Extravasation of immune and tumor cells from an endothelial perspective.

Crossing the vascular endothelium is a necessary stage for circulating cells aiming to reach distant organs. Leukocyte passage through the endothelium, known as transmigration, is a multistep process during which immune cells adhere to the vascular wall, migrate and crawl along the endothelium until they reach their exit site. Similarly, circulating tumor cells (CTCs), which originate from the primary tumor or reseed from early metastatic sites, disseminate using the blood circulation and also must cross the endothelial barrier to set new colonies in distant organs.

Targeting monocytic Occludin impairs transendothelial migration and HIV neuroinvasion.

Transmigration of circulating monocytes from the bloodstream to tissues represents an early hallmark of inflammation. This process plays a pivotal role during viral neuroinvasion, encephalitis, and HIV-associated neurocognitive disorders. How monocytes locally unzip endothelial tight junction-associated proteins (TJAPs), without perturbing impermeability, to reach the central nervous system remains poorly understood.

Circulating extracellular vesicles and tumor cells: sticky partners in metastasis.

The intravascular behavior of tumor-derived extracellular vesicles (EVs) and circulating tumor cells (CTCs) lies at the heart of the metastatic cascade. Their capacity to disseminate and stop at specific vascular regions precedes and determines the formation of metastatic foci. We discuss in detail the central role of cellular adhesion molecules (CAMs) that are present on EV/CTC surface, as well as their endothelial ligands, in dictating their arrest site and their capacity to exit the vasculature.