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ABSTRACT: Although both increased cell growth and impaired insulin signalling have been associated with diabetes, this association has not been investigated. Insulin-like growth factor-1 (IGF-1), a structural and functional analog of insulin, may play a part in the aberrant insulin receptor-mediated signalling observed in diabetes.
To investigate the consequence of this impaired signalling on cell proliferation and transformation, we transfected Chinese hamster ovary cells with cDNA encoding a kinase-defective insulin receptor.
In these mutant cells, the mitogenic and metabolic effects of insulin were reduced compared with control cells (p < 0.05) and this was due to a dominant negative effect. In contrast, these mutant cells showed a higher mitogenic response to IGF-1 than control cells, although IGF-1 receptor expression was similar in both cell lines. There was no statistically significant difference in mitogenic response, however, to platelet-derived growth factor, basic fibroblast growth factor and heparin-binding epidermal growth factor-like growth factor. Variables of the IGF-1 signalling pathway, including tyrosine phosphorylation of insulin receptor substrate-1 and activation of mitogen-activated protein kinase and phosphatidyl inositol 3 kinase, were also augmented in mutant cells. Insulin receptor substrate-1 message and protein abundance were higher in mutant than in control cells. Moreover, mutant cells had a higher mitogenic potential in low-serum-containing medium, suggesting that these cells have a transformed phenotype.
These findings suggest that an impaired insulin signalling may upregulate insulin receptor substrate-1 and that this, in turn, leads to increased IGF-1 signalling, a phenomenon that is possibly associated with increased cell growth in diabetes.
Diabetologia 07/1999; 42(6):763-72. · 6.81 Impact Factor
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ABSTRACT: Transforming growth factor betas (TGF-betas) are the potent growth inhibitors for various cell types. Certain transformed cells, however, show poor response to TGF-beta-induced growth inhibition, which contributes to their uncontrolled proliferation. Recently, we have reported that TGF-beta1 induces degradation of activated Src tyrosine kinase in rat fibroblasts. To elucidate the alteration in TGF-beta signaling pathway in tumor cells that cannot respond to the cytokine, we compared the effects of TGF-beta1 on Src kinase in two human hepatoma cell lines, TGF-beta1-insensitive Mahlavu cells and TGF-beta1-sensitive HepG2 cells. TGF-beta1 decreased Src kinase activity in HepG2 cells, but increased cellular Src levels and Src kinase activity in Mahlavu cells. Co-incubation of Mahlavu cells with TGF-beta1 and 12-O-tetradecanoyl phorbol 13-acetate (TPA) decreased Src protein levels and Src kinase activity, inducing TGF-beta1 sensitivity. TGF-beta1 induced tyrosine dephosphorylation of Ras guanosine triphosphatase-activating protein (Ras-GAP) and Ras inactivation in HepG2 cells, but induced Ras-GAP phosphorylation and Ras activation in Mahlavu cells. The Src kinase inhibitor abolished the increase of Src kinase activity in TGF-beta1-treated Mahlavu cells, and induced TGF-beta1 sensitivity. These findings suggest that regulation of Src kinase by TGF-beta1 is altered in Mahlavu cells. The altered regulation of Src may contribute to TGF-beta1 insensitivity in this cell line, at least in part through activation of Ras.
Hepatology 10/1998; 28(3):796-804. · 11.66 Impact Factor
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ABSTRACT: Transforming growth factors-beta (TGF-betas) play pivotal roles in the regulation of cell growth and differentiation, although little is known regarding the regulation of cytoplasmic components by TGF-betas. Src tyrosine kinase is required for signal transduction of various cytokine receptors, including epidermal growth factor (EGF), platelet-derived growth factor (PDGF), and G-protein coupled receptors. Moreover, Src tyrosine kinase is important in signal cross-talk between these receptors. To determine whether Src kinase is also involved in TGF-beta signaling, we examined the effects of TGF-beta1 on Src in the rat fibroblast cell line 3Y1 and in v-Src-transformed 3Y0 (SR-3Y1). TGF-beta1 inhibited mitogen-activated protein kinase activity and inhibited growth in SR-3Y1 cells, while it did not affect the growth of 3Y1 cells. TGF-beta1 significantly decreased v-Src kinase activity and protein abundance in SR-3Y1 cells, mainly by accelerating the degradation of v-Src. In contrast, in 3Y1 cells, TGF-beta1 did not affect c-Src abundance or kinase activity. However, upon activation of c-Src in 3Y1 cells by PDGF, TGF-beta1 decreased Src abundance. Additionally, in 3Y1 cells transfected with an activated c-Src mutant which lacks the SH3 domain, its level was decreased by TGF-beta1 treatment. These findings suggest that TGF-beta1 specifically induces degradation of activated Src kinase. This may be a novel mechanism for cross-talk between growth factors and TGF-beta1.
Oncogene 08/1998; 16(26):3349-56. · 6.37 Impact Factor
