Header menu link for other important links
Role of Epac1, an exchange factor for Rap GTPases, in endothelial microtubule dynamics and barrier function
, X. Cullere, S. Patel, J. Italiano Jr., T.N. Mayadas
Published in
PMID: 18172027
Volume: 19
Issue: 3
Pages: 1261 - 1270
Rap1 GTPase activation by its cAMP responsive nucleotide exchange factor Epac present in endothelial cells increases endothelial cell barrier function with an associated increase in cortical actin. Here, Epac1 was shown to be responsible for these actin changes and to colocalize with microtubules in human umbilical vein endothelial cells. Importantly, Epac activation with a cAMP analogue, 8-pCPT-2′O-Me-cAMP resulted in a net increase in the length of microtubules. This did not require cell- cell interactions or Rap GTPase activation, and it was attributed to microtubule growth as assessed by time-lapse microscopy of human umbilical vein endothelial cell expressing fluorophore-linked microtubule plus-end marker end-binding protein 3. An intact microtubule network was required for Epac-mediated changes in cortical actin and barrier enhancement, but it was not required for Rap activation. Finally, Epac activation reversed microtubuledependent increases in vascular permeability induced by tumor necrosis factor-alpha; and transforming growth factor-β. Thus, Epac can directly promote microtubule growth in endothelial cells. This, together with Rap activation leads to an increase in cortical actin, which has functional significance for vascular permeability. © 2008 by The American Society for Cell Biology.
About the journal
Published in
Open Access
Impact factor