Reddy C C, Wells A, Lauffenburger D A
Department of Chemical Engineering, University of Illinois at Urbana-Champaign 61801.
Biotechnol Prog. 1994 Jul-Aug;10(4):377-84. doi: 10.1021/bp00028a006.
We describe experiments comparing the proliferation responses to epidermal growth factor (EGF) by NR6 fibroblasts expressing genetically engineered epidermal growth factor receptors (EGFRs). These cells present either wild-type (WT) EGFR or a cytoplasmic domain-truncated (c'973) EGFR that exhibits a decreased ligand-induced internalization rate constant. In two distinct in vitro proliferation assays, with or without medium replenishment, we measured the specific cell proliferation rate constants and EGF depletion kinetics for both WT and c'973 cells. When EGF depletion is minimized by replenishment, the EGF concentration dependencies of the two cell types are similar, whereas when EGF depletion is not prevented, maximal proliferation of WT cells requires an initial EGF concentration that is approximately 10x that required by c'973 cells. However, when EGF depletion is accounted for, the dependencies of growth rate for the two cell types on the current EGF concentration in both assays are essentially identical. Our results demonstrate that diminished depletion of EGF from the extracellular medium is a major reason for increased mitogenic sensitivity to EGF by cells possessing internalization-deficient receptors.
我们描述了一些实验,这些实验比较了表达基因工程化表皮生长因子受体(EGFR)的NR6成纤维细胞对表皮生长因子(EGF)的增殖反应。这些细胞表达野生型(WT)EGFR或细胞质结构域截短的(c'973)EGFR,后者表现出配体诱导的内化速率常数降低。在两种不同的体外增殖试验中,一种有培养基补充,一种没有,我们测量了WT和c'973细胞的特定细胞增殖速率常数和EGF消耗动力学。当通过补充使EGF消耗最小化时,两种细胞类型对EGF浓度的依赖性相似,而当不防止EGF消耗时,WT细胞的最大增殖所需的初始EGF浓度约为c'973细胞所需浓度的10倍。然而,当考虑到EGF消耗时,在两种试验中,两种细胞类型的生长速率对当前EGF浓度的依赖性基本相同。我们的结果表明,细胞外培养基中EGF消耗的减少是具有内化缺陷受体的细胞对EGF促有丝分裂敏感性增加的主要原因。
