in particular the conversion of IMP into GMP and AMP. The pronounced inhibitory effect of the platinum compounds on essential steps of the pyrimidine and purine biosynthesis de novo may be at least partly responsible for the firmly established inhibition in the present study of RNA biosynthesis by platinum compounds. The inhibition of the synthesis of the mononucleotides and RNA by the platinum compounds may be closely related to their cytostatic and cytotoxic activities.
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PMID:The effect of some platinum compounds on the biosynthesis of RNA and its precursors. 170 15

Synchronization of mammalian cells is essential for investigations involving cell proliferation. A simple method for obtaining synchrony in all types of cells, through several cycles and with minimal overall metabolic perturbations, has not yet been available. We describe a procedure for synchronizing normal as well as tumor cells reversibly in the G1 phase of the cell cycle using Lovastatin, an inhibitor of 3-hydroxy-3-methylglutaryl-coenzyme A reductase. This method of synchronization was successful with all cell lines tested, including normal and tumor cells of mouse, hamster, and human origins. For example, when MCF-7 human breast cancer cells were synchronized with Lovastatin and released by the addition of mevalonic acid (the product of the reaction catalyzed by 3-hydroxy-3-methylglutaryl-coenzyme A reductase), 3 phases of accelerated thymidine incorporation into DNA corresponding to 3 S phases of the cell cycle occurred during a 90-h period of cell replication. Thymidine incorporation was decreased to less than or equal to 4% during the initial lag of 18 h before the first S phase, and maximum incorporation was then achieved after only 6 h. The antibody Ki-67, which detects a nuclear antigen associated with proliferation, was present in cells arrested with Lovastatin. This fact, together with the lack of thymidine incorporation during the initial lag time, indicates that the cells were arrested in the G1 and not in the G0 phase of the cell cycle. Furthermore, in synchronized tumor-derived human breast epithelial cells, histone H4 RNA was low after Lovastatin release and increased with the onset of DNA synthesis. Concomitant synthesis of DNA and histone H4 RNA expression could be observed for 2 cycles. Minimal perturbations of general metabolic functions occurred since the rate of RNA, protein, and initial DNA synthesis were unaffected by Lovastatin, as evidenced by [3H]uridine, [3H]leucine, and initial [3H]thymidine incorporation. Finally, while the Lovastatin-induced synchronization was overcome by mevalonic acid, addition of squalene or cholesterol-ethanol had no such effect. Thus, Lovastatin appears to prevent formation of an early intermediate in the cholesterol pathway that is essential for progression of cells through early G1 phase.
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PMID:Synchronization of tumor and normal cells from G1 to multiple cell cycles by lovastatin. 171 13

The metabolism of 5-fluorouracil (5-FU) was studied in biopsy specimens of primary colorectal cancer and healthy colonic mucosa obtained from previously untreated patients immediately after surgical removal. The conversion of 5-FU to anabolites was measured under saturating substrate (5-FU) and cosubstrate concentrations. For all enzymes, the activity was about threefold higher in tumor tissue compared with healthy mucosa of the same patient. The activity of pyrimidine nucleoside phosphorylase with deoxyribose-1-phosphate (dRib-1-P) was about tenfold higher (about 130 and 1200 nmol/hr/mg protein in tumors) than with ribose-1-phosphate (Rib-1-P), both in tumor and mucosa. Synthesis of the active nucleotides (5-fluoro-uridine-5'-monophosphate [FUMP] and 5-fluoro-2'-deoxyuridine-5'-monophosphate [FdUMP]) was studied by adding physiologic concentrations of adenosine triphosphate (ATP) to the reaction mixture; the rate of FdUMP synthesis was 50% of that of FUMP (about 4 and 7 nmol/hr/mg protein in tumors). Direct synthesis of FUMP from 5-FU in the presence of 5-phosphoribosyl-1-pyrophosphate (PRPP) was about 2 nmol/hr/mg protein. With the natural substrate for this reaction, orotic acid, the activity was about 14-fold higher. To obtain insight into the recruitment of precursors for these cosubstrates, the authors also tested the enzyme activity of pyrimidine nucleoside phosphorylase with inosine and ribose-5-phosphate (Rib-5-P, as precursors for Rib-1-P) and deoxyinosine (as a precursor for dRib-1-P); enzyme activities were approximately 7%, 7%, and 3%, respectively, of that with the normal substrates, both in tumors and mucosa. However, when ATP and Rib-5-P were combined, the synthesis of FUMP was about 70% of that with PRPP, but only in tumors. In normal tissues no activity was detectable. These data suggest a preference of colon tumor over colon mucosa for the conversion of 5-FU to active nucleotides by a direct pathway; a selective antitumor effect of 5-FU may be related to this difference.
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PMID:A comparison of 5-fluorouracil metabolism in human colorectal cancer and colon mucosa. 171 30

The effects of 5-fluorouracil (FUra) treatment on thymidine kinase (TKase) activity were examined in vivo in CD8F1 mice bearing first generation CD8F1 mouse mammary tumors. TKase activity was not affected by low dose FUra25 (25 mg/kg), a dose which substantially inhibited thymidylate synthase (TSase), but was severely inhibited 24 hr following treatment with FUra100, a weekly maximally tolerated dose, as judged by activity measurements and labeling of DNA with [3H]thymidine. The amount of (FU)RNA was increased markedly with increasing FUra dose from 0.4 nmol/mg DNA at FUra25 to 2.2 nmol/mg DNA at FUra100. At FUra100, TKase activity gradually declined over 24 hr to less than 10% of the control value, remained low for a further 48 hr, and then was gradually restored to control levels by 168 hr. The loss of TKase activity followed the incorporation of FUra into RNA which peaked at 4-5 hr. TKase activity was not restored by removal of endogenous inhibitors but was restored by treatment with uridine. TKase activity was not inhibited by therapeutic levels of methotrexate (300 mg/kg). TKase from murine colon 38 carcinoma was also severely inhibited, but the activity from colon 26 was only partially (50%) inhibited. Ornithine decarboxylase was also inhibited by FUra100 treatment in the CD8F1 tumor. These results demonstrate that certain short-lived, proliferation-related enzymes are affected by FUra doses higher than those required for TSase inhibition, and this effect appears to correlate with incorporation of FUra into RNA. Thus, in some tumors high doses of FUra can inhibit salvage as well as de novo synthesis of thymidylate providing an increased block of DNA synthesis and increased therapeutic advantage.
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PMID:Loss of murine tumor thymidine kinase activity in vivo following 5-fluorouracil (FUra) treatment by incorporation of FUra into RNA. 172 9

A permanent cell line established from a xenograft of neuroblastoma which occurred in a 5-year-old girl was investigated for its morphological and biological characteristics. The cultured cells were tumorigenic in nude mice. Microscopically, each tumor consisted of small round to polygonal cells with irregular nuclei and prominent nucleoli, corresponding to the features of the primary and xenografted tumor cells. Electron microscopic examination revealed that both the transplanted tumor cells and the cultured cells contained scanty microtubules and dense-core neurosecretory granules. Chromosome analysis of this cell line showed monosomy for chromosomes 1, 10, 19 and X, and structural rearrangements involving chromosomes 8, 17 and 20, in addition to numerous double minutes. The N-myc oncogene was found to be amplified 40- to 80-fold in the transplanted and cultured tumor cells, as well as in the primary tumor cells. In situ hybridization with a digoxigenin-labeled uridine-triphosphate N-myc RNA probe detected abundant mRNA in the tumor cells. This neuroblastoma line may become a valuable in vitro experimental model system for studies aimed at better characterization of neuroblastoma.
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PMID:Morphological and cytogenetic characterization and N-myc oncogene analysis of a newly established neuroblastoma cell line. 175 17

The precise location of transcribing rRNA genes within Ehrlich tumor cell nucleoli has been investigated using two approaches: high-resolution autoradiography of cells pulse-labelled with tritiated uridine, varying the exposure time, and in situ-in vitro transcription coupled with an immunogold labelling procedure. When autoradiographic preparations are exposed for a short time, silver grains are found associated almost exclusively with interphasic cell nucleoli. Labelling of extranucleolar areas requires longer exposure. Within the nucleolus, the first sites to be revealed are in the dense fibrillar component. Prolonging exposure increases labelling over the dense fibrillar component, with label becoming more and more apparent over the fibrillar centers. Under these conditions, however, labelling does not extend into the granular component, and no background is observed. Initiation of transcription on ultrathin cell sections occurs preferentially at the borders of condensed chromatin blocks and in their close vicinity. The condensed chromatin areas themselves remain unlabelled. Inside most nucleoli, gold-particle clusters are mainly detected in the fibrillar centers, especially at their periphery, whereas the dense fibrillar component and the granular component remain devoid of label. These results, together with previous observations made on the same cell type, clearly indicate that the fibrillar centers are the sites of rRNA gene transcription in Ehrlich tumor cell nucleoli, while the dense fibrillar component is the site of pre-rRNA accumulation.
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PMID:Distinguishing the sites of pre-rRNA synthesis and accumulation in Ehrlich tumor cell nucleoli. 177 3

Effects of 5-bromo-2-deoxy-uridine (BrdU) and 2-deoxy-D-glucose (2-DG) were studied in exponentially growing transformed mammalian (BHK-21) cells, grown as monolayer. Micronuclei formation as an index of radiation damage was studied by i) cytokinesis block technique from cytochalasin-B induced binucleated cells, and ii) conventional technique. Presence of BrdU (0.8 microM) for nearly 2 cell cycles before gamma-irradiation (2.5 Gy) significantly increased frequencies of cells with micronuclei. Post-irradiation incubation of cultures in liquid holding medium (HBSS) however, reduced micronuclei formation, especially in the BrdU treated cells. Presence of 2-DG (4 hr, equimolar with glucose) in growth as well as liquid holding medium further increased micronuclei frequencies. These observations suggest that radiation induced DNA lesions in BrdU substituted cells, leading to chromosome fragmentation are partly repairable. 2-DG increased cytogenetic damage, possibly by inhibiting the repair of such repairable lesions. Present studies suggest that combination of 2-DG could optimize BrdU-radiation therapy of brain tumors, by reducing the BrdU doses required for tumor radiosensitization.
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PMID:Effects of 5-bromo-2-deoxy-uridine and 2-deoxy-D-glucose on the radiosensitivity of proliferating transformed mammalian cells. 179 65


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