UMLS:C0025202 - FACTA Search

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Query: UMLS:C0025202 (melanoma)
69,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lysosomal cysteine proteinases, also known as cysteine cathepsins (Cats), belong to the papain family of proteinases, and share a similar protein structure and mechanism of action. However, subtle structural differences between these cathepsins, e.g. Cats B, H and L, give rise to potentially important variations in substrate specificity and differences in inhibition by their endogenous inhibitors, the cystatins, stefins and kininogens, under physiological and pathological conditions. Alterations in expression of Cat B and Cat L have been observed at various levels in malignant human tumor tissue compared to normal and benign tissue counterparts. We proposed that an imbalance between cathepsins and cystatins, associated with the metastatic tumor cell phenotype, may facilitate tumor cell invasion and metastasis and be responsible for early relapse of the disease after removal of the primary tumor. The results of our initial investigations on cysteine cathepsins and their endogenous inhibitors in human breast, lung and head and neck carcinomas, as well as in body fluids of melanoma and colorectal carcinoma bearing patients, have indeed shown their high prognostic impact for the survival of these patients.
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PMID:Cysteine proteinases in cancer progression and their clinical relevance for prognosis. 952 63

Red ginseng extract A and B are the active components of Panax ginseng. Red ginseng is a classical traditional Chinese medicine. Among Chinese herbs, red ginseng has been considered as one of the tonics. Many studies indicated that red ginseng could enhance immune function of the human body. The effects of red ginseng extracts on transplantable tumors, proliferation of lymphocyte, two-stage model and rat liver lipid peroxidation were studied. In a two-stage model, red ginseng extracts had a significant cancer chemoprevention. At 50-400 mg/kg, they could inhibit DMBA/Croton oil-induced skin papilloma in mice, decrease the incidence of papilloma, prolong the latent period of tumor occurrence and reduce tumor number per mouse in a dose-dependent manner. Red ginseng extract B could effectively inhibit the Fe2+/cysteine-induced lipid peroxidation of rat liver microsome, suggesting that red ginseng extract B has a stronger antioxidative effect than that of extract A. The results indicated that red ginseng extracts (50 approximately 400 mg/kg) could significantly inhibit the growth of transplantable mouse sarcoma S180 and melanoma B16. Red ginseng extracts A (0.5 mg/ml) and B (0.1 and 0.25 mg/ml) might effectively promote the transformation of T lymphocyte, but there was no influence on lymphocyte proliferation stimulated by concanavalin A. This suggests that red ginseng extracts have potent tumor therapeutic activity and improve the cell immune system.
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PMID:Cancer chemopreventive and therapeutic activities of red ginseng. 953 34

Fotemustine is a relatively novel DNA-alkylating 2-chloroethyl-substituted N-nitrosourea (CENU) drug, clinically used for the treatment of disseminated malignant melanoma in different visceral and non-visceral tissues. Thrombocytopenia has been observed in patients treated with fotemustine and liver and renal toxicities as well. In this study, firstly the metabolism of fotemustine was investigated in vitro and secondly the undesired cytotoxicity of fotemustine as well as different ways of protection against it. In rat hepatocytes, chosen as a model system, fotemustine was shown to cause lactate dehydrogenase (LDH) leakage, glutathione (GSH) depletion, GSSG-formation and lipid peroxidation (LPO). A reactive metabolite, DEP-isocyanate, is most likely responsible for these undesired cytotoxic effects. Based on the observed cytotoxicity mechanisms, chemoprotection with several sulfhydryl-containing nucleophiles and antioxidants was investigated. The sulfhydryl nucleophiles; GSH, N-acetyl-L-cysteine (NAC) and glutathione isopropylester (GSH-IP) protected almost completely against fotemustine-induced LDH-leakage and LPO. NAC and GSH protected partly against fotemustine-induced GSH-depletion. The antioxidant, vitamin E protected completely against fotemustine-induced LPO, but only partly against fotemustine-induced LDH-leakage and not against GSH-depletion. Ebselen, a peroxidase-mimetic organoselenium compound, did not show protective effects against the cytotoxicity of fotemustine, possibly because GSH is required for the bioactivation of ebselen. It is concluded that co-administration of sulfhydryl nucleophiles, in particular NAC and GSH-IP, possibly in combination with antioxidants, such as vitamin E, are effective against the toxicity of fotemustine in vitro. It might, therefore, be worthwhile to investigate the cytoprotective potency of these agents against undesired toxicities of fotemustine in vivo as well.
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PMID:Toxicity of fotemustine in rat hepatocytes and mechanism-based protection against it. 960 83

Cyclin-dependent kinase 4 (CDK4) is a key molecule in the regulation of cell cycle progression at the G1-S phase restriction point. Its activity is specifically regulated by p16 (also known as p16/CDKN2A, p16(INK4a), and MTS1), a tumor suppressor frequently altered in human cancers. A specific mutation in CDK4 codon 24 (Arginine to Cysteine) prevents p16 binding and thus inhibition by p16. This mutated CDK4 acts as a dominant oncogene and has been found in both sporadic and familial melanoma. To study the effects of other mutations in CDK4, we generated a panel of 18 CDK4 mutants using Charged-to-Alanine scanning mutagenesis, and investigated the p16-binding capacity of these mutants to identify novel sites involved in p16 binding. The mutant CDK4 proteins were generated by direct coupled transcription-translation in vitro and tested for binding to p16 using a p16-GST fusion protein. Several mutants demonstrated loss of p16 binding. In addition to the previously identified codon 24 mutants, alterations in and around codon 22, 25, 97, and 281 all showed loss of p16 binding capacity. These results indicate that several noncontiguous amino acid sequences on CDK4 are required for binding to p16, which suggests the existence of multiple sites of interaction with p16. Since p16-binding deficient CDK4 has oncogenic potential, these mutations may be present in melanomas or other human neoplasms.
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PMID:Several noncontiguous domains of CDK4 are involved in binding to the P16 tumor suppressor protein. 971 35

Lysosomal cysteine proteinases, the cathepsins (Cats) belong to the papain family of proteinases, sharing a similar protein structure and mechanism of action. Subtle structural differences between these enzymes give rise to important variations in substrate specificity and specificity of inhibition by their endogenous inhibitors, the cystatins, stefins and kininogens under physiological and pathological conditions. Alterations in their expression, processing and localization have been observed at various levels in malignant human tumor tissue compared to normal and benign tissue counterparts. We have proposed that an imbalance between cathepsins and cystatins, associated with metastatic tumor cell phenotype, may facilitate tumor cell invasion and metastasis. The results of clinical investigations on cysteine cathepsins and their endogenous inhibitors in human breast, lung, brain and head and neck tumors, as well as in body fluids of ovarian, uterine, melanoma and colorectal carcinoma bearing patients, have shown that these molecules are highly predictive for the length of survival and may be used for assessment of risk of relapse and death for cancer patients. Their application for diagnosis, follow-up and the anticancer therapy has also been proposed.
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PMID:Cysteine proteinases and their endogenous inhibitors: target proteins for prognosis, diagnosis and therapy in cancer (review). 976 67

alpha-Melanocyte stimulating hormone (alpha-MSH) analogs, cyclized through site-specific rhenium (Re) and technetium (Tc) metal coordination, were structurally characterized and analyzed for their abilities to bind alpha-MSH receptors present on melanoma cells and in tumor-bearing mice. Results from receptor-binding assays conducted with B16 F1 murine melanoma cells indicated that receptor-binding affinity was reduced to approximately 1% of its original levels after Re incorporation into the cyclic Cys4,10, D-Phe7-alpha-MSH4-13 analog. Structural analysis of the Re-peptide complex showed that the disulfide bond of the original peptide was replaced by thiolate-metal-thiolate cyclization. A comparison of the metal-bound and metal-free structures indicated that metal complexation dramatically altered the structure of the receptor-binding core sequence. Redesign of the metal binding site resulted in a second-generation Re-peptide complex (ReCCMSH) that displayed a receptor-binding affinity of 2.9 nM, 25-fold higher than the initial Re-alpha-MSH analog. Characterization of the second-generation Re-peptide complex indicated that the peptide was still cyclized through Re coordination, but the structure of the receptor-binding sequence was no longer constrained. The corresponding 99mTc- and 188ReCCMSH complexes were synthesized and shown to be stable in phosphate-buffered saline and to challenges from diethylenetriaminepentaacetic acid (DTPA) and free cysteine. In vivo, the 99mTcCCMSH complex exhibited significant tumor uptake and retention and was effective in imaging melanoma in a murine-tumor model system. Cyclization of alpha-MSH analogs via 99mTc and 188Re yields chemically stable and biologically active molecules with potential melanoma-imaging and therapeutic properties.
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PMID:Design and characterization of alpha-melanotropin peptide analogs cyclized through rhenium and technetium metal coordination. 978 97

To isolate melanoma Ags recognized by T cells, cDNA libraries made from melanoma cell lines were screened with four CTLs derived from tumor infiltrating lymphocytes (TIL) that were able to recognize melanoma cells in a HLA-A1, -A2, or -A3 restricted manner. Although cDNAs encoding the previously identified melanoma Ags, tyrosinase and gp100, were isolated, these TIL were found to recognize previously unidentified peptides. An HLA-A1-restricted CTL, TIL1388, was found to recognize a tyrosinase peptide (SSDYVIPIGTY), and an HLA-A3-restricted CTL, TIL1351, recognized a gp100 peptide (LIYRRRLMK). CTL clones isolated from the HLA-A2-restricted TIL1383 recognized a gp100 peptide (RLMKQDFSV). HLA-A2-restricted CTL, TIL1200, recognized a gp100 peptide (RLPRIFCSC). Replacement of either cysteine residue with alpha-amino butyric acid in the gp100 peptide, RLPRIFCSC, enhanced CTL recognition, suggesting that the peptide epitope naturally presented on the tumor cell surface may contain reduced cysteine residues. Oxidation of these cysteines might have occurred during the course of the synthesis or pulsing of the peptide in culture. These modifications may have important implications for the development of efficient peptide-based vaccines. These newly identified peptide epitopes can extend the ability to perform immunotherapy using synthetic peptides to a broader population of patients, especially those expressing HLA-A1 or HLA-A3 for whom only a few melanoma epitopes have previously been identified.
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PMID:Identification of new melanoma epitopes on melanosomal proteins recognized by tumor infiltrating T lymphocytes restricted by HLA-A1, -A2, and -A3 alleles. 986 34

Since tumor promoter benzoyl peroxide (BPO) mimics phorbol esters in some aspects, its effects on protein kinase C (PKC) were previously studied. However, in those studies due to the presence of thiol agents in the PKC preparations, the sensitive reaction of BPO with redox-active cysteine residues in PKC was not observed. In this study, by excluding thiol agents present in the purified PKC preparation, low concentrations of BPO modified PKC, resulting in the loss of both kinase activity and phorbol ester binding (IC50 = 0. 2 to 0.5 microM). This modification, which was not dependent on transition metals, was totally blocked by a variety of thiol agents including GSH, which directly reacted with BPO. Substoichiometric amounts of BPO (0.4 mol/mol of PKC) oxidized two sulfhydryls in PKC and inactivated the enzyme which was readily reversed by dithiothreitol. The regulatory domain having zinc thiolate structures supporting the membrane-inserting region provided the specificity for PKC reaction with BPO, which partitioned into the membrane. Unlike H2O2, BPO did not induce the generation of the Ca2+/lipid-independent activated form of PKC. Other redox-sensitive enzymes such as protein kinase A, phosphorylase kinase, and protein phosphatase 2A required nearly 25- to 100-fold higher concentrations of BPO for inactivation. BPO also inactivated PKC in a variety of cell types. In the JB6 (30 P-) nonpromotable cell line and other normal cell lines, where BPO was more cytotoxic, it readily inactivated PKC due to a slow reversibility of this inactivation by the cell. However, in the JB6 (41 P+) promotable cell line, C3H10T1/2 and B16 melanoma cells, where BPO was less cytotoxic, it did not readily inactivate PKC due to a rapid reversibility of this inactivation by an endogenous mechanism. Nevertheless, BPO inactivated PKC at an equal rate in the homogenates prepared from all these cell types. Inclusion of NADPH reversed this inactivation in the homogenates to a different extent, presumably due to a difference in distribution of a protein disulfide reductase, which reverses this oxidative modification. BPO-induced modification of PKC occurred independent of the cellular status of GSH. However, externally added GSH and cell-impermeable thiol agents prevented the BPO-induced modification of PKC. Since BPO readily partitions into membranes, its reaction with redox-cycling thiols of membrane proteins such as PKC may trigger epigenetic events to prevent cytotoxicity, but favor tumor promotion.
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PMID:Tumor promoter benzoyl peroxide induces sulfhydryl oxidation in protein kinase C: its reversibility is related to the cellular resistance to peroxide-induced cytotoxicity. 1006 46

Tissue inhibitors of matrix metalloproteinases (TIMPs) are a family of natural inhibitors that control the activity of matrix metalloproteinases (MMPs) in the extracellular matrix (ECM). Four members of this family have been so far characterized in a variety of species. These inhibitors share a similar structural feature characterized by the presence of 12 cysteine residues involved in disulfide bonds and a similar function by their ability to form inhibitory complexes with MMPs. The role of TIMPs in cancer has been the subject of conflicting reports with an antitumor activity reported by some investigators and a growth stimulation activity reported by others. Here we will discuss a series of data obtained in our laboratory supporting a role of TIMPs not only as inhibitors of invasion but also as regulators of cell growth. Using placental development as an example of a regulated invasive process, we have observed that the levels of TIMP-2 and TIMP-3 steadily increase between day 14.5 and 17.5 post-coitus. TIMPs are selectively expressed by spongiotrophoblastic cells that separate the labyrinthine zone, rich in fetal blood vessels and maternal blood sinuses, from the zone of giant cells forming the border between fetal and maternal tissues. TIMPs are also potent inhibitors of tumor growth in vivo. In melanoma cells, we have previously reported that over-expression of TIMP-2 inhibits the growth of tumors implanted in the skin of scid mice. This growth inhibition seems independent of angiogenesis but dependent on the collagen matrix. We observed that in the presence of fibrillar type I collagen, melanoma cells undergo a growth arrest at the G1 to S interphase transition of the cell cycle. This arrest is specific to the fibrillar structure of collagen because it is not observed in the presence of non-fibrillar collagen or other ECM components. It is associated with a specific upregulation of the cyclin inhibitor p27KIP1. The data therefore indicate that anchorage independent cells remain sensitive to growth regulatory signals that originate from the ECM and that these signals can specifically block tumor cell cycle. Thus our concept of the role of protease inhibitors such as TIMPs in cancer has substantially changed from an initial focus on inhibition of tumor invasion and metastasis to a broader focus on being molecules that--via their function as regulators of the ECM homeostasis--can control tumor cell growth.
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PMID:Tissue inhibitors of metalloproteinases (TIMP) in invasion and proliferation. 1019 Feb 87

The ADAMs (A disintegrin and metalloprotease) comprise a family of membrane-anchored cell surface proteins with a putative role in cell-cell and/or cell-matrix interactions. By immunostaining, ADAM 12 (meltrin alpha) was up-regulated in several human carcinomas and could be detected along the tumor cell membranes. Because of this intriguing staining pattern, we investigated whether human ADAM 12 supports tumor cell adhesion. Using an in vitro assay using recombinant polypeptides expressed in Escherichia coli, we examined the ability of individual domains of human ADAM 12 and ADAM 15 to support tumor cell adhesion. We found that the disintegrin-like domain of human ADAM 15 supported adhesion of alphavbeta3-expressing A375 melanoma cells. In the case of human ADAM 12, however, recombinant polypeptides of the cysteine-rich domain but not the disintegrin-like domain supported cell adhesion of a panel of carcinoma cell lines. On attachment to recombinant polypeptides from the cysteine-rich domain of human ADAM 12, most tumor cell lines, such as MDA-MB-231 breast carcinoma cells, were rounded and associated with numerous actin-containing filopodia and used a cell surface heparan sulfate proteoglycan to attach. Finally, we demonstrated that authentic full-length human ADAM 12 could bind to heparin Sepharose. Together these results suggest a novel role of the cysteine-rich domain of ADAM 12 -- that of supporting tumor cell adhesion.
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PMID:Cysteine-rich domain of human ADAM 12 (meltrin alpha) supports tumor cell adhesion. 1032 2

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