Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0025202 (melanoma)
 69,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cationic lipophilic compounds have an antiproliferative effect on certain tumour systems in vitro and in vivo. We have investigated whether the cationic lipophilic compound dequalinium affects not only proliferation but also motility and invasion of the highly metastatic and highly invasive melanoma cell line K1735-M2. Proliferation was assessed in monolayer cultures and in multicellular spheroids, motility was estimated in the assay of directional migration, and invasiveness was tested through confrontation cultures of tumour multicellular spheroids with embryonic chick heart tissue evaluated by computerized image analysis. 2 mumol/l dequalinium impaired melanoma cell proliferation, reduced directional migration and significantly blocked invasion in vitro. On the ultrastructural level, dequalinium caused obvious changes in mitochondria of both melanoma and embryonic chick heart cells. The mechanisms of the antiproliferative, antimigrating and antiinvasive effects remain to be determined. Inhibition of protein kinase C, calmodulin antagonism, DNA intercalation and/or direct effects on mitochondrial functions may be considered.
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PMID:Effect of dequalinium on K1735-M2 melanoma cell growth, directional migration and invasion in vitro. 144 29

Antiproliferative activities of combinations of semisynthetic plasmanyl-(N-acyl)-ethanolamine [PNAE(s)], an inhibitor of protein kinase C, with two antitumor complexes of platinum (II) [cisplatin and ammine(cyclopentylamine)-S-(-)-malatoplatinum (cycloplatam)] were investigated. The exposure of human melanoma BRO cells in culture simultaneously with cisplatin (1-10 microM) and PNAE(s) (100 microM-1 mM) in a molar ratio of 1/100 for 24 h induced a considerable decrease in the ability of these cells to incorporate [3H]thymidine into DNA. A considerable antiproliferative synergism of these agents was observed. The effect of cycloplatam/PNAE(s) combination in similar experiments was significantly different from cisplatin/PNAE(s), i.e. interaction of these agents was complex and synergism was not found.
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PMID:Antiproliferative effect of complexes of platinum (II) with plasmanyl-(N-acyl)-ethanolamine, an inhibitor of protein kinase C. 145 Apr 46

Novel derivatives of K-252a, (8R*,9S*,11S*)-(-)-9-hydroxy-9-methoxycarbonyl- 8-methyl-2,3,9,10-tetrahydro-8,11-epoxy-1H,8H,11H-2,7b,11a-triazadibe nzo[a,g]-cycloocta[cde]trinden-1-one, an inhibitor of protein kinases and calmodulin-dependent phosphodiesterase, were synthesized and evaluated for their antitumor activity in vitro and in vivo. Of ten derivatives tested, four were active against the P388 murine leukemia i.p.-i.p. system, although K-252a was inactive. Among these derivatives, KT6124 was selected for further biological evaluation studies because its efficacy was the highest. KT6124 was also active against sarcoma 180 and B16 melanoma. It exerted a relatively broad spectrum of antiproliferative activity against 20 human tumor cell lines in vitro. To determine the mechanism(s) of action underlying the antitumor activity of KT6124, we tested the drug for inhibition of protein kinases, including Ca(2+)- and phospholipid-dependent protein kinase (PKC), in intact A431 human epidermoid carcinoma cells in comparison with the PKC-inhibitory activity of K-252a. KT6124 did not antagonize the action of phorbol 12-myristate 13-acetate (PMA) in A431 cells, whereas K-252a did, suggesting that KT6124 may not act on protein kinases in the cells. The interaction of KT6124 with DNA in living cells was examined by the alkaline elution method. KT6124 apparently exhibited DNA scission both dose- and time-dependently in the target cells. The DNA breakage was dependent on proteinase K treatment, suggesting its possible interaction with DNA-related enzyme(s). These results indicate that KT6124 exerts antitumor activity by acting on DNA or on DNA-related enzyme(s) in tumor cells rather than via the inhibition of protein kinases.
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PMID:Antitumor effect of KT6124, a novel derivative of protein kinase inhibitor K-252a, and its mechanism of action. 153 71

We have previously shown that the retinoic acid (RA)-induced growth arrest and differentiation of B16 mouse melanoma cells is accompanied by a large increase in the amount and activity of protein kinase C (PKC). Since PKC is a multigene family, we investigated which isoforms were expressed in control and RA-treated B16 melanoma cells, and characterized the manner by which RA regulates PKC gene expression. We found that RA treatment of B16 cells resulted in an increase in PKC alpha mRNA beginning at 4-8 h and reached a maximum of 10- to 12-fold over control levels by 48 h. There was also a small amount of PKC gamma mRNA, present only in 48-h RA-treated cells, but no PKC beta mRNA was detected. The effect of RA on PKC alpha mRNA induction was not direct since the induction was abolished when cycloheximide was included in the incubation medium. Nuclear run-on experiments showed that the RA-induced increase in PKC alpha steady-state mRNA was not entirely due to an increase in transcriptional activity, as the increase in PKC alpha transcription was only 2- to 3-fold over control, which is not enough to account for the 10- to 15-fold increase in steady state levels. There was also no change in PKC alpha mRNA stability in RA-treated B16 cells compared to untreated cells. The 10.9-kb PKC alpha message in both control and RA-treated cells was less stable than the 3.8-kb PKC alpha message. Therefore, we propose that the major level of control of PKC alpha mRNA levels by RA is post-transcriptional, either RNA processing or transport out of the nucleus.
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PMID:Regulation of protein kinase C gene expression by retinoic acid in B16 mouse melanoma cells. 155 Mar 38

Bryostatin 1, a potent activator of protein kinase C, has antitumor activity against murine lymphoma, leukemia, and melanoma. In vitro, this compound stimulates the release of gamma-interferon, interleukins, and hematopoietic growth factors from accessory cells and activates both T- and B-cells. Bryostatin 1 is also able to stimulate neutrophils to undergo oxidative burst and degranulation. Because of the ability of this compound to stimulate the immune system, cause release of immune mediators, and activate neutrophils, we have examined its effect on bacterial infection by using the gram-negative bacterium Salmonella typhimurium in mice. We find that animals given injections i.v. of S. typhimurium have a shortened life span if they are also given injections i.p. of nonlethal doses of bryostatin 1. There is a dose-response relationship with 100 micrograms/kg bryostatin 1 having a greater effect on survival than 40 micrograms/kg. Below 40 micrograms/kg there are no effects on survival. Analysis of the first 4 h of Salmonella infection demonstrates that bryostatin 1 does not affect the blood clearance of the bacterium. However, by day 2 of infection greater numbers of bacteria are found in the livers and spleens of mice given injections of bryostatin 1. By day 5, 10-fold more S. typhimurium bacteria are found in the livers and spleens of mice receiving 40 micrograms/kg of bryostatin 1. To determine whether bryostatin 1 was affecting growth or causing the death of bacteria, we used a Salmonella carrying a plasmid which has a temperature-sensitive origin of replication and is unable to replicate when the bacteria are in mice. This experiment demonstrates that bryostatin 1 represses bacterial killing but does not affect bacterial growth. Bryostatin 1 given i.p. stimulates a transient syndrome of weight loss and diarrhea from which the mice recover and regain weight, suggesting that bryostatin 1 may release a number of important humoral mediators in vivo. The weight loss is exacerbated by Salmonella infection with mice receiving bryostatin 1 and S. typhimurium, in that they lose approximately 33% of body weight prior to death. Thus, at doses used to treat murine tumors, bryostatin 1 treatment does not affect the clearance of S. typhimurium from the blood but does decrease the killing of bacteria in the liver and spleen, leading to early animal death. Such potential effects of bryostatin 1 on the outcome of bacterial infections should be evaluated in ongoing human trials of this agent.
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PMID:In vivo administration of bryostatin 1, a protein kinase C activator, decreases murine resistance to Salmonella typhimurium. 155 18

Differentiation of B16 mouse melanoma cells induced by retinoic acid (RA) is preceded by a large increase in protein kinase C alpha (PKC alpha) mRNA and protein. To determine the role of PKC alpha in the differentiation program, we stably transfected B16-F1 cells with a plasmid containing the full length PKC alpha cDNA driven by an SV40 promoter. Two out of thirty-two colonies screened were determined to overexpress PKC by 2-4-fold according to Western blot analysis and PKC enzyme activity. When compared to control cells (wild-type cells and cells transfected only with the neomycin resistance gene), PKC alpha overexpressing clones displayed longer doubling times, diminished anchorage-independent growth, and increased melanin production. RA treatment of control cells mimicked these phenotypic characteristics. When injected subcutaneously into syngeneic mice, PKC alpha overexpressing clones produced smaller tumors and had longer latencies than control cells. These findings, combined with the fact that phorbol esters down-regulate PKC and antagonize RA action suggest that PKC alpha plays a key role in the RA-induced melanoma differentiation.
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PMID:Increased expression of protein kinase C alpha plays a key role in retinoic acid-induced melanoma differentiation. 161 38

To investigate the role of protein kinase C (PKC) in the 12-O-tetradecanoylphorbol-13-acetate (TPA)-dependent growth of human melanocytes, we analyzed the effects of phorbol ester treatment on both PKC expression and growth control in these cells. We found that established cultures of normal melanocytes contain the PKC alpha, PKC beta, and PKC epsilon isoforms. The abilities of various phorbol ester compounds to stimulate DNA synthesis in these cultured melanocytes correlated with their known potencies for activation of PKC and tumor promotion. Dose-response studies revealed that the most effective TPA concentration for stimulation of DNA synthesis and growth of melanocytes (10 ng/ml TPA) also supported a relatively high level of PKC enzyme activity, increased membrane association of the PKC alpha and PKC epsilon isoforms, and led to a high level of phosphorylation of a major PKC substrate, the myristoylated alanine-rich C kinase substrate (MARCKS) protein. Melanocytes incubated for 48 h with TPA at a higher concentration (100 ng/ml TPA) exhibited suboptimal TPA-stimulated DNA synthesis (28% of maximal) and decreased phosphorylation of the MARCKS substrate protein (50% of maximal). Furthermore, treatment of melanocytes with 100 ng/ml TPA for 48 h resulted in a marked decrease in total PKC enzyme activity and the loss of expression of the PKC alpha and PKC epsilon isoforms in both the cytosol and membrane-bound fractions, when examined by immunoblot analysis. These results, taken together, suggest that continuous activation of PKC by TPA, rather than the loss of PKC due to TPA-induced down-regulation, is responsible for the growth-stimulatory effects of phorbol esters on normal human melanocytes. Additionally, the conditioned medium from TPA-treated human melanocytes stimulated DNA synthesis in quiescent melanocytes and human melanoma cells, thus suggesting that activation of the PKC signaling pathway in melanocytes leads to the production of an autocrine growth factor. These findings may be relevant to the autonomous growth of malignant melanomas.
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PMID:Growth of human melanocyte cultures supported by 12-O-tetradecanoylphorbol-13-acetate is mediated through protein kinase C activation. 164 43

B16 mouse melanoma cells are grown inhibited by cyclic AMP or by retinoic acid (RA). However, the combination of these two agents results in less growth inhibition than either agent alone. In order to investigate this interaction, cells were selected for resistance to 8-bromo-cyclic AMP-induced growth inhibition. Two clones (3 and 7) which demonstrated significant resistance were isolated. When these two clones were treated with retinoic acid (RA) it was observed that they also exhibited different degrees of resistance to this growth inhibitor. This cross-resistance did not appear to be due to a lack of uptake or retention of the respective inhibitors, since the mutants took up and retained more 3H-cAMP and 3H-RA than wild type cells, suggesting that the dual resistance was not due to an amplification of P-glycoprotein. The mutation confering cAMP-resistance did not appear to involve cyclic AMP-dependent protein kinase, since both catalytic activity and the amount of cAMP protein binding was similar in wild type and mutants. Thus, the mutation must be beyond the interaction of cAMP with cAMP-dependent protein kinase. We have previously reported that RA induces protein kinase C in B16 melanoma cells (Niles and Loewy: Cancer Res. 49:4483-4487, 1989). Therefore, we measured the ability of RA to induce protein kinase C in the cyclic AMP-resistant mutants. We found an inverse correlation between RA-induced protein kinase C activity and growth inhibition in these mutants. The data reported here suggest that cyclic AMP regulates some step in the RA signal transduction pathway.
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PMID:B16 mouse melanoma cells selected for resistance to cyclic AMP-mediated growth inhibition are cross-resistant to retinoic acid-induced growth inhibition. 164 60

Two phenotypic parameters, aberrant expression of protein kinase C and tumor cell-induced platelet aggregation (PA), have been correlated with abnormal growth behavior and metastatic potential of tumor cells. We recently observed that N,N,N-trimethylsphingosine (TMS) and N,N-dimethylsphingosine (DMS), but not sphingosine (SPN), had an inhibitory effect (via blocking of transmembrane signaling) on the growth of various human tumor cell lines in vitro as well as in vivo in nu/nu mice (K. Endo et al., Cancer Res., 51: 1613-1618, 1991). We therefore investigated the effects of TMS, DMS, and SPN on (a) PA induced by ADP and thrombin; (b) PA induced by melanoma cell line B16/BL6; and (c) experimental lung colonization as well as spontaneous lung metastasis of BL6 cells in syngeneic C57BL/6 mice. In experiments on agonist-induced PA, TMS inhibited PA and ATP secretion 5-fold more strongly than DMS or SPN. This effect may be based on the inhibition of Mr 47,000 platelet protein phosphorylation and/or inhibition of phosphatidylinositol turnover as a transmembrane signaling pathway in platelets. Tumor cell (BL6 melanoma)-induced PA and ATP secretion were also strongly inhibited by TMS, but not by DMS or SPN. Unlike ADP- or thrombin-induced PA, BL6 cell-induced PA was not inhibited by Calphostin-C (a potent protein kinase C inhibitor) or cilostazol (a potent inhibitor of PA based on inhibition of cyclic AMP phosphodiesterase). Since many previous studies suggested that the ability of tumor cells to induce PA is related to the degree of malignancy (e.g., metastatic potential) of tumor cells, we studied the effect of TMS on lung metastatic potential. Three independent sets of experiments, as described below, all showed clear inhibition of lung metastasis by administration of TMS: (a) i.v. coinjection of BL6 melanoma cells and TMS; (b) i.v. injection of TMS and, 1 h later, BL6 cells; (c) spontaneous metastasis to lung from s.c. BL6 tumor (TMS administered after establishment of tumor, followed by resection of tumor). In comparison to tumor growth inhibition produced by TMS or DMS, inhibition of melanoma metastasis by TMS is obvious at lower doses.
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PMID:Cell membrane signaling as target in cancer therapy. II: Inhibitory effect of N,N,N-trimethylsphingosine on metastatic potential of murine B16 melanoma cell line through blocking of tumor cell-dependent platelet aggregation. 165 77

Mouse melanoma cells in culture respond to melanocyte-stimulating hormone (MSH) or to cyclic AMP analogues by demonstrating an increase in tyrosinase activity. In this study the effect of the tumor promoter, 12-O-tetradecanoylphorbol 13-acetate (TPA), on the hormonal induction of tyrosinase was examined. TPA was found to lower basal levels of tyrosinase activity in melanoma cells and to reduce tyrosinase levels in cells treated with either MSH (10(-7) M), dibutyryl cAMP (10(-4) M), isobutylmethylxanthine (IBMX, 10(-4) M), or with the potent MSH analogue, [Nle4,D-phe7]-alpha-MSH. The phorbol ester, phorbol 12,13-dibutyrate was also effective in lowering tyrosinase activity levels, while 4 alpha-phorbol 12,13-didecanoate, which does not bind protein kinase C, was ineffective. In order to determine how TPA may reduce tyrosinase activity in melanoma cells, the levels of tyrosinase mRNA in untreated or TPA-treated cells were determined by Northern blot analysis. A marked down-regulation of constitutive levels of tyrosinase mRNA was observed in cells treated with the tumor promoter. Tyrosinase mRNA levels in cultures exposed to TPA for 48 h were only 7% of control levels. Tyrosinase mRNA levels in cells treated with both MSH and TPA were also lower than in cells treated with MSH alone. Previous studies from this laboratory have shown that insulin both lowers basal tyrosinase activity in melanoma cells and antagonizes the MSH stimulation of the enzyme. We have now determined that this inhibition is also due to reduced levels of tyrosinase mRNA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Down-regulation of tyrosinase mRNA levels in melanoma cells by tumor promoters and by insulin. 170 21


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