Malignant transformation of human fibroblast cell strain MSU-1.1 by 8,9, May 3, 1991) ABSTRACT Treatment of MSU-1.1 cells, a near-diploid, karyotypically stable, infinite life-span human fibroblast strain, with (+)-7fl,8a-dihydroxy-9a,10a-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene induced focus formation. Eight independent foci were isolated and the cell strains developed from them were examined for characteristics of malignant cells. Each grew to a higher density in medium containing 1% serum than did the MSU-1.1 cells. Three of the eight grew rapidly in serum-free medium without added growth factors, formed colonies in agarose with diameters of .120 Itm at a frequency
In 1977 Kakunaga reported the carcinogen-induced transformation of the diploid human fibroblast cell line KD into focus-forming, morphologically altered cells. Cell lines were developed from 15 individual foci. These exhibited an infinite lifespan in culture and all those that were tested (7/7) formed malignant tumors (sarcomas) in athymic mice. The existing cell lines, designated HuT-11 to HuT-14, have been studied intensively during the past decade as examples of human fibroblasts malignantly transformed by treatment with a chemical carcinogen, 4-nitroquinoline-1-oxide. Recently, in comparing the HuT-11, HuT-12 and HuT-14 cell lines with KD cells, McCormick and Maher (Mutat. Res., 199, 273-291, 1988) found evidence that the malignant cells could not have been derived from the latter. But, this did not rule out the possibility that as the target cells for his original study of carcinogen-induced transformation, Kakunaga had inadvertently used cells from some other, unidentified normal individual. Since the donor of such cells would not be known and the original cell line was not available, it would be impossible to determine the degree of identity between such a target cell line and the HuT cell lines. However, in the course of examining methods for such testing, we recently became aware that the isozyme pattern of these HuT cell lines was identical to that of the human fibrosarcoma-derived cell line 8387 established in 1966. We here report that the HuT cell lines and the 8387 cell line also exhibit an identical series of HLA determinants and identical restriction fragment length polymorphisms (RFLPs). Assuming that each of these three assays measures independently inherited characteristics, the chance that an unrelated donor of the fibroblasts that gave rise to the HuT cell lines happened to possess characteristics identical to those of the patient whose fibrosarcoma gave rise to the 8387 cell line is 1 x 10(-8). Therefore, we conclude that 8387 cells are the source of the malignant cells designated HuT from Kakunaga's original transformation experiment. Additional RFLP analysis, using a probe made from M13 bacteriophage DNA which detects a hyperpolymorphic 'minisatellite' pattern in human DNA, also showed that DNA from HuT-14 cells and from 8387 cells exhibit identical banding patterns, indicating that the cell lines were taken from the same individual. The latter banding patterns differed from that observed with DNA from KD cells.(ABSTRACT TRUNCATED AT 400 WORDS)
Normal human fibroblasts do not synthesize platelet-derived growth factor (PDGF), but they respond to its mitogenic action. In contrast, cells from several human fibrosarcomas have been shown to synthesize PDGF at significant levels. To investigate the possible role of PDGF expression in the development of tumors of mesenchymal origin in humans, we transfected a plasmid carrying the v-sis oncogene and a selectable marker into an infinite lifespan, non-tumorigenic human fibroblast cell strain, MSU-1.1. The v-sis gene codes for a protein homolog of PDGF-B. Of the six independent drug-resistant transfectants clonally isolated, three expressed a relatively low level of v-sis mRNA and protein, grew to a saturation density only 2-2.5 times higher than MSU-1.1 cells, did not form colonies in agar, were not growth factor independent and did not form tumors. The other three expressed v-sis mRNA and protein at a high level, grew to a very high saturation density (> 750,000 cells/cm2), replicated in medium lacking exogenous growth factors almost as rapidly as with 10% serum, formed large colonies in 0.33% agarose and, when injected into athymic mice, formed tumors that grew rapidly. Tumors that were removed after 6 weeks were classified as benign (fibromas). However, several of the tumors that were left in the animals for 6 months developed focal areas of cells showing features of poorly differentiated spindle cell or round cell sarcomas. Similarly, cells isolated from a very large sized agarose colony formed by one of the other v-sis strains expressed very high levels of v-sis mRNA and protein and formed large, very fast growing benign tumors. Re-injection of cells from the tumors yielded tumors composed of two distinct areas: spindle cell fibromas and high grade sarcomas. These results suggest that if mesenchymal cells in the body were induced to express their PDGF-B gene, this could lead to the formation of benign tumors of mesenchymal origin. The system described can serve as a model for studying the mechanisms of formation of such tumors in humans and their progression to the malignant state.
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