RIPK3 promotes sepsis-induced acute kidney injury via mitochondrial dysfunction
Angara Sureshbabu, Edwin Patino, Kevin C. Ma, Kristian Laursen, Eli J. Finkelsztein, Oleh Akchurin, Thangamani Muthukumar, Stefan W. Ryter, Lorraine Gudas, Augustine M. K. Choi, Mary E. Choi
Angara Sureshbabu, Edwin Patino, Kevin C. Ma, Kristian Laursen, Eli J. Finkelsztein, Oleh Akchurin, Thangamani Muthukumar, Stefan W. Ryter, Lorraine Gudas, Augustine M. K. Choi, Mary E. Choi
View: Text | PDF
Research Article Cell biology Nephrology

RIPK3 promotes sepsis-induced acute kidney injury via mitochondrial dysfunction

Abstract

Sepsis causes acute kidney injury (AKI) in critically ill patients, although the pathophysiology remains unclear. The receptor-interacting protein kinase-3 (RIPK3), a cardinal regulator of necroptosis, has recently been implicated in the pathogenesis of human disease. In mice subjected to polymicrobial sepsis, we demonstrate that RIPK3 promotes sepsis-induced AKI. Utilizing genetic deletion and biochemical approaches in vitro and in vivo, we identify a potentially novel pathway by which RIPK3 aggravates kidney tubular injury independently of the classical mixed lineage kinase domain-like protein–dependent (MLKL-dependent) necroptosis pathway. In kidney tubular epithelial cells, we show that RIPK3 promotes oxidative stress and mitochondrial dysfunction involving upregulation of NADPH oxidase-4 (NOX4) and inhibition of mitochondrial complex I and –III, and that RIPK3 and NOX4 are critical for kidney tubular injury in vivo. Furthermore, we demonstrate that RIPK3 is required for increased mitochondrial translocation of NOX4 in response to proinflammatory stimuli, by a mechanism involving protein-protein interactions. Finally, we observed elevated urinary and plasma RIPK3 levels in human patients with sepsis-induced AKI, representing potential markers of this condition. In conclusion, we identify a pathway by which RIPK3 promotes kidney tubular injury via mitochondrial dysfunction, independently of MLKL, which may represent a promising therapeutic target in sepsis-induced AKI.

Authors

Angara Sureshbabu, Edwin Patino, Kevin C. Ma, Kristian Laursen, Eli J. Finkelsztein, Oleh Akchurin, Thangamani Muthukumar, Stefan W. Ryter, Lorraine Gudas, Augustine M. K. Choi, Mary E. Choi

×

Figure 9

RIPK3 and mitochondrial DNA levels are increased in human sepsis/AKI patients.

Options: View larger image (or click on image) Download as PowerPoint
RIPK3 and mitochondrial DNA levels are increased in human sepsis/AKI pat...
(A) RIPK3 mRNA expression was determined by qPCR in the human urinary cells of nonsepsis patients (n = 6) compared with sepsis patients (n = 23). (B) RIPK3 protein expression was determined by ELISA in the human urine supernatant samples of nonsepsis patients (n = 8) compared with sepsis patients (n = 55). (C and D) RIPK3 protein expression in the human urine (C) and plasma (D) samples of sepsis-induced AKI patients (n = 36 for urine; n = 61 for plasma) versus non-AKI patients (n = 23 for urine; n = 59 for plasma). (E and F) mtDNA (MT-ND1 expression) was determined by qPCR in the human urine (E) and plasma (F) samples of non-AKI patients (n = 4 for urine; n = 47 for plasma) versus sepsis-induced AKI patients (n = 15 for urine; n = 52 for plasma). mtDNA copy number was expressed in log units. Data are mean ± SEM. Red bars represent mean. *P < 0.05, **P < 0.01, ***P < 0.001, student’s unpaired 2-tailed t test.