Abstract IA31: Control of TGF-{beta} responsiveness and epithelial plasticity

TGF-β signaling inhibits cell growth in epithelial cells and thus acts as tumor suppressor, yet increased TGF-β signaling often promotes cancer progression through effects on the tumor micro-environment and effects on the carcinoma cells that can lead to epithelial plasticity responses and increased invasion. The responsive epithelial or carcinoma cells can regulate their cell surface levels of TGF-β receptors, and thus enhance their responses to TGF-β. In addition to transcription control of TGF-β receptor expression, the cells can rapidly mobilize TβRII and TβRI from a large intracellular receptor pool to the cell surface, and thus enhance their TGF-β responsiveness. For example, high glucose, as seen in hyperglycemia, rapidly induces high levels of cell surface receptors that increase the cell’s TGF-β responsiveness, resulting in extracellular matrix production and increased cell size. Similarly, increased cell surface TGF-β receptor levels and TGF-β responsiveness also occur in response to insulin, which is therapeutically used against diabetes-associated hyperglycemia. The insulin-induced increase in cell surface levels requires activation of Akt, which then phosphorylates the membrane-associated RabGAP AS160, thus alleviating AS160-mediated retention of vesicles containing TβRII and TβRI, and allowing them to reach the cell surface. Additionally, the levels of functional TGF-β receptor complexes...
Source: Molecular Cancer Research - Category: Cancer & Oncology Authors: Tags: Signaling Pathways: BMP/TGFbeta/SMAD: Oral Presentations - Invited Abstracts Source Type: research