3 resultados para POSTPRANDIAL MOTILITY
em University of Connecticut - USA
Resumo:
Raf Kinase Inhibitor Protein (RKIP) has been identified as a phosphatidylethanolamine-binding protein capable of inhibiting Raf-1 kinase, an enzyme significant in cell proliferation and cancer development. When properly functioning, RKIP can mediate the expression of Raf-1 kinase and help prevent uncontrolled cell division. RKIP also has suggested, but unclear, roles in spindle fiber formation during mitosis, regulation of apoptosis, and cell motility. The Fenteany laboratory in the Chemistry Department identified a new small molecule, named Locostatin, as a cell migration inhibitor in mammalian cells, with RKIP as its primary molecular target. Dictyostelium discoideum possess two RKIP proteins, RKIP-A and RKIP-B. In order to begin to study the function of RKIP in D. discoideum and its role in cell motility, I created a mutant cell line which lacks a functional RKIP-A gene. In this paper, we show that removal of RKIP-A does not affect vegetative motility, but impairs chemotaxis and development in the presence of drug. Interestingly, RKIP-A knockout mutants appear more resistant to drug effects on vegetative motility than wild-type cells. More research is needed to reconcile these seemingly contrasting results, and to better develop a model for RKIP-A’s role in cell motility.
Resumo:
Cellular migration is an integral component of many biological processes including immune function, wound healing and cancer cell metastasis. A complete model illustrating the mechanism by which cells accomplish movement is still lacking. Exploring the affects of various drugs on cell motility may be instrumental in discovering new proteins which mediate cell movement. This project aims ultimately to characterize the molecular target of the drug Cucurbitacin-I, a natural plant product. This drug has been shown to inhibit migration of epithelial sheets and may have anti-tumor activity. In this paper, we show that Cucurbitacin-I inhibits the migration of MDCK and B16F1 cells. The drug also affects the integrity of the actin cytoskeleton of these cells by indirectly stabilizing filamentous actin. Cucurbitacin-I does not, however, have an effect on the motility or cytoskeletal morphology of the soil amoeba, Dictyostelium discoidium.