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Literature DB >> 26333547

Mitochondria: a therapeutic target in acute kidney injury.

Abstract

Acute kidney injury (AKI) is a common clinical entity that is associated with high mortality and morbidity. It is a risk factor for the development and progression of chronic kidney disease. Presently, no effective treatment for AKI is available, and novel therapeutic approaches are desperately needed. Accumulating evidence highlights mitochondrial dysfunction as an important factor in the pathogenesis of AKI. Recent advances in our understanding of the molecules involved in mitochondrial biogenesis, fusion/fission, mitophagy and their pathophysiological roles will lead to the development of drugs that target mitochondria for the treatment of various diseases, including AKI. In this review, we summarize current knowledge of the contribution of mitochondria-related pathophysiology in AKI and the prospective benefits of mitochondria-targeting therapeutic approaches against AKI.

Entities: Disease

Keywords: acute kidney disease; mitochondrial biogenesis; mitochondrial fusion and fission; mitophagy; tubular damage

Mesh：

Substances：

Year: 2015 PMID： 26333547 DOI： 10.1093/ndt/gfv317

Source DB: PubMed Journal: Nephrol Dial Transplant ISSN： 0931-0509 Impact factor: 5.992

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Cited

54 in total

1. Hyperpolarized ¹³ C magnetic resonance evaluation of renal ischemia reperfusion injury in a murine model.

Authors: Celine Baligand; Hecong Qin; Aisha True-Yasaki; Jeremy W Gordon; Cornelius von Morze; Justin Delos Santos; David M Wilson; Robert Raffai; Patrick M Cowley; Anthony J Baker; John Kurhanewicz; David H Lovett; Zhen Jane Wang
Journal: NMR Biomed Date: 2017-07-14 Impact factor: 4.044

Review 2. Mitochondrial energetics in the kidney.

Authors: Pallavi Bhargava; Rick G Schnellmann
Journal: Nat Rev Nephrol Date: 2017-08-14 Impact factor: 28.314

3. PINK1-PRKN/PARK2 pathway of mitophagy is activated to protect against renal ischemia-reperfusion injury.

Authors: Chengyuan Tang; Hailong Han; Mingjuan Yan; Shiyao Zhu; Jing Liu; Zhiwen Liu; Liyu He; Jieqiong Tan; Yu Liu; Hong Liu; Lin Sun; Shaobin Duan; Youming Peng; Fuyou Liu; Xiao-Ming Yin; Zhuohua Zhang; Zheng Dong
Journal: Autophagy Date: 2018-02-17 Impact factor: 16.016

Review 4. Metabolic requirements of the nephron.

Authors: Kasey Cargill; Sunder Sims-Lucas
Journal: Pediatr Nephrol Date: 2018-12-15 Impact factor: 3.714

Review 5. Mitochondria Damage and Kidney Disease.

Authors: Pu Duann; Pei-Hui Lin
Journal: Adv Exp Med Biol Date: 2017 Impact factor: 2.622

Review 6. Organelle Stress and Crosstalk in Kidney Disease.

Authors: Sho Hasegawa; Reiko Inagi
Journal: Kidney360 Date: 2020-08-07

Review 7. Novel targets for mitochondrial medicine.

Authors: Wang Wang; Georgios Karamanlidis; Rong Tian
Journal: Sci Transl Med Date: 2016-02-17 Impact factor: 17.956

Review 8. β₂-Adrenergic receptor agonism as a therapeutic strategy for kidney disease.

Authors: Ali Kamiar; Keyvan Yousefi; Julian C Dunkley; Keith A Webster; Lina A Shehadeh
Journal: Am J Physiol Regul Integr Comp Physiol Date: 2021-02-10 Impact factor: 3.619

9. Bioactive peptide apelin rescues acute kidney injury by protecting the function of renal tubular mitochondria.

Authors: Yi-Ming Guan; Zong-Li Diao; Hong-Dong Huang; Jun-Fang Zheng; Qi-Dong Zhang; Li-Yan Wang; Wen-Hu Liu
Journal: Amino Acids Date: 2021-07-12 Impact factor: 3.520

10. An Integrated Transcriptomic Approach to Identify Molecular Markers of Calcineurin Inhibitor Nephrotoxicity in Pediatric Kidney Transplant Recipients.

Authors: Erika T Rhone; Elissa Bardhi; Sai Vineela Bontha; Patrick D Walker; Jorge A Almenara; Catherine I Dumur; Helen Cathro; Daniel Maluf; Valeria Mas
Journal: Int J Mol Sci Date: 2021-05-21 Impact factor: 5.923