eLife (Jan 2022)

Stable flow-induced expression of KLK10 inhibits endothelial inflammation and atherosclerosis

  • Darian Williams,
  • Marwa Mahmoud,
  • Renfa Liu,
  • Aitor Andueza,
  • Sandeep Kumar,
  • Dong-Won Kang,
  • Jiahui Zhang,
  • Ian Tamargo,
  • Nicolas Villa-Roel,
  • Kyung-In Baek,
  • Hwakyoung Lee,
  • Yongjin An,
  • Leran Zhang,
  • Edward W Tate,
  • Pritha Bagchi,
  • Jan Pohl,
  • Laurent O Mosnier,
  • Eleftherios P Diamandis,
  • Koichiro Mihara,
  • Morley D Hollenberg,
  • Zhifei Dai,
  • Hanjoong Jo

DOI
https://doi.org/10.7554/eLife.72579
Journal volume & issue
Vol. 11

Abstract

Read online

Atherosclerosis preferentially occurs in arterial regions exposed to disturbed blood flow (d-flow), while regions exposed to stable flow (s-flow) are protected. The proatherogenic and atheroprotective effects of d-flow and s-flow are mediated in part by the global changes in endothelial cell (EC) gene expression, which regulates endothelial dysfunction, inflammation, and atherosclerosis. Previously, we identified kallikrein-related peptidase 10 (Klk10, a secreted serine protease) as a flow-sensitive gene in mouse arterial ECs, but its role in endothelial biology and atherosclerosis was unknown. Here, we show that KLK10 is upregulated under s-flow conditions and downregulated under d-flow conditions using in vivo mouse models and in vitro studies with cultured ECs. Single-cell RNA sequencing (scRNAseq) and scATAC sequencing (scATACseq) study using the partial carotid ligation mouse model showed flow-regulated Klk10 expression at the epigenomic and transcription levels. Functionally, KLK10 protected against d-flow-induced permeability dysfunction and inflammation in human artery ECs, as determined by NFκB activation, expression of vascular cell adhesion molecule 1 and intracellular adhesion molecule 1, and monocyte adhesion. Furthermore, treatment of mice in vivo with rKLK10 decreased arterial endothelial inflammation in d-flow regions. Additionally, rKLK10 injection or ultrasound-mediated transfection of Klk10-expressing plasmids inhibited atherosclerosis in Apoe−/− mice. Moreover, KLK10 expression was significantly reduced in human coronary arteries with advanced atherosclerotic plaques compared to those with less severe plaques. KLK10 is a flow-sensitive endothelial protein that serves as an anti-inflammatory, barrier-protective, and anti-atherogenic factor.

Keywords