Loss of DGKε induces endothelial cell activation and death independently of complement activation

S Bruneau, M Néel, LT Roumenina… - Blood, The Journal …, 2015 - ashpublications.org
S Bruneau, M Néel, LT Roumenina, M Frimat, L Laurent, V Frémeaux-Bacchi, F Fakhouri
Blood, The Journal of the American Society of Hematology, 2015ashpublications.org
Atypical hemolytic uremic syndrome (aHUS) is classically described to result from a
dysregulation of the complement alternative pathway, leading to glomerular endothelial cell
(EC) damage and thrombosis. However, recent findings in families with aHUS of mutations
in the DGKE gene, which is not an integral component of the complement cascade, led us to
consider other pathophysiologic mechanisms for this disease. Here, we demonstrate that
loss of DGKε expression/activity in EC induces an increase in ICAM-1 and tissue factor …
Abstract
Atypical hemolytic uremic syndrome (aHUS) is classically described to result from a dysregulation of the complement alternative pathway, leading to glomerular endothelial cell (EC) damage and thrombosis. However, recent findings in families with aHUS of mutations in the DGKE gene, which is not an integral component of the complement cascade, led us to consider other pathophysiologic mechanisms for this disease. Here, we demonstrate that loss of DGKε expression/activity in EC induces an increase in ICAM-1 and tissue factor expression through the upregulation of p38-MAPK–mediated signals, thus highlighting a proinflammatory and prothrombotic phenotype of DGKε-deficient ECs. More interestingly, DGKE silencing also increases EC apoptosis and impairs EC migration and angiogenesis in vitro, suggesting that DGKE loss-of-function mutations impair EC repair and angiogenesis in vivo. Conversely, DGKE knockdown moderately decreases the expression of the complement inhibitory protein MCP on quiescent EC, but does not induce complement deposition on their surface in vitro. Collectively, our data strongly suggest that in DGKE-associated aHUS patients, thrombotic microangiopathy results from impaired EC proliferation and angiogenesis rather than complement-mediated EC lesions. Our study expands the current knowledge of aHUS mechanisms and has implications for the treatment of patients with isolated DGKE mutations.
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