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

The isolation and routine tissue culture of melanocytic cells from normal skin, precursor nevi, primary and metastatic melanomas has allowed the experimental study of different stages of tumor progression. Characteristic differences between cultured normal melanocytes and highly malignant metastatic melanoma cells were: 1) limited life span for normal melanocytes and non-malignant nevus cells versus infinite growth for malignant melanoma cells; 2) inability to grow anchorage-independently versus high colony forming-efficiency in soft agar; 3) non-tumorigenicity versus tumorigenicity in athymic nude mice; 4) dependence on exogenous growth factors and other mitogens versus autonomous growth in protein-free medium; 5) expression of melanocyte-associated antigens versus expression of melanoma-associated antigens; and 6) diploid karyotype versus non-random chromosomal abnormalities. The only major distinction found between advanced primary and metastatic melanomas was that only metastatic melanoma cells proliferated continuously in the absence of growth factors or other proteins. However, advanced primary melanoma cells could be clearly distinguished from dysplastic nevus cells by their growth behavior and growth factor requirements. Only limited information is available on the biologic, genetic, immunologic and molecular properties of dysplastic nevus cells and early (radial growth phase) primary melanoma cells but these cells appear to differ markedly from advanced primary and metastatic cells. The availability of cells from sequential steps of tumor progression in the human melanocytic system offers a unique experimental model for the study of malignant transformation.
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PMID:Tumor progression in the human melanocytic system. 255 87

Infection of normal human melanocyte and nevus cultures with an adenovirus 12-Simian Virus 40 hybrid virus (Ad12-SV40) produced transformed cells that expressed SV40-T antigen. The Ad12-SV40 cells exhibited rapid cell proliferation to high cell densities and efficient growth in soft agar, but none of 15 transformed melanocyte and nevus cultures formed tumors when injected s.c. or under the renal capsule into athymic nude mice. While the Ad12-SV40-transformed cells lost certain properties associated with the melanocytic phenotype, i.e., pigmentation, tyrosinase activity and melanosome content, the expression of melanoma-associated antigens, including nerve growth factor receptor, p97 melano-transferrin, and chondroitin sulfate proteoglycan, remained stable. The transformed melanocytes acquired the ability to express HLA-DR antigen, which is found on nevus and melanoma cells. Total ganglioside patterns in Ad12-SV40-transformed cells changed to reflect more advanced stages of tumor progression. Transformed melanocytes, like nevus and melanoma cells, showed increased GD3 content and transformed nevus cells increased GD2 which is a feature of malignant melanoma cells. Ad12-SV40-transformed human melanocytes and nevus cells are useful tools for studying tumor progression under experimental conditions.
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PMID:Transformation of normal human melanocytes and non-malignant nevus cells by adenovirus 12-SV40 hybrid virus. 255 80

We used the lesional steps in tumor progression and multivariable logistic regression to develop a prognostic model for primary, clinical stage I cutaneous melanoma. This model is 89% accurate in predicting survival. Using histologic criteria, we assigned melanomas to tumor progression steps by ascertaining their particular growth phase. These phases were the in situ and invasive radial growth phase and the vertical growth phase (the focal formation of a dermal tumor nodule or dermal tumor plaque within the radial growth phase or such dermal growth without an evident radial growth phase). After a minimum follow-up of 100.6 months and a median follow-up of 150.2 months, 122 invasive radial-growth-phase tumors were found to be without metastases. Eight-year survival among the 264 patients whose tumors had entered the vertical growth phase was 71.2%. Survival prediction in these patients was enhanced by the use of a multivariable logistic regression model. Twenty-three attributes were tested for entry into this model. Six had independently predictive prognostic information: (a) mitotic rate per square millimeter, (b) tumor-infiltrating lymphocytes, (c) tumor thickness, (d) anatomic site of primary melanoma, (e) sex of the patient, and (f) histologic regression. When mitotic rate per square millimeter, tumor-infiltrating lymphocytes, primary site, sex, and histologic regression are added to a logistic regression model containing tumor thickness alone, they are independent predictors of 8-year survival (P less than .0005).
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PMID:Model predicting survival in stage I melanoma based on tumor progression. 231 36

Two human melanoma xenografts were compared with respect to their in vivo growth and metastatic potentials as well as glycosaminoglycan patterns. The less differentiated HT 168 tumor showed faster growth at primary sites and a more pronounced capacity for metastasis into the liver. Although chondroitin sulfate was the dominant glycosaminoglycan subtype in both tumors, the more invasive xenograft had a higher heparan sulfate/chondroitin sulfate (HS/CS) ratio. We suggest that tumor progression is influenced by this ratio in this human melanoma system.
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PMID:Two human melanoma xenografts with different metastatic capacity and glycosaminoglycan pattern. 260 30

The 89-kDa cell surface glycoprotein, P3.58, is detectable on advanced human melanomas in situ but not on benign melanocytes or early melanomas. cDNA cloning of P3.58 from melanoma cells was accomplished by screening a lambda zap expression vector library with monoclonal antibodies produced against the denatured antigen. Nucleotide sequencing of the clones revealed that P3.58 is identical to the intercellular-adhesion molecule 1. No qualitative differences in P3.58 mRNA species could be seen between melanoma cells and hematopoietic cells and no differences in gene organization were observed between peripheral blood leukocytes and melanoma cells. Inspection of the deduced amino acid sequence of P3.58 indicated the presence of the consensus sequence characteristic for complement-binding proteins. The acquisition of this cell-adhesion molecule during the process of tumor progression is speculated to contribute to the development of metastasis in melanoma.
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PMID:De novo expression of intercellular-adhesion molecule 1 in melanoma correlates with increased risk of metastasis. 264 20

The propagation of pigmented cells derived from normal skin, common and precursor nevi, and primary and metastatic melanoma in tissue culture has allowed the study of tumor progression under experimental conditions. In accordance with Clark's hypothesis, which is based on histopathological observations, cells isolated from different stages of tumor progression show a stepwise development of a malignant phenotype as defined by different biological parameters: life span in culture, anchorage-independent growth, increased growth autonomy from exogenous growth factors, expression of melanoma-associated antigens, progressively severe chromosomal abnormalities, and tumorigenicity in nude mice. Qualitative and quantitative differences exist between normal melanocytes and nevus cells on the one hand, and between VGP primary and metastatic melanoma cells on the other. Little information, however, is available on cells from dysplastic nevi and RGP primary melanoma cells. Preliminary results suggest that the biologic, immunologic and genetic characterization of these cells from the intermediate stages of tumor development will significantly increase our understanding of the pathogenesis of melanoma.
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PMID:Tumor progression in melanoma: the biology of epidermal melanocytes in vitro. 264 21

Two hypotheses have been presented. The first states that melanomas commonly evolve from normal melanocytes by a tumor progression pathway from a banal nevus to a nevus with dysplasia, to a micro-invasive, and then to a fully evolved, tumorigenic, primary melanoma which has competence for metastasis. It is important to note that not all melanomas follow this complete pathway. As Foulds noted long ago, tumors may bypass any of the stages of tumor progression. Thus, many melanomas do not, apparently, arise in nevi, and melanomas may evolve "fully formed" as pure tumorigenic nodules. However, from the biological point of view, study of the benign potential precursors (nevi and, especially, dysplastic nevi as well as microinvasive melanomas) may well reveal mechanisms of progression that are applicable to all melanomas, and perhaps to other solid tumors as well. From a clinical viewpoint, follow-up and education of patients at increased risk for melanoma, and early diagnosis of melanomas in their curable, microinvasive stages may result in a reduction of mortality from the disease, even without influencing its overall incidence. The melanomas that occur on plantar and palmar (acral) skin appear to progress through a microinvasive stage similar to that of other cutaneous melanomas. However, the significance of precursor and marker lesions (if any exist) in acral melanoma remains to be elucidated by clinicopathologic and epidemiologic studies. The possibility of etiologic agents other than UV light, such as chemical carcinogens and/or viruses, should be investigated in these cases. The second hypothesis presented here, that UV light is etiologic for the common cutaneous melanoma of white populations, has support from clinical, epidemiologic, and biologic observations. From a biologic viewpoint, ultraviolet light has all of the properties that might enable it to act as a complete carcinogen, and to enhance tumor progression in melanocytic "potential-precursor" lesions. Clinically, it seems appropriate to encourage patients (and members of the general population, as well) to adopt sensible attitudes to sun exposure. By such means, it is possible that some melanomas might be prevented, or that the rate and incidence of progression to more-advanced stages might be inhibited.
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PMID:Human melanocytic neoplasms and their etiologic relationship with sunlight. 265 3

Various human tumor tissues contain different growth factors. In some cases progression of tumors is paralleled by elevated levels of these substances in blood or in tumor tissue. There is evidence that these growth promoting peptides might stimulate tumor growth. The growth of most tumors was associated with insulin-like substances (MW 45,000). We isolated and purified a substance immunologically cross-reactive with insulin (SICRI) from human melanoma. We found the molecular weight of affinity purified SICRI to be approximately 120,000. Our in vitro experiments with human renal carcinoma cells and growth factors suggest an important role of these molecules in tumor progression.
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PMID:Growth factors in human tumors. 265 14

This study examined noncultured and cultured melanomas and related precursor specimens for (i) mutated ras genes using polymerase chain reaction (PCR) methodology, (ii) correlation of mutated ras genes with differentiation related phenotypic characteristics, (iii) expression of ras-encoded p21 proteins in tissues by immunoperoxidase analysis, (iv) quantitative expression of mutated and wild-type ras encoded p21 proteins by flow cytometry, and (v) correlation between p21 expression, the occurrence of ras mutations, and cell cycle kinetics. The results of these studies are (1) 24% of cultured malignant melanomas have activated ras genes, with N-ras being activated ten times as frequently as Harvey (Ha)-ras. Each example of an activated ras gene showed a mutation at the 61st codon of the protein, with the exception of one melanoma which showed a mutation at codon 13 of the N-ras gene; (2) all the melanomas displaying an activated ras gene had a similar cell surface phenotype and appear to come from a similar phase of differentiation; (3) 5-6% of noncultured primary and metastatic melanomas have mutated ras genes; (4) no ras gene mutations were found in any precursor lesion, specifically normal nevi and dysplastic nevi; (5) immunoperoxidase analysis of paraffin-embedded specimens indicated no quantitative or qualitative alterations in p21 expression that correlate with tumor progression; (6) there were no observable differences in p21 expression between melanoma cells growing exponentially or in plateau phase, or between melanoma cells with or without ras mutations; nor were any cell kinetic differences found between cells with and without mutated ras genes. These studies suggest that the role of ras mutations may be limited to an indirect involvement in the transformation of a subset of melanomas.
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PMID:Analysis of ras oncogenes in malignant melanoma and precursor lesions: correlation of point mutations with differentiation phenotype. 268 63

The past decade transplants of human tumors in nude mice have been increasingly used as an experimental model for local tumor growth and dissemination. A few human melanoma cell lines have been described that give rise to metastases in nude mice after subcutaneous inoculation. First we give an overview of some relevant literature with respect to the pathogenesis of tumor metastasis, models to study human cancer metastasis, neoplastic progression and the detection of antigens involved in metastasis. Finally we describe our results concerning the morphological and immunohistochemical profile of six different human melanoma cell lines and their xenograft lesions in nude mice using a set of monoclonal antibodies recognizing different categories of human melanoma-associated antigens. From the data we conclude that the nude mouse mouse model appears suitable to study the role of melanoma-associated progression markers in the pathogenesis of metastasis.
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PMID:Progression markers in metastasizing human melanoma cells xenografted to nude mice (review). 268 99

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