Salomon D S, Perroteau I, Kidwell W R, Tam J, Derynck R
J Cell Physiol. 1987 Mar;130(3):397-409. doi: 10.1002/jcp.1041300313.
A mouse mammary epithelial cell line, NMuMG, exhibits a low capacity to grow in semisolid medium as colonies and it is not tumorigenic in nude mice. In contrast, NMuMG cells which have been transformed by an activated c-Harvey ras proto-oncogene, NMuMG/rasH, or by the polyoma middle T-transforming gene, NMuMG/pyt, are able to grow in soft agar and, when injected into nude mice, produce undifferentiated carcinomas. Human epidermal growth factor (EGF) or human alpha-transforming growth factor (alpha TGF) can stimulate, in a dose-dependent fashion, the anchorage-independent growth of NMuMG and NMuMG/pyt cells in soft agar but fail to enhance the anchorage-independent growth of the NMuMGrasH cells. Likewise, human EGF or human alpha TGF is also able to stimulate the anchorage-dependent growth of normal NMuMG cells and NMuMG/pyt cells in a serum-free medium supplemented with insulin, transferrin, fetuin, and laminin, or in medium containing low concentrations of serum, whereas these same growth factors under comparable culture conditions have little or no effect upon the anchorage-dependent growth of the ras-transformed NMuMG-rasH cells. The biological refractoriness of the NMuMG/rasH cells to human EGF or human alpha TGF is reflected by a reduction in the total number of cell surface receptors for EGF and by an absence of a high-affinity population of binding sites for mouse [125l]EGF on these cells as compared to the NMuMG or NMuMG/pyt cells. In addition, concentrated conditioned medium (CM) obtained from NMuMG/rasH and NMuMG/pyt cells contains a relatively higher amount of biologically active TGFs than CM obtained from comparably treated NMuMG cells as measured by the ability to induce the anchorage-independent growth of normal rat kidney cells in soft agar. The higher levels of biologically active TGFs found in the CM from the transformed cells relative to the NMuMG cells is paralleled by a corresponding increase in the CM from these cells in the amount of immunoreactive alpha TGF, by an increase in the amount of EGF receptor-competing activity, and by an increase in the levels of alpha TGF mRNA in the NMuMG/rasH cells. These results demonstrate that mammary epithelial cells which have been transformed by an activated ras proto-oncogene, but not by the polyoma middle T-transforming gene, become unresponsive to exogenous EGF or alpha TGF.(ABSTRACT TRUNCATED AT 400 WORDS)
一种小鼠乳腺上皮细胞系NMuMG,在半固体培养基中形成集落的生长能力较低,且在裸鼠中不具有致瘤性。相比之下,经激活的c-Harvey ras原癌基因转化的NMuMG细胞(NMuMG/rasH)或经多瘤病毒中间T转化基因转化的NMuMG细胞(NMuMG/pyt),能够在软琼脂中生长,并且注射到裸鼠体内时会产生未分化癌。人表皮生长因子(EGF)或人α转化生长因子(α TGF)能够以剂量依赖的方式刺激NMuMG和NMuMG/pyt细胞在软琼脂中的非锚定依赖性生长,但不能增强NMuMGrasH细胞的非锚定依赖性生长。同样,人EGF或人α TGF也能够在添加胰岛素、转铁蛋白、胎球蛋白和层粘连蛋白的无血清培养基中,或在含有低浓度血清的培养基中刺激正常NMuMG细胞和NMuMG/pyt细胞的锚定依赖性生长,而在类似培养条件下,这些相同的生长因子对经ras转化的NMuMG-rasH细胞的锚定依赖性生长几乎没有影响。与NMuMG或NMuMG/pyt细胞相比,NMuMG/rasH细胞对人EGF或人α TGF的生物学不应性表现为EGF细胞表面受体总数减少,且这些细胞上不存在针对小鼠[125I]EGF的高亲和力结合位点群体。此外,从NMuMG/rasH和NMuMG/pyt细胞获得的浓缩条件培养基(CM),与经类似处理的NMuMG细胞获得的CM相比,含有相对较高量的生物活性TGF,这通过在软琼脂中诱导正常大鼠肾细胞非锚定依赖性生长的能力来衡量。与NMuMG细胞相比,转化细胞的CM中发现的较高水平生物活性TGF,与这些细胞的CM中免疫反应性α TGF量的相应增加、EGF受体竞争活性的增加以及NMuMG/rasH细胞中α TGF mRNA水平的增加平行。这些结果表明,经激活的ras原癌基因而非多瘤病毒中间T转化基因转化的乳腺上皮细胞,对外源性EGF或α TGF变得无反应。(摘要截短至400字)
