Abstract
Deletion of the WNK1 (with no lysine kinase‐1) gene in mice causes embryonic lethality due to failed vascular development. This phenotype can be rescued by endothelial‐specific expression of WNK1 or a constitutively active form of its substrate OSR1 (Oxidative Stress Responsive‐1). Additionally, depletion of WNK1/OSR1 decreased in vitro angiogenesis and cell migration in endothelial cells. This indicates an essential function of WNK1/OSR1 in angiogenesis. However, the underlying mechanism by which WNK1/OSR1 mediates this process is unclear. WNK1 is known to regulate TGF‐β/Smad signaling which induces epithelial‐mesenchymal transition (EMT), a process utilized in cell migration and angiogenic sprouting during physiological and pathophysiological vascular remodeling. OSR1 is reported to form a complex with the TGF‐βII receptor at tight junctions which mediates dissolution of tight junction upon activation by TGF‐β. Therefore, we hypothesize that WNK1/OSR1 axis is necessary for TGF‐β/Smad‐induced disruption of cell‐cell adhesion, thereby promoting cell migration and angiogenesis. We found that WNK1 pharmacological inhibition decreased the expression of TGF‐β‐induced EMT mediators such as the receptor tyrosine kinase Axl which is known to be important for maintaining tight junction integrity in HDMECs (Human Dermal Microvascular Endothelial Cells) (Normalized densitometry values; WNKi‐ Axl: 0.2 ± 0.05 vs. siControl: 1, n=3) and in primary HUVECs (Human Umbilical Vein Endothelial Cells) (normalized densitometry values; WNK1i: 0.4 ± 0.1 vs. DMSO: 1, n=3, *p<0.05). We also determined that OSR1 and Occludin, a tight junction protein are co‐localized and that inhibition of WNK1 using a small molecule WNK1 inhibitor, decreased their co‐localization and tight junction breakdown during TGF‐β signaling in primary HUVECs (Pearson’s coefficient; Control; 0.08 ± 0.2 vs. TGF‐β: 0.61 ± 0.15 vs. TGF‐β+WNK1i: 0.12 ± 0.25, n=2, 2 replicates per experiment). Finally, we observed that bands corresponding to phosphorylated form of Occludin on a Western blot were enhanced in WNK inhibited samples compared to control (normalized densitometry values; TGF‐β+WNKi: 1 vs. TGF‐β: 0.21 ± 0.07, n=2). Since Occludin is known to be dephosphorylated during tight junction breakdown, the presence of the phosphorylated form of Occludin with WNK inhibition may indicate the disruption of cellular processes leading to TGF‐β‐dependent tight junction breakdown. These data suggest WNK1‐dependent function of OSR1 in cell migration and angiogenesis through regulating tight junction integrity. Combined, these data indicate the importance of WNK1 function in endothelial cell migration and angiogenesis. Understanding how WNK1 regulates angiogenesis and cell migration is immediately relevant during development, fibrosis as well as cancer.Support or Funding InformationAmerican Heart Association postdoctoral fellowship to Ankita Jaykumar and NIH funding R01 HL147661 to Melanie H. Cobb
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