Loss of diacylglycerol kinase ε causes thrombotic microangiopathy by impairing endothelial VEGFA signaling
Dingxiao Liu, … , Chou-Long Huang, Massimo Attanasio
Dingxiao Liu, … , Chou-Long Huang, Massimo Attanasio
Published May 10, 2021
Citation Information: JCI Insight. 2021;6(9):e146959. https://doi.org/10.1172/jci.insight.146959.
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Research Article Nephrology

Loss of diacylglycerol kinase ε causes thrombotic microangiopathy by impairing endothelial VEGFA signaling

Abstract

Loss of function of the lipid kinase diacylglycerol kinase ε (DGKε), encoded by the gene DGKE, causes a form of atypical hemolytic uremic syndrome that is not related to abnormalities of the alternative pathway of the complement, by mechanisms that are not understood. By generating a potentially novel endothelial specific Dgke-knockout mouse, we demonstrate that loss of Dgke in the endothelium results in impaired signaling downstream of VEGFR2 due to cellular shortage of phosphatidylinositol 4,5-biphosphate. Mechanistically, we found that, in the absence of DGKε in the endothelium, Akt fails to be activated upon VEGFR2 stimulation, resulting in defective induction of the enzyme cyclooxygenase 2 and production of prostaglandin E2 (PGE2). Treating the endothelial specific Dgke-knockout mice with a stable PGE2 analog was sufficient to reverse the clinical manifestations of thrombotic microangiopathy and proteinuria, possibly by suppressing the expression of matrix metalloproteinase 2 through PGE2-dependent upregulation of the chemokine receptor CXCR4. Our study reveals a complex array of autocrine signaling events downstream of VEGFR2 that are mediated by PGE2, that control endothelial activation and thrombogenic state, and that result in abnormalities of the glomerular filtration barrier.

Authors

Dingxiao Liu, Qiong Ding, Dao-Fu Dai, Biswajit Padhy, Manasa K. Nayak, Can Li, Madison Purvis, Heng Jin, Chang Shu, Anil K. Chauhan, Chou-Long Huang, Massimo Attanasio

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Figure 8

PGE2 suppresses the expression of MMP-2 in Tie2CreDgkefl/fl mouse kidneys.

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PGE2 suppresses the expression of MMP-2 in Tie2CreDgkefl/fl mouse kidney...
(A and B) Representative TEM images of a glomerulus of a 3-month-old Tie2CreDgkefl/fl mouse. (B) Higher magnification of the inset in A. White arrowheads point at subendothelial widening at the base of a swollen endothelial cell (black asterisk). White asterisks denote thickened GBM; black arrows, effaced foot processes. Scale bars: 10 μm (A), 2 μm (B). (C and D) Representative TEM image of a glomerulus of a 3-month-old Tie2CreDgkefl/fl mouse after 4 weeks’ subcutaneous infusion with dmPGE2. (D) Higher magnification of the inset in C. Black arrow points to normal foot processes; black arrowhead, healthy fenestrated endothelium and normal GBM. Scale bars: 10 μm (C), 5 μm (D). (E) Q-PCR showing MMP-2 expression in sh-DGKE–knockdown HUVECs and nontarget control cells (sh-GFP) before and after supplementation of the culture medium with PGE2. Data are from 3 independent experiments and are presented as mean ± SD. *: P < 0.05 by 1-way ANOVA, n = 3 per group. Each data point represents 1 experiment. (F) Gelatin-polyacrylamide gel showing the zymographic analysis of kidney cortex lysates of Tie2CreDgkefl/fl littermates of the same age after 4 weeks of dmPGE2 administration. Both pro–MMP-2 (72 kDa) and active MMP-2 (~60 kDa) are present in the Tie2CreDgkefl/fl mouse kidney, compared with controls, but disappear after treatment with dmPGE2.