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Query: UMLS:C0025202 (
melanoma
)
69,561
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Levodopa and dopamine are naturally occurring catecholamines with antitumor activity in several experimental tumor systems. Previous studies suggested that their cytotoxic effect was related in part to their inhibitory effect upon
DNA polymerase
. We have examined the effects of levodopa, dopamine, levodopa methyl ester, norepinephrine, and the analog 3,4-dihydroxybenzylamine upon human and murine
melanoma
cells. When exponentially growing cells were exposed to these drugs, a characteristic inhibition of thymidine incorporation was observed with much less inhibition of either uridine or leucine incorporation. In order to ascertain that inhibition was occurring at the level of DNA synthesis, we examined the effects of the drugs upon the incorporation of thymidine triphosphate by permeabilized
melanoma
cells. When
melanoma
cells were permeabilized by lysolecithin, thereby permitting the direct incorporation of labeled thymidine triphosphate, a similar inhibition of incorporation was observed. Dopamine at a concentration of 4.8 microM caused a 50% reduction in incorporation of label. These results suggested that inhibition did occur at the level of DNA synthesis. In the presence of the melanocyte-specific oxidase, tyrosinase, these derivatives are potent inhibitors of isolated
DNA polymerase alpha
with 50% inhibitory concentrations between 1 and 10 microM. The inhibition could be completely prevented by the presence of reducing agents such as dithiothreitol (1.0 mM). The quinols themselves were not inhibitors of
DNA polymerase
. Dopamine analogs represent an interesting class of antitumor agents with inhibitory activity for
DNA polymerase
.
...
PMID:Levodopa and dopamine analogs as DNA polymerase inhibitors and antitumor agents in human melanoma. 676 47
Human
melanoma
cells have been used to evaluate whether stepdown heating (SDH) could increase the effectiveness of long-duration mild hyperthermia (LDMH). The effects of these treatments were also evaluated on cell survival and
DNA polymerase
inactivation. Short treatments (30 min) at 43 degrees C did not result in much SDH effect for subsequent protracted heating at 40 degrees C. The effect on DNA polymerases was also very small. However, heating at 44 degrees C for 30 min had a large SDH heating effect on subsequent heating at 40 degrees C and 41 degrees C. The SDH effect occurred mainly in the first 5-10 h of subsequent LDMH and, at longer heating times, the rate of cell killing was reduced. The 44 degrees C SDH effect was also observed on
DNA polymerase
inactivation. Comparing the degree of cell killing and polymerase inactivation showed a good correlation for the various SDH protocols.
Melanoma
Res 1995 Aug
PMID:Stepdown hyperthermia in human melanoma cells: effects on protracted mild hyperthermia for survival and DNA polymerase inactivation. 749 57
Aphidicolin, an inhibitor of DNA polymerases alpha and delta, is cytotoxic in vitro against tumor cells. The poor solubility of aphidicolin has led to the development of aphidicolin glycinate (AG; NSC 303812), a water soluble ester currently in early clinical trials. The antitumor activity of AG was investigated in a series of transplantable murine tumors in vivo. The drug demonstrated activity against the i.p. implanted B16
melanoma
, producing maximum increased life spans of 75% following i.p. administration every 3 h for three doses on days 1-9. Treatment schedules involving both single injections per day on days 1-9 and multiple injections per day on days 1, 5, and 9 were less effective, indicating that this antitumor activity is schedule dependent. Similarly, greater activity was observed against the i.p. M5076 sarcoma when three daily injections were given on days 1-9 (57% increased life span) than with a single injection either on days 1-9 (36% increased life span) or on days 1, 5, 9, and 13 (inactive). Further scheduling studies in the s.c. M5076 sarcoma model showed that a 7-day infusion was superior to both a 24-h infusion and a 7-day course of three bolus treatments per day. On the assumption that
DNA polymerase
inhibition is the basis for this antitumor activity, inhibition of DNA synthesis in BALB/c x DBA/2 F1 mice was investigated by measuring incorporation of [3H]thymidine (20 microCi, i.v.) into DNA of spleen and jejunum. At 2 h after administration of AG, inhibition of DNA synthesis was dose dependent (median inhibitory dose, 60 mg/kg in both tissues) and was > 99% at 300 mg/kg. The inhibition was rapid in onset; AG (100 mg/kg i.p.) produced maximal (> 98%) inhibition in both tissues at 30 min. Recovery occurred in the intestine within 16 h; in spleen recovery was delayed to 24 h, and was followed by a rebound incorporation at 48 h (203%). A comparison of the inhibition of thymidine incorporation in tumor cells (B16
melanoma
and P388 leukemia) and normal jejunum revealed no significant differences in the extent of inhibition or the rapidity of recovery in these tissues. The rapid recovery of DNA synthesis inhibition supports the use of prolonged infusion schedules in clinical trials, but the lack of evidence of selectivity for tumor cells suggests that AG may be of limited therapeutic value as a single agent. Thus, we evaluated AG in combination with cisplatin in an in vivo model of cisplatin refractory human ovarian cancer.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Antitumor activity and biochemical effects of aphidicolin glycinate (NSC 303812) alone and in combination with cisplatin in vivo. 830 34
Mammalian
DNA polymerase beta
is a DNA repair enzyme expressed constitutively at a low level. In vitro, purified
DNA polymerase
(Pol) beta incorporates the nucleotide analogues 2'-3' deoxycytidine (ddC)-triphosphate and 3'-azido-3'-deoxythymidine (AZT)-triphosphate into DNA, causing chain termination. We have tested the possibility of enhancing the cytotoxicity of these chain terminators against mammalian cells by increasing the level of Pol beta. Chinese hamster ovary AA8 and murine
melanoma
B16 cell lines were stably transfected with rat pol beta cDNA under the control of a viral enhancer/promoter. We found that overexpression of Pol beta sensitized the cells to ddC and AZT. To confirm the role of this polymerase in this process, we prepared cell extracts from the control and Pol beta overexpressing Chinese hamster ovary cell lines and tested in vitro their capacity to incorporate ddC-triphosphate and AZT-triphosphate into DNA. We found that inhibition of DNA replication by both chain terminators was more pronounced when extracts from pol beta-transfected cells were used, providing a direct evidence of the involvement of Pol beta in the sensitization process. In addition, we showed that cotransfection with bacterial or viral thymidine/thymidylate kinase genes enhanced the Pol beta-mediated cytotoxicity of AZT, suggesting that phosphorylation and polymerization activities might be combined to potentiate their respective effects. These observations may be useful for improving therapeutic efficiency of DNA chain terminators.
...
PMID:Overexpression of DNA polymerase beta sensitizes mammalian cells to 2',3'-deoxycytidine and 3'-azido-3'-deoxythymidine. 898 50
We report the sequence of a 4.5-kb cDNA clone isolated from a human
melanoma
library which bears high amino acid sequence identity to the yeast mitochondrial (mt)
DNA polymerase
(Mip1p). This cDNA contains a 3720-bp open reading frame encoding a predicted 140-kDa polypeptide that is 43% identical to Mip1p. The N-terminal part of the sequence contains a 13 glutamine stretch encoded by a CAG trinucleotide repeat which is not found in the other DNA polymerases gamma (Pol gamma). Multiple amino acid sequence alignments with Pol gamma from Saccharomyces cerevisiae, Schizosaccharomyces pombe, Pichia pastoris, Drosophila melanogaster, Xenopus laevis and Mus musculus show that these DNA polymerases form a family strongly conserved from yeast to man and are only loosely related to the Family A DNA polymerases.
...
PMID:Mitochondrial DNA polymerases from yeast to man: a new family of polymerases. 903 26
Carbohydrate tumor-antigens are important tumor markers for diagnosis and functional characteristics of human cancer cells. Detection of these carbohydrate tumor antigens on metastatic cancer cells in blood is a difficult task. We developed a highly sensitive method to detect a cell surface carbohydrate antigen using a hybrid technology referred to as cellular immuno-PCR. This technique uses the human monoclonal antibody (HumAb) L612, specific to a tumor-related antigen (ganglioside) GM3 that is expressed on the cell surface of human tumor cells and not normal cells. L612 coupled to a DNA oligonucleotide for exponential amplification by
DNA polymerase
chain reaction (PCR) can be used to enhance the detection signal. The DNA-HumAb conjugate was assessed for detection of a small number of human cancer cells after PCR amplification and Southern blot analysis. To assess the assay specificity human
melanoma
and other cancer cell lines, as well as healthy donor and
melanoma
patients, bloods were assessed. Cellular immuno-PCR requires < 1 ng/ml DNA-HumAb complex and was shown to have a detection level of < 10 cells in titration studies in which
melanoma
cells were diluted in 2 million healthy donor peripheral blood lymphocytes. The assay was shown to be very sensitive and could detect low levels of GM3 antigen expression by tumor cells. This novel approach for detecting a carbohydrate tumor antigen on tumor cells in blood provides a potential useful clinicopathological assay.
...
PMID:Cellular immuno-PCR. Detection of a carbohydrate tumor marker. 962 47
Immunohistochemical staining of proliferating cell nuclear antigen (PCNA) was performed in skin from patients with various malignant and nonmalignant skin diseases using anti-PCNA monoclonal antibodies. The malignant diseases included squamous cell carcinoma (SCC), adult T lymphotrophic leukemia (ATL), mycosis fungoides,
malignant melanoma
and malignant lymphoma, and the nonmalignant diseases included severe treatment-resistant atopic dermatitis (AD), psoriasis vulgaris, verruca vulgaris, and others. The percentage of PCNA-positive cells (the labeling index, LI) was highest for the malignant diseases (56.5+/-7.1%). The LIs for severe treatment-resistant AD, psoriasis, and verruca vulgaris were also significantly higher than those for the normal control or nonlesional skin of the patients. The PCNA LIs were, however, not significantly elevated in eczema and contact dermatitis. The high PCNA LIs in severe AD and psoriasis vulgaris were considerably lower in the skin improved by treatment. Labeling with Ki67, a nuclear protein expressed in cycling cells, was also performed in skin from subsets of each patient group. The results were very similar to those found with PCNA labeling. PCNA-positive cells were found throughout the dermis as well as the basal layer in the malignant diseases, whereas they were found only in the basal layer in the nonmalignant diseases. The results suggest that in human skin diseases, the extent of staining for PCNA, which is a cofactor of
DNA polymerase
-delta and is essential for cell proliferation, correlates with the extent to which the disease is treatment-resistant. In addition, our findings suggest that the PCNA LI and distribution of PCNA-positive cells in the skin may be helpful in the early diagnosis of skin malignancies.
...
PMID:Immunohistochemical staining of proliferating cell nuclear antigen (PCNA) in malignant and nonmalignant skin diseases. 1048 11
We previously showed that B16
melanoma
cells produce ecotropic
melanoma
-associated retrovirus (MelARV) which encodes a melanoma-associated antigen recognized by MM2-9B6 monoclonal antibody. The biological significance of MelARV in
melanoma
formation remains unknown. We found that infection of normal melanocytes with MelARV resulted in malignant transformation. It is likely that MelARV emerged from the defective Emv-2 provirus, a single copy of ecotropic provirus existing in the genome of C57BL/6 mice. In the present study, we cloned and sequenced the full-length MelARV genome and its insertion sites and we completed sequencing of the Emv-2 provirus. Our data show that MelARV has a typical full-length retroviral genome with high homology (98.54%) to Emv-2, indicating a close relationship between both viruses. MelARV probably emerged as a result of recombination between Emv-2 and an endogenous nonecotropic provirus. Some observed differences in the gag and pol regions of MelARV might account for the restoration of productivity and infectivity of a novel retrovirus that somatically emerged during
melanoma
formation. MelARV does not contain any oncogene and therefore might induce transformation by insertional mutagenesis. We sequenced two insertion sites of MelARV. The first insertion site represents the 3' coding region of the c-maf proto-oncogene at 67.0 centimorgans (cM) on chromosome 8. The c-maf proto-oncogene encodes a basic leucine zipper protein homologous to c-fos and c-jun. Insertion of MelARV in BL6
melanoma
cells resulted in the up-regulation of c-maf. It is noteworthy that the Emv-2 provirus is also inserted into a noncoding region at 61.0 cM on the same chromosome 8. The second insertion site is the 3' noncoding region of the
DNA polymerase gamma
(PolG) gene on chromosome 7. The expression of PolG was not affected by the MelARV insertion. Further investigation of the biological significance of MelARV in
melanoma
formation is being undertaken.
...
PMID:Sequence and insertion sites of murine melanoma-associated retrovirus. 1051 25
DNA polymerase beta
(Pol beta), an error-prone DNA-synthesizing enzyme tightly down-regulated in healthy somatic cells, has been shown to be overexpressed in many human tumors. In this study, we show that treatment with the 2',3'-dideoxycytidine (ddC) nucleoside analog inhibited in vitro and in vivo the proliferation of Pol beta-transfected B16
melanoma
cells, which up-regulate Pol beta compared with control isogenic cells. The administration of ddC also increased specifically the survival of mice bearing Pol beta-overexpressing B16
melanoma
. When the phosphorylated form of ddC was electrotransfered into Pol beta-transfected
melanoma
, the cell growth inhibition was strengthened, strongly suggesting that the cytotoxic effect results from incorporation of the chain terminator into DNA. Using in vitro single- and double-stranded DNA synthesis assays, we demonstrated that excess Pol beta perturbs the replicative machinery, favors ddC-TP incorporation into DNA, and consequently promotes chain termination. Therefore, the use of chain terminator anticancer agents could be suitable for the treatment of tumors with a high level of Pol beta.
...
PMID:Antitumor activity of 2',3'-dideoxycytidine nucleotide analog against tumors up-regulating DNA polymerase beta. 1150 87
The design, synthesis and biological evaluation of novel seco-iso-cyclopropylfurano[2,3-e]indoline (seco-iso-CFI) and the seco-cyclopropyltetrahydrofurano[2,3-f]quinoline (seco-CFQ) analogues of the duocarmycins are described. These novel analogues (4-7) were designed on the premise that the lone pair of electrons on the furano-oxygen atom could enter into conjugation with the isocyclopropylfurano[e]indolone (iso-CFI) alkylating moiety, formed from the loss of HCl in compounds 4-7. The seco-iso-CFI DNA alkylating pharmacophore was synthesized through a well precedented approach of 5-exo-trig aryl radical cyclization with a vinyl chloride. In our studies, in addition to the formation of the seco-iso-CFI product, an equal amount of an unexpected seco-CFQ product was also generated during the radical cyclization reaction. Like CC-1065 and adozelesin, using
Taq DNA polymerase
stop and thermal cleavage assays, the seco-iso-CFI compounds (4 and 6) and the seco-CFQ compounds (5 and 7) were shown to preferentially alkylate the adenine-N3 position within the minor groove of long stretches of A residues. A MM2 energy optimized molecular model of a 1:1 complex of compound 6 with DNA reveals that the iso-CFI compound fits snugly within the minor groove. Using a MTT based experiment, the cytotoxicity of compounds 4-7 were determined against the growth of murine leukemia (L1210), mastocytoma (P815) and
melanoma
(B16) cell lines. The concentrations of compounds required to inhibit the growth of these tumor cells by 50% is in the range of 10(-8)M. These compounds were also tested against a panel of human cancer cells by the National Cancer Institute, demonstrating that the compounds exhibited a high level of activity against selected solid tumors. At a concentration of 0.0084 microM (based on the IC(50) of compound 17 (seco-CBI-TMI) against the growth L1210 cells), while compounds 4 and 17 were toxic against murine bone marrow cells as judged by a colony forming study of freshly isolated murine progenitor hematopoeitic cells, compound 5, a seco-CFQ compound, was significantly less toxic. Flow cytometric analysis of P815 cells that had been incubated for 24h with compounds 4 and 5 at their cytotoxic IC(50) concentrations indicated the induction of apoptosis in a large percentage of cells, thereby suggesting that this might be the mechanism by which the iso-CFI compounds kill cells.
...
PMID:Novel furano analogues of duocarmycin C1 and C2: design, synthesis, and biological evaluation of seco-iso-cyclopropylfurano[2,3-e]indoline (seco-iso-CFI) and seco-cyclopropyltetrahydrofurano[2,3-f]quinoline (seco-CFQ) analogues. 1211 Mar 16
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