Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027651 (tumor)
 685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Steady state mRNA transcript levels of thyroid differentiation markers such as TSH receptor (TSHR), thyroglobulin (Tg) and thyroid peroxidase (TPO) as well as a potential marker of dedifferentiation, c-myc, marker were investigated in patients with thyroid tumors and in normal controls using Northern blot analysis. Blots were normalized by acridine orange staining whereas analysis of beta-actin mRNA levels revealed highly variable levels already in normal tissue suggesting regulation of this "constitutively" expressed gene. Determination of c-myc mRNA revealed increased steady state mRNA levels in anaplastic carcinomas (ATC) as compared to normal tissues. However, in some patients c-myc transcript levels were lower in the tumor than in the adjacent normal tissue reducing the significance of c-myc as a marker of dedifferentiation. High levels of TSH mRNA were found in control thyroids, whereas in ATC no normal TSHR mRNA was detected. In PTC and follicular thyroid carcinomas (FTC) the transcripts varied from increased to markedly reduced levels. In one patient with FTC 2 independent preparations of the tumor revealed different results, undetectable and clearly detectable TSHR mRNA levels. Xenotransplantation of this tissue on nude rats showed a variable expression pattern in the individual xenotransplantations suggesting heterogeneity of the tumor tissue. Tg and TPO mRNA were strongly expressed in normal tissues and completely lost in all ATC. In differentiated thyroid tumors the transcript levels of Tg and TPO varied from normal to complete loss of expression of either Tg or TPO, or both.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Gene expression of differentiation- and dedifferentiation markers in normal and malignant human thyroid tissues. 128 80

The aim of this study was to evaluate whether or not the differences in chromatin structure between diploid stromal cells or lymphocytes, which are often used as DNA ploidy standard, and aneuploid breast tumor cells can significantly affect the estimates of the DNA index of these tumors. To this end, the DNA content estimates of 34 aneuploid breast tumors, differing in size, degree of differentiation, and presence or absence of estrogen and progesterone receptors and metastases, were compared using four common DNA fluorochromes: DAPI, Hoechst 33342, propidium iodide, and acridine orange. These dyes differ in their mode of interaction with DNA (binding to minor groove or intercalation) and for each of them binding to DNA is restricted to a different degree by nuclear proteins. It was expected, therefore, that if differences in chromatin structure play a role in DNA content estimates, the DNA index of the measured tumors may vary depending on the dye. The cell nuclei were isolated from the tumors using a detergent-based procedure and stained with each of the dyes and the DNA index was estimated using peripheral blood lymphocytes as a DNA content standard. For each of the tumors, the DNA index estimates with all four dyes correlated very well. When the results obtained with individual dyes were compared in pairs, the correlation coefficients (r) of DNA indices were all above 0.96 (correlation at p less than 0.001). The best concordance was seen between specimens stained with Hoechst 33342 and DAPI (r = 0.99), and the least between those stained with Hoechst 33342 and propidium iodide (r = 0.96). The data indicate that DNA content analysis of unfixed nuclei, utilizing the above fluorochromes, is not significantly biased by differences in chromatin structure of the measured cells.
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PMID:DNA stainability in aneuploid breast tumors: comparison of four DNA fluorochromes differing in binding properties. 132 30

In an attempt to characterize and overcome tumor cell resistance to amsacrine (m-AMSA), we studied the structure-activity relationships for amsacrine and seven of its analogs. Using the human leukemic cell line, CCRF-CEM, and its derivatives that express either P-glycoprotein (Pgp)-associated multidrug resistance (MDR) (CEM/VLB100) or altered topoisomerase II-associated MDR (at-MDR) (CEM/VM-1), we assessed antitumor effects of these drugs in a 48-hr growth inhibition assay. We also measured drug-topoisomerase II interactions in an intact cell assay that permits quantitation of drug-stabilized DNA-topoisomerase II complexes. We found that among the tested compounds, amsacrine has an intermediate effect on cell growth in all three cell lines. The CEM/VM-1 cells were 8.6-fold cross-resistant to m-AMSA, and the cross-resistance to the analogs was from 3.0- to 10.5-fold. In the CEM/VLB100 cells, the resistance pattern was different: several analogs, including amsacrine, showed little or no cross-resistance (0.5- to 2.8-fold), whereas for those compounds with substituents at position 3 on the acridine ring, resistance was relatively higher (9.9- or 16.2-fold). Substituents at this position substantially decrease the lipophilicity of the two compounds examined, probably because they both contain amino groups that would be charged at physiologic pH. Compound 12489, having a 1'-NHSO2C6H4NH2 substituent, was very potent in the three cell lines, showing only a slightly higher IC50 value in the CEM/VM-1 line and a lower IC50 value in the CEM/VLB100 and in the CEM cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Structure-activity studies of amsacrine analogs in drug resistant human leukemia cell lines expressing either altered DNA topoisomerase II or P-glycoprotein. 136 24

In recent years there has been increasing interest in antimutagenesis, and studies have been done using both prokaryotic and eukaryotic systems. In eukaryotic systems the first studies were performed with different strains of Schizosaccharomyces pombe. In particular, caffeine and L-methionine were investigated. Different strains of Saccharomyces cerevisiae were employed in studies of a wide variety of compounds, including acridine, saccharin, salts, tumor promoters and co-carcinogens. Strain D7 was widely employed and antimutagenic activity of spermine, chlorophyllin, cobaltous chloride and fermented milk is reported.
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PMID:Antimutagenicity in yeast. 137 21

A series of acridine-2- and -4-carboxamide-linked analogues of PtenCl2 has been prepared and evaluated for biological activity against several tumor cell lines in vitro and in vivo. The platinum complexes were generally more cytotoxic than the corresponding ligands against wild-type P388 leukemia cells in vitro, with acridine-4-carboxamide complexes being the more effective. In contrast to cisplatin and PtenCl2, the complexes were equally active in vitro against both wild-type and cisplatin-resistant P388 lines. The 4-carboxamide complexes showed high levels of in vivo activity (ILS greater than 100%) against wild-type P388 using a single-dose protocol, and one compound was also significantly active in vivo in a cisplatin-resistant line, against which cisplatin and PtenCl2 are inactive.
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PMID:DNA-directed alkylating agents. 5. Acridinecarboxamide derivatives of (1,2-diaminoethane)dichloroplatinum(II). 150 Dec 23

Clinical and experimental observations suggest that tumor-induced endothelial cell injury may be one of several initial events in the establishment of tumor metastases. To test this hypothesis, the authors have analyzed the interaction of malignant melanoma (ST-ML-12) multicenter tumor spheroids with endothelial cell monolayers in a three-dimensional coculture system. After 1.5 hours of interaction, the authors observed a toxic effect on endothelial cells in the perispheroid region. The latter was demonstrated by testing membrane integrity with the fluorescent probes acridine orange/ethidium bromide and resulted in sensitivity to shear stress of the damaged cells. The endothelium then underwent a regenerative cycle to replace the denuded halo. Addition of the oxygen radical-scavenging enzyme superoxide dismutase to the culture medium prevented this endothelial cell damage in a dose-dependent manner for up to 12 hours. By contrast, catalase, deferoxamine mesylate, allopurinol, and the proteinase inhibitors soybean trypsin inhibitor and aprotinin were not protective under the same conditions. The endothelial damage was dependent on the attachment of the spheroids. Medium conditioned by ST-ML-12-spheroids proved to be ineffective. A similar, but less prominent, deleterious effect was seen when human peritoneal mesothelial cells were used in place of the human umbilical vein endothelial cells. Spheroids of the uroepithelial cell line HU-609 were used as control. No toxicity was observed in these cocultures. Melanin biosynthesis is associated with the production of oxygen-derived free radicals. The results suggest a possible implication of these free radicals in metastasis formation of malignant melanoma.
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PMID:Interaction of human malignant melanoma (ST-ML-12) tumor spheroids with endothelial cell monolayers. Damage to endothelium by oxygen-derived free radicals. 151 67

Radiation induced damage, i.e., the induction of DNA strand breaks, was studied on the level of single, unlabeled cells. DNA strand breaks were determined by direct partial alkaline unwinding in intact cell nuclei followed by staining with acridine orange, a development of a proposal first described by B. Rydberg (Int J Radiat Biol 46:521-527, 1984). The ratio of green fluorescence (double-stranded DNA) to red fluorescence (single-stranded DNA) in single cells was taken as a measure of DNA strand breaks. CHO-K1 and M3-1 cells irradiated with X-rays show a dose dependent induction of DNA strand breaks. Incubation at 37 degrees C after irradiation leads to repair of breaks. A repair halflife of about 10-11 min can be determined. Cell cycle specific differences in the induction of DNA strand breaks or repair behavior are not detectable at the resolution achieved so far. This new method offers two major advantages: the resolution of DNA damage and repair on the level of single cells and no need for labeling, thereby allowing for DNA damage and repair to be assessed in biopsy material from tumor patients.
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PMID:Assessment of radiation-induced DNA strand breaks and their repair in unlabeled cells. 154 56

Tumour cells possess a cell surface protease which is recognised and inhibited by a cytoplasmic protein extractable from frozen sections of tumour cells. In order to prepare sections with tumour cells carrying cell surface-bound native protease in the absence of this internal inhibitor we have used a reversible competitive inhibition step as a temporary measure to protect the active centre of GB whilst the cytoplasmic inhibitor is extracted from the frozen sections. These sections are described as protected in the sense that the enzyme is native and fully functional now that potential inhibitors have been extracted. The protected cell surface protease immobilised in the cell surface of squamous cell carcinoma cells has been used as the target for inhibition studies and displacement studies. The ability to follow these inhibition and exchange reactions concerning the cell surface protease has been made possible by virtue of the fluorescent probe, 9-amino acridine, which locates the active centre of the protease. Cells with active protease bind 9-amino acridine and fluoresce yellow; cells lacking this protease or having inhibited protease fail to bind 9-amino acridine and do not fluoresce.
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PMID:Temporary competitive inhibition of a tumour cell surface protease as a protective mechanism in the preparation of the membrane bound native enzyme in the presence of excess cytoplasmic inhibitors. 166 39

17 alpha-Ethinylestradiol (EE2)-mediated promotion of diethylnitrosamine (DEN)-initiated liver tumors was evaluated in distinct hepatocyte subpopulations. Our initiation-promotion regime consisted of a single dose of DEN (200 mg/kg) to ovariectomized rats, followed by chronic exposure to EE2 (90 micrograms/kg/day for 30 weeks). We observed significant increases in liver and uterine organ wts which were associated with liver tumor formation. Isolated hepatocytes were separated by elutriation into seven subpopulations. The early eluting subpopulations consisted of a greater proportion of diploid cells and they exhibited a preferential uptake of acridine orange, which is characteristic of periportal cells. With the increasing order of elutriated fractions, hepatocyte subpopulations of tetraploid and octaploid cells were obtained. Elutriation revealed that EE2 promotion enhanced nuclear estrogen receptor levels (3-fold) and gamma-glutamyltranspeptidase activity (5-fold) to a greater extent in the early eluting diploid subpopulations (1 and 2), even though total estrogen receptor (ER) levels were higher in the later eluting subpopulations. The stimulatory effect of EE2 on ER levels was associated with an increased ER occupancy in all subpopulations, although the effect was greatest in the later eluting fractions. Chronic EE2 exposure induced the emergence of new hepatocyte populations within fractions 6 and 7. Enhanced cell growth was observed in the DEN/EE2-derived hepatocytes by flow cytometric measurements of DNA synthesis. The new populations of altered cells expressed high levels of epidermal growth factor receptor (EGFR), with 90% of the cells positive for EGFR-antibody. In summary, our data demonstrate that many effects of EE2 on hepatocyte pathways involved in growth control occur in nearly all populations of cells, derived by elutriation although some effects such as the emergence of an EGFR-enriched population of hepatocytes are localized in specific populations.
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PMID:Estrogen receptor, epidermal growth factor receptor and cellular ploidy in elutriated subpopulations of hepatocytes during liver tumor promotion by 17 alpha-ethinylestradiol in rats. 167 26

Normal and tumor-bearing host (TBH) peritoneal macrophage (M phi) responses to in vitro lipopolysaccharide (LPS) treatment were measured by assessing functional and phenotypic changes. Both normal and TBH untreated M phi suppressed mixed lymphocyte reaction (MLR) reactivity at all concentrations. Normal host M phi treated with LPS for 3 h were suppressive at all concentrations. TBH M phi treated with LPS for 3 h were not suppressive in the MLR until more than 5% were added. Surprisingly, 24 h treatment of normal and TBH M phi with LPS induced cells that significantly enhanced MLR reactivity when added at 2% or 5%. These cells were not suppressive until a 20% M phi concentration was reached. LPS treatment of normal and TBH M phi changed the percentage of cells expressing the surface markers Mac-1, -2, -3, and Ia as determined by flow cytometry. Normal host peritoneal M phi treated with LPS for 3 h had decreased Mac-1 and -3 expression, but there was no change in Mac-2 or Ia. Plating for 24 h did not change the percentage of M phi expressing Mac-1, -3, or Ia but did cause an increase in Mac-2+ M phi. Treatment of normal host M phi with LPS for 24 h led to a decrease in Mac-1+ and Ia+ M phi, no change in Mac-3+ M phi, but an increase in Mac-2+ M phi. LPS treatment of TBH M phi for 3 h decreased the number of Mac-1+ M phi, but Mac-2+, -3+, or Ia+ M phi numbers did not change. Plating TBH M phi for 24 h caused a decrease in the number of Mac-1+ M phi, no change in Mac-3+ or Ia+ M phi, but an increase in Mac-2+ M phi. Treatment with LPS for 24 h led to no change in the number of Mac-1+, -3+, or Ia+ TBH M phi, but Mac-2+ M phi increased. The phenotypic and functional changes after LPS treatment led us to ask if these changes were detectable at the level of DNA and RNA. Flow cytometric analysis of acridine orange-stained M phi was used to measure DNA and RNA levels. This analysis determines M phi cell-cycle kinetics and estimates their RNA synthesis. In normal host M phi, a 3-h LPS treatment caused a decrease of cells in G0/G1 but an insignificant change in RNA levels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Normal and tumor-bearing host macrophage responses: variability in accessory function, surface markers, and cell-cycle kinetics. 169 10


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