Endothelial pyruvate kinase M2 maintains vascular integrity
Boa Kim, Cholsoon Jang, Harita Dharaneeswaran, Jian Li, Mohit Bhide, Steven Yang, Kristina Li, Zolt Arany
Boa Kim, Cholsoon Jang, Harita Dharaneeswaran, Jian Li, Mohit Bhide, Steven Yang, Kristina Li, Zolt Arany
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Research Article Metabolism Vascular biology

Endothelial pyruvate kinase M2 maintains vascular integrity

Abstract

The M2 isoform of pyruvate kinase (PKM2) is highly expressed in most cancer cells, and has been studied extensively as a driver of oncogenic metabolism. In contrast, the role of PKM2 in nontransformed cells is little studied, and nearly nothing is known of its role, if any, in quiescent cells. We show here that endothelial cells express PKM2 almost exclusively over PKM1. In proliferating endothelial cells, PKM2 is required to suppress p53 and maintain cell cycle progression. In sharp contrast, PKM2 has a strikingly different role in quiescent endothelial cells, where inhibition of PKM2 leads to degeneration of tight junctions and barrier function. Mechanistically, PKM2 regulates barrier function independently of its canonical activity as a pyruvate kinase. Instead, PKM2 suppresses NF-kB and its downstream target, the vascular permeability factor angiopoietin 2. As a consequence, loss of endothelial cell PKM2 in vivo predisposes mice to VEGF-induced vascular leak, and to severe bacteremia and death in response to sepsis. Together, these data demonstrate new roles of PKM2 in quiescent cells, and highlight the need for caution in developing cancer therapies that target PKM2.

Authors

Boa Kim, Cholsoon Jang, Harita Dharaneeswaran, Jian Li, Mohit Bhide, Steven Yang, Kristina Li, Zolt Arany

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Figure 2

PKM2 is crucial for EC proliferation and migration in vitro.

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PKM2 is crucial for EC proliferation and migration in vitro. (A) Western...
(A) Western blot analysis of PKM2 and PKM1 protein expression in HUVECs demonstrates that the siRNAs used in this study give PKM2-specific and efficient knockdown. qPCR analysis of PKM2 and PKM1 mRNA expression. Note that the y axis for PKM2 is a log scale (n = 3). (C) Growth curve of HUVECs with various siRNAs targeting PKM2. The efficiency of knockdown shown in B correlates with the effect on proliferation (n = 5). (D) Percentage of BrdU+ cells is reduced in siPKM2 ECs (n = 3). (E) Apoptotic cell death, assessed by Annexin V and PI staining, is not induced in siPKM2 ECs (n = 3). (F) Reduction in transwell migration of ECs by siPKM2. Cells that migrated across the transwell membrane were visualized by staining with phalloidin (red) and DAPI (blue) (n = 3). (G) Scratch closure was retarded in ECs with siPKM2 (n = 3). (H) Tube formation on Matrigel was impaired in ECs with siPKM2 (n = 3). Scale bars, 100 μm. All data are mean ± SD. **P < 0.01, by 2-tailed Student’s t test.