Literature DB >> 28551805

Mitochondria Damage and Kidney Disease.

Pu Duann1, Pei-Hui Lin2,3.   

Abstract

The kidney is a vital organ that demands an extraordinary amount of energy to actively maintain the body's metabolism, plasma hemodynamics, electrolytes and water homeostasis, nutrients reabsorption, and hormone secretion. Kidney is only second to the heart in mitochondrial count and oxygen consumption. As such, the health and status of the energy power house, the mitochondria, is pivotal to the health and proper function of the kidney. Mitochondria are heterogeneous and highly dynamic organelles and their functions are subject to complex regulations through modulation of its biogenesis, bioenergetics, dynamics and clearance within cell. Kidney diseases, either acute kidney injury (AKI) or chronic kidney disease (CKD), are important clinical issues and global public health concerns with high mortality rate and socioeconomic burden due to lack of effective therapeutic strategies to cure or retard the progression of the diseases. Mitochondria-targeted therapeutics has become a major focus for modern research with the belief that maintaining mitochondria homeostasis can prevent kidney pathogenesis and disease progression. A better understanding of the cellular and molecular events that govern mitochondria functions in health and disease will potentially lead to improved therapeutics development.

Entities:  

Keywords:  Acute kidney injury; Chronic kidney disease; Mitochondria bioenergetics; Mitochondria-targeted therapeutics; Mitochondrial biogenesis; Mitochondrial dynamics; Mitophagy; Oxidative stress; Tissue injury and repair

Mesh:

Substances:

Year:  2017        PMID: 28551805      PMCID: PMC8049117          DOI: 10.1007/978-3-319-55330-6_27

Source DB:  PubMed          Journal:  Adv Exp Med Biol        ISSN: 0065-2598            Impact factor:   2.622


  116 in total

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Journal:  Dev Cell       Date:  2008-02       Impact factor: 12.270

Review 2.  International Society of Nephrology's 0by25 initiative for acute kidney injury (zero preventable deaths by 2025): a human rights case for nephrology.

Authors:  Ravindra L Mehta; Jorge Cerdá; Emmanuel A Burdmann; Marcello Tonelli; Guillermo García-García; Vivekanand Jha; Paweena Susantitaphong; Michael Rocco; Raymond Vanholder; Mehmet Sukru Sever; Dinna Cruz; Bertrand Jaber; Norbert H Lameire; Raúl Lombardi; Andrew Lewington; John Feehally; Fredric Finkelstein; Nathan Levin; Neesh Pannu; Bernadette Thomas; Eliah Aronoff-Spencer; Giuseppe Remuzzi
Journal:  Lancet       Date:  2015-03-13       Impact factor: 79.321

3.  Impact of high glucose and transforming growth factor-β on bioenergetic profiles in podocytes.

Authors:  Nicole Stieger; Kirstin Worthmann; Beina Teng; Stefan Engeli; Anibh M Das; Hermann Haller; Mario Schiffer
Journal:  Metabolism       Date:  2012-02-24       Impact factor: 8.694

4.  Defining the Apoptotic Trigger: THE INTERACTION OF CYTOCHROME c AND CARDIOLIPIN.

Authors:  Evan S O'Brien; Nathaniel V Nucci; Brian Fuglestad; Cecilia Tommos; A Joshua Wand
Journal:  J Biol Chem       Date:  2015-10-20       Impact factor: 5.157

Review 5.  Mitonuclear communication in homeostasis and stress.

Authors:  Pedro M Quirós; Adrienne Mottis; Johan Auwerx
Journal:  Nat Rev Mol Cell Biol       Date:  2016-03-09       Impact factor: 94.444

Review 6.  Acute kidney injury.

Authors:  Rinaldo Bellomo; John A Kellum; Claudio Ronco
Journal:  Lancet       Date:  2012-05-21       Impact factor: 79.321

Review 7.  Molecular aspects of renal senescence.

Authors:  Roland Schmitt; Nathan Susnik; Anette Melk
Journal:  Curr Opin Organ Transplant       Date:  2015-08       Impact factor: 2.640

8.  Acute renal failure in critically ill patients: a multinational, multicenter study.

Authors:  Shigehiko Uchino; John A Kellum; Rinaldo Bellomo; Gordon S Doig; Hiroshi Morimatsu; Stanislao Morgera; Miet Schetz; Ian Tan; Catherine Bouman; Ettiene Macedo; Noel Gibney; Ashita Tolwani; Claudio Ronco
Journal:  JAMA       Date:  2005-08-17       Impact factor: 56.272

Review 9.  Nephrotoxic effects of common and emerging drugs of abuse.

Authors:  William F Pendergraft; Leal C Herlitz; Denyse Thornley-Brown; Mitchell Rosner; John L Niles
Journal:  Clin J Am Soc Nephrol       Date:  2014-07-17       Impact factor: 8.237

Review 10.  The Nrf2 pathway in the progression of renal disease.

Authors:  Carlamaria Zoja; Ariela Benigni; Giuseppe Remuzzi
Journal:  Nephrol Dial Transplant       Date:  2013-06-11       Impact factor: 5.992
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  38 in total

1.  Renal tubule Cpt1a overexpression protects from kidney fibrosis by restoring mitochondrial homeostasis.

Authors:  Verónica Miguel; Jessica Tituaña; J Ignacio Herrero; Laura Herrero; Dolors Serra; Paula Cuevas; Coral Barbas; Diego Rodríguez Puyol; Laura Márquez-Expósito; Marta Ruiz-Ortega; Carolina Castillo; Xin Sheng; Katalin Susztak; Miguel Ruiz-Canela; Jordi Salas-Salvadó; Miguel A Martínez González; Sagrario Ortega; Ricardo Ramos; Santiago Lamas
Journal:  J Clin Invest       Date:  2021-03-01       Impact factor: 14.808

2.  Long-term dietary restriction ameliorates ageing-related renal fibrosis in male mice by normalizing mitochondrial functions and autophagy.

Authors:  Chun-Hsien Chiang; Sin-Jin Li; Ting-Rui Zhang; Ching-Yi Chen
Journal:  Biogerontology       Date:  2022-10-02       Impact factor: 4.284

3.  Hepatoprotective Effect of Mitochondria-Targeted Antioxidant Mito-TEMPO against Lipopolysaccharide-Induced Liver Injury in Mouse.

Authors:  Peng-Fei Wang; Ke Xie; Yun-Xing Cao; An Zhang
Journal:  Mediators Inflamm       Date:  2022-06-20       Impact factor: 4.529

Review 4.  Indoleamine 2,3 Dioxygenase 1-The Potential Link between the Innate Immunity and the Ischemia-Reperfusion-Induced Acute Kidney Injury?

Authors:  Anna Krupa; Mikolaj M Krupa; Krystyna Pawlak
Journal:  Int J Mol Sci       Date:  2022-05-31       Impact factor: 6.208

Review 5.  Mitochondrial Metabolism in Acute Kidney Injury.

Authors:  Amanda J Clark; Samir M Parikh
Journal:  Semin Nephrol       Date:  2020-03       Impact factor: 5.299

6.  FOXO1 inhibition prevents renal ischemia-reperfusion injury via cAMP-response element binding protein/PPAR-γ coactivator-1α-mediated mitochondrial biogenesis.

Authors:  Di Wang; Yanqing Wang; Xiantong Zou; Yundi Shi; Qian Liu; Tianru Huyan; Jing Su; Qi Wang; Fengxue Zhang; Xuejun Li; Lu Tie
Journal:  Br J Pharmacol       Date:  2019-12-23       Impact factor: 8.739

Review 7.  Mitochondrial Reactive Oxygen Species and Their Contribution in Chronic Kidney Disease Progression Through Oxidative Stress.

Authors:  Hasna Tirichen; Hasnaa Yaigoub; Weiwei Xu; Changxin Wu; Rongshan Li; Yafeng Li
Journal:  Front Physiol       Date:  2021-04-23       Impact factor: 4.566

Review 8.  Energetic dysfunction in sepsis: a narrative review.

Authors:  Sebastien Preau; Dominique Vodovar; Boris Jung; Steve Lancel; Lara Zafrani; Aurelien Flatres; Mehdi Oualha; Guillaume Voiriot; Youenn Jouan; Jeremie Joffre; Fabrice Uhel; Nicolas De Prost; Stein Silva; Eric Azabou; Peter Radermacher
Journal:  Ann Intensive Care       Date:  2021-07-03       Impact factor: 6.925

Review 9.  Circulating Mitochondrial DNA Stimulates Innate Immune Signaling Pathways to Mediate Acute Kidney Injury.

Authors:  Jiaye Liu; Zhanjun Jia; Wei Gong
Journal:  Front Immunol       Date:  2021-06-24       Impact factor: 7.561

Review 10.  Mitochondrial Quality Control in Cerebral Ischemia-Reperfusion Injury.

Authors:  Mimi Wu; Xiaoping Gu; Zhengliang Ma
Journal:  Mol Neurobiol       Date:  2021-07-18       Impact factor: 5.590
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