| Abstract: |
The onset of angiogenesis in cancer often involves down-regulation of endogenous angiogenesis inhibitors, of which thrombospondin-1 (TSP-1) is a paradigm. As this effect is thought to occur under the influence of transforming genetic lesions (e.g., expression of the mutant ras oncogene), its nature is regarded as intrinsic to cancer cells themselves. Here, we show that ras-transformed cancer cells can also induce TSP-1 down-regulation in their adjacent nontransformed stromal fibroblasts, but not in endothelial cells, in a paracrine and distance-dependent manner. Indeed, several H-ras-expressing fibrosarcoma (528ras1, B6ras, and NIH3T3Ras) and carcinoma (DLD-1 and IEC18Ras3) cells were found to release soluble factors capable of suppressing TSP-1 protein, mRNA, and promoter activity in nontumorigenic, immortalized dermal fibroblastic cell lines in culture (e.g., in fibroblasts expressing enhanced green fluorescent protein/TSP-1 reporter). This effect was abrogated in Id1-/-fibroblasts. At least two low molecular weight (<3 kDa), heat-labile, and trypsin-resistant mediators of TSP-1 suppression were found to be released from 528ras1 cells. Their effects on normal fibroblasts were inhibited (albeit to different extents) by pertussis toxin and, in one case, by dimethylsphingosine, none of which affected TSP-1 expression by 528ras1 cells. Collectively, our study suggests that the effect of mutant ras on tumor neovascularization is not limited to changes in angiogenic properties of cancer cells themselves. Rather, mutant ras, through a different signaling mechanism, may modulate the properties of the adjacent normal stroma, thus eliciting a proangiogenic field effect. ©2005 American Association for Cancer Research. |
| Keywords: |
signal transduction; controlled study; unclassified drug; human cell; promoter region; mutation; angiogenesis inhibitor; nonhuman; animal cell; mouse; animals; mice; gene expression; down-regulation; cell line, tumor; angiogenesis; neovascularization, pathologic; oncogene h ras; cell transformation, neoplastic; endothelium cell; oncogene; fibrosarcoma; messenger rna; fibroblast; fibroblasts; lipids; inhibitor of differentiation protein 1; genes, ras; thrombospondin 1; oncogene ras; nih 3t3 cells; enhanced green fluorescent protein; pertussis toxin; promoter regions (genetics); dimethylsphingosine; sphingosine derivative; gtp-binding protein alpha subunits, gi-go; tissue extracts
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