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Query: UMLS:C0027627 (
metastases
)
103,950
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Disseminated malignant melanoma is a very resistant tumor to therapy. Mechanisms of resistance to chemotherapy may be due to glutathione reductase and O6 alkyltransferase, two enzymes especially able to detoxify from alkylation. An interesting model is represented by dacarbazine in the treatment of melanoma with nitrosourea derivatives. Cytokines may come to play an increasing role in the combination with chemotherapy; interferon-alpha and interleukin-2, for example, seem to potentiate the action of chemotherapy in well-designed clinical protocols. Moreover, tumor necrosis factor-alpha was shown to be active in combination therapy with interferon-gamma and chemotherapy when administered by isolation perfusion. Targeting with monoclonal antibodies or melanocyte-stimulating hormone-alpha conjugated to cytotoxic agents represents a promising area. The discovery of a gene, designated
MAGE1
, coding for a peptide presented by HLA-A1 and able to specifically activate cytotoxic T lymphocytes may represent a unique approach to specific active immunotherapy for melanoma. The interference with integrins and adhesion molecules may play a role in the prevention of
metastases
. Some preclinical models seem to validate this approach. Current treatment of disseminated malignant melanoma involves chemotherapy often associated with other cytotoxic agents or cytokines, which may potentiate the antitumor effect. Other therapeutic issues reviewed concern targeting and immunotherapy. This review ends with a survey of biologic factors that may constitute new approaches to melanoma therapy.
...
PMID:Disseminated melanoma, preclinical therapeutic studies, clinical trials, and patient treatment. 845 23
Incidence and mortality of human malignant melanoma has risen rapidly over recent decades. Although the notorious resistance to treatment is characteristic for metastatic malignant melanoma, only a few experimental models have been established to study the metastatic cascade or to test new alternative treatment modalities. Thus, new human models are wanted. Here, we describe the metastatic behaviour of seven human melanoma cell lines derived from two primary cutaneous melanomas (WM 98-1, WM 1341) and five
metastases
established from liver (UKRV-Mel-4), skin (M7, M13), pleural effusion (UKRV-Mel-2) and lymph node (MV3). All cell lines were analysed for their capacity to grow in nude mice after s.c. and i.v. administration. M13 cells developed liver metastases spontaneously after s.c. injection, and subsequent passages of M13 and M7 melanoma cells caused liver metastases after i.v. injection, whereas MV3 and WM98-1 gave rise to lung metastases, using the same inoculation route. In contrast, WM 1341, UKRV-Mel-2 and UKRV-Mel-4 grew only very slowly in nude mice after s.c. injection and did not cause any
metastases
after i.v. or s.c. administration. The pattern of
metastases
or growth kinetics did not correlate with the interleukin 8 or tumour necrosis factor secretion of cell lines. Adhesion molecules and growth factor receptor expression on the cell lines differed widely, as determined by flow cytometry, with the low metastatic cell lines (UKRV-Mel-2, UKRV-Mel-4 and WM 1341) demonstrating a marked reduction in VLA-1 and VLA-5 expression compared with the metastatic lines (M7, M13, MV3 and WM 98-1). Expression of pigment-related proteins such as tyrosinase, TRP-1, TRP-2, Melan-A/MART-1, gp100,
MAGE1
or MAGE-3 was not associated with growth and metastatic characteristics of the melanoma cell lines analysed. In conclusion, the established human melanoma cell lines exhibited diverse growth behaviour in nude mice in congruence with some early established prognostic markers such as VLA-1 and VLA-5. The xenografts provide good models for further study of metastatic processes as well as for evaluation of alternative treatment modalities including new pharmaceutical drugs and gene therapeutic targeting using tissue-specific gene regulatory elements for gene targeting.
...
PMID:Metastatic potential of human melanoma cells in nude mice--characterisation of phenotype, cytokine secretion and tumour-associated antigens. 868 21
