Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027960 (mole)
 21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

MSG1 is a nuclear protein and a possible transcriptional transactivator that is expressed strongly in melanocytes but very weakly, if at all, in most nonmelanocytic cells or adult mouse tissues. This strong expression of MSG1 in cultured normal human epidermal melanocytes was found to be dependent on both endothelin-1 and FGF-2. The phorbol ester TPA could be substituted for endothelin-1. The MSG1 mRNA transcripts were rapidly induced by either endothelin-1 or TPA. However, FGF-2 had no effects at the mRNA level, suggesting its contribution at the translational and/or posttranslational level(s). MSG1 (as well as its mRNA transcripts) was induced by TPA in human melanoma cells, which produce FGF-2 as an autocrine growth factor. Melanoma cells derived from primary tumors or tyrosinase-positive metastatic melanoma cells expressed MSG1 after TPA treatment, while tyrosinase-negative metastatic melanoma cells or nonmelanocytic cells did not. This TPA-induced MSG1 expression in melanoma cells correlated with the expression of the MSG1 mRNA transcripts and TPA-dependent transcriptional activation of the MSG1 promoter sequence, indicating its transcriptional regulation. In vivo, MSG1 protein was detected in human nevocytic nevus confined to the pigmented region, while MSG1 expression showed cell-level heterogeneity in pigmented melanoma tissues. These results demonstrate that MSG1 expression is regulated transcriptionally and posttranscriptionally by local growth factors as well as by the cellular status of differentiation.
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PMID:Regulation of expression of MSG1 melanocyte-specific nuclear protein in human melanocytes and melanoma cells. 968 35

Melanocytes, the pigment forming cells of the skin, form an almost nonproliferating cell population located to the lowermost part of the epidermis. Normally melanocytes are not found higher in the epidermis or in the dermis. Nevi consist of melanocytes with altered growth characteristics and localization. The common pigmented nevus, a benign skin lesion, develops when melanocytes proliferate in the dermo-epidermal junction or in the dermis. Here we report growth characteristics of in vitro cultured normal human melanocytes and dermal nevus-derived melanocytes. As previously reported, nevus cells have a moderate to high FGF-2 expression level. Here we demonstrate that dermal nevus cells are able to survive in three-dimensional type 1 collagen culture, while normal human melanocytes rapidly undergo apoptosis. Melanocytes also, however, survive in collagen cultures in the presence of exogenous FGF-2. The survival of nevus cells in collagen is suppressed by protamine, an inhibitor of FGF-mediated cell stimulation. The in vivo growth environment of dermal nevus cells consists largely of type I and type III collagens. The results suggest that FGF-2 expression by nevus cells allows them to adapt to grow in the dermis. FGF-2 obviously has importance as a melanocyte survival factor and probably also in the development of malignant melanoma.
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PMID:FGF expression allows nevus cells to survive in three-dimensional collagen gel under conditions that induce apoptosis in normal human melanocytes. 1041 28

Basic fibroblast growth factor (bFGF or FGF-2) is produced by nearly all melanomas in vitro and in vivo but not by normal melanocytes, which require exogenous bFGF for growth. In this study, we transduced normal human melanocytes to overexpress two forms of bFGF: (bFGF-Long and bFGF-Short) using replication-deficient adenovirus 5 vectors. bFGF-Long induced the 17.8, 22.5, 23.1 and 24.2 kDa forms of bFGF, whereas bFGF-Short induced only the 17.8 kDa mature form. Growth of cultured melanocytes transduced with either vector was similar to that of nevus and melanoma cells and was independent of exogenous bFGF and of insulin/insulin-like growth factor 1, and cyclic AMP enhancers, requiring only phorbol ester as an exogenous mitogen. Like primary melanoma cells, transduced normal melanocytes grew anchorage independently in soft agar. When injected into the dermis of human skin grafted to mice, bFGF-transduced melanocytes proliferated for at least 20 days, whereas cells from control cultures showed poor survival and no proliferation. These results demonstrate that bFGF upregulation is a critical component in melanoma progression.
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PMID:Basic fibroblast growth factor induces a transformed phenotype in normal human melanocytes. 1059 49

We developed a novel skin regeneration therapy combining nevus tissue inactivated by high hydrostatic pressure (HHP) in the reconstruction of the dermis with a cultured epidermal autograft (CEA). The issue with this treatment is the unstable survival of CEA on the inactivated dermis. In this study, we applied collagen/gelatin sponge (CGS), which can sustain the release of basic fibroblast growth factor (bFGF), to the inactivated skin in order to accelerate angiogenesis. Murine skin grafts from C57BL6J/Jcl mice (8 mm in diameter) were prepared, inactivated by HHP and cryopreserved. One month later, the grafts were transplanted subcutaneously onto the back of other mice and covered by CGS impregnated with saline or bFGF. Grafts were harvested after one, two and eight weeks, at which point the engraftment was evaluated through the histology and angiogenesis-related gene expressions were determined by real-time polymerase chain reaction. Histological sections showed that the dermal cellular density and newly formed capillaries in the bFGF group were significantly higher than in the control group. The relative expression of FGF-2, PDGF-A and VEGF-A genes in the bFGF group was significantly higher than in the control group at Week 1. This study suggested that the angiogenesis into grafts was accelerated, which might improve the engraftment of inactivated dermis in combination with the sustained release of bFGF by CGSs.
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PMID:The sustained release of basic fibroblast growth factor accelerates angiogenesis and the engraftment of the inactivated dermis by high hydrostatic pressure. 3078 32