PV-1 labels trans-cellular openings in mouse endothelial cells and is negatively regulated by VEGF.

The PV-1 protein is endogenously expressed from a single mRNA in the mouse pancreatic MS-1 endothelial cell line as a 60-kDa N-glycosylated and 50-kDa non-glycosylated protein that form DTT sensitive oligomers. In the absence of cell permeabilization, PV-1 antibodies label transcellular openings of variable size, many that penetrate through the cytosol with circular openings on the free and attached surface of the plasma membrane. Intracellular PV-1 is localized in perinuclear aggregates that can extend as a fibrous network through the cytosol and often surround the nuclear compartment. In some cells, PV-1 is organized as a large unipolar spindle-like structure that is often associated with severe deformation of the nucleus. The VEGF-R2 inhibitor SU5614 increased the PV-1 protein levels in a dose-dependent manner and inhibited MS-1 cell growth, without inducing apoptosis. This report provides compelling evidence for a functional role of PV-1 in the formation of large transendothelial channels and modulation of nuclear shape. Moreover, these data suggest the PV-1 protein is negatively regulated by VEGF.