Epithelial cell migration requires the interaction between the vimentin and keratin intermediate filaments.

Epithelial migration plays a central role in development, wound repair and tumor metastasis, but the role of intermediate filament in this important event is unknown. We showed recently that vimentin coexists in the same cell with keratin-KRT14 at the leading edge of the migrating epidermal cells, and knockdown of vimentin impaired colony growth. Here we demonstrate that vimentin co-localizes and co-immunoprecipitates with keratin-KRT14, and mutations in the -YRKLLEGEE- sequence of vimentin significantly reduced migration of the keratinocytes. Our data demonstrates that keratinocyte migration requires the interaction between vimentin and keratins at the -YRKLLEGEE- sequence at the helical 2B domain of vimentin. These findings have broad implications for understanding the roles of vimentin intermediate filaments in normal and neoplastic epithelial cells.

Endocytic pathway followed by dengue virus to infect the mosquito cell line C6/36 HT.

The endocytic pathway followed by dengue virus to infect the mosquito cells C6/36 HT was analyzed. Using DIL-labeled virions and real-time imaging it was determined that viral entry into C6/36 HT takes approximately 5 to 7 min. Pretreatment of C6/36 HT cells with sucrose and bafilomycin A, but not filipin, inhibited dengue virus infection up to 80%. Furthermore, the overexpression of dominant-negative mutants of Eps15, a molecule required for the formation of clathrin-coated vesicles, reduced dengue infection up to 50%, indicating that dengue virus entry is through clathrin-mediated endocytosis and is pH-dependent. By double-immunofluorescence assays, DIL-labeled particles were colocalized with early endosomes at 5 min and with lysosomes mainly at 30 min post-infection. Finally, disruption of the microtubule and microfilaments by nocodazole and by cytochalasin D reduced viral infection by more than 80%. Taken together these results indicate that dengue virions enter into C6/36 HT cells by clathrin-mediated endocytosis, using the endosomal pathway from early endosomes to acidic lysosomes before viral RNA is released into the cytoplasm.