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2. RIPK3 mediates renal tubular epithelial cell apoptosis in endotoxin‑induced acute kidney injury. Zhang S; Li R; Dong W; Yang H; Zhang L; Chen Y; Wang W; Li C; Wu Y; Ye Z; Zhao X; Li Z; Zhang M; Liu S; Liang X Mol Med Rep; 2019 Aug; 20(2):1613-1620. PubMed ID: 31257491 [TBL] [Abstract][Full Text] [Related]
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4. Bone Marrow-Derived RIPK3 Mediates Kidney Inflammation in Acute Kidney Injury. Martin-Sanchez D; Guerrero-Mauvecin J; Fontecha-Barriuso M; Mendez-Barbero N; Saiz ML; Lopez-Diaz AM; Sanchez-Niño MD; Carrasco S; Cannata-Ortiz P; Ruiz-Ortega M; Ortiz A; Sanz AB J Am Soc Nephrol; 2022 Feb; 33(2):357-373. PubMed ID: 35046131 [TBL] [Abstract][Full Text] [Related]
5. RIPK3 promotes kidney fibrosis via AKT-dependent ATP citrate lyase. Imamura M; Moon JS; Chung KP; Nakahira K; Muthukumar T; Shingarev R; Ryter SW; Choi AM; Choi ME JCI Insight; 2018 Feb; 3(3):. PubMed ID: 29415885 [TBL] [Abstract][Full Text] [Related]
6. RIPK3 causes mitochondrial dysfunction and albuminuria in diabetic podocytopathy through PGAM5-Drp1 signaling. Kang JS; Cho NJ; Lee SW; Lee JG; Lee JH; Yi J; Choi MS; Park S; Gil HW; Oh JC; Son SS; Park MJ; Moon JS; Lee D; Kim SY; Yang SH; Kim SS; Lee ES; Chung CH; Park J; Lee EY Metabolism; 2024 Oct; 159():155982. PubMed ID: 39089491 [TBL] [Abstract][Full Text] [Related]
7. Cadmium (Cd) and 2,2',4,4'-tetrabromodiphenyl ether (BDE-47) co-exposure induces acute kidney injury through oxidative stress and RIPK3-dependent necroptosis. Tang J; Zhang N; Chen S; Hu K; Li Y; Fang Y; Wu Z; Zhang Y; Xu L Environ Toxicol; 2023 Oct; 38(10):2332-2343. PubMed ID: 37357614 [TBL] [Abstract][Full Text] [Related]
8. RIPK3 collaborates with GSDMD to drive tissue injury in lethal polymicrobial sepsis. Chen H; Li Y; Wu J; Li G; Tao X; Lai K; Yuan Y; Zhang X; Zou Z; Xu Y Cell Death Differ; 2020 Sep; 27(9):2568-2585. PubMed ID: 32152555 [TBL] [Abstract][Full Text] [Related]
9. Loss of receptor interacting protein kinases 3 and caspase-8 augments intrinsic apoptosis in tubular epithelial cell and promote kidney ischaemia-reperfusion injury. Sung B; Su Y; Jiang J; Mcleod P; Liu W; Haig A; Green DR; Zhang ZX; Jevnikar AM Nephrology (Carlton); 2019 Jun; 24(6):661-669. PubMed ID: 30175514 [TBL] [Abstract][Full Text] [Related]
10. RIPK3 deficiency or catalytically inactive RIPK1 provides greater benefit than MLKL deficiency in mouse models of inflammation and tissue injury. Newton K; Dugger DL; Maltzman A; Greve JM; Hedehus M; Martin-McNulty B; Carano RA; Cao TC; van Bruggen N; Bernstein L; Lee WP; Wu X; DeVoss J; Zhang J; Jeet S; Peng I; McKenzie BS; Roose-Girma M; Caplazi P; Diehl L; Webster JD; Vucic D Cell Death Differ; 2016 Sep; 23(9):1565-76. PubMed ID: 27177019 [TBL] [Abstract][Full Text] [Related]
11. RGMb protects against acute kidney injury by inhibiting tubular cell necroptosis via an MLKL-dependent mechanism. Liu W; Chen B; Wang Y; Meng C; Huang H; Huang XR; Qin J; Mulay SR; Anders HJ; Qiu A; Yang B; Freeman GJ; Lu HJ; Lin HY; Zheng ZH; Lan HY; Huang Y; Xia Y Proc Natl Acad Sci U S A; 2018 Feb; 115(7):E1475-E1484. PubMed ID: 29382757 [TBL] [Abstract][Full Text] [Related]
12. A Role for Tubular Necroptosis in Cisplatin-Induced AKI. Xu Y; Ma H; Shao J; Wu J; Zhou L; Zhang Z; Wang Y; Huang Z; Ren J; Liu S; Chen X; Han J J Am Soc Nephrol; 2015 Nov; 26(11):2647-58. PubMed ID: 25788533 [TBL] [Abstract][Full Text] [Related]
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