JOURNAL ARTICLE
RESEARCH SUPPORT, NON-U.S. GOV'T
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Low-dose endothelial monocyte-activating polypeptide-II increases permeability of blood-tumor barrier via a PKC-ζ/PP2A-dependent signaling mechanism.

Experimental Cell Research 2015 Februrary 16
Our previous study demonstrated that low-dose endothelial monocyte-activating polypeptide-II (EMAP-II) induces blood-tumor barrier (BTB) opening via the RhoA/Rho kinase/protein kinase C (PKC)-α/β signaling pathway and that PKC-ζ is involved in this process via other mechanisms. In the present study, using an in vitro BTB model, we detected the exact signaling mechanisms by which PKC-ζ activation affects EMAP-II-induced BTB hyperpermeability. Our results showed that three types of serine/threonine (Ser/Thr) protein phosphatases (PPs), namely PP1, PP2A, and PP2B, were expressed by rat brain microvascular endothelial cells (RBMECs). There was an interaction between PKC-ζ and PP2A in RBMECs. In addition, EMAP-II induced a significant increase in both the expression and the activity of PP2A in RBMECs. Inhibition of PKC-ζ with PKC-ζ pseudosubstrate inhibitor (PKC-ζ-PI) completely blocked EMAP-II-induced PP2A activation. Conversely, inhibition of PP2A with okadaic acid (OA) had no effect on EMAP-II-induced PKC-ζ activation. Like PKC-ζ-PI, OA partially prevented EMAP-II-induced BTB hyperpermeability and occludin redistribution in RBMECs. Neither PKC-ζ-PI nor OA affected EMAP-II-induced phosphorylation of myosin light chain and redistribution of actin cytoskeleton in RBMECs. Taken together, our present study demonstrated that low-dose EMAP-II increases BTB permeability by activating the PKC-ζ/PP2A signaling pathway, which consequently leads to the disruption of TJs and impairment of endothelial barrier function.

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