Literature DB >> 31411074

Long-term outcomes in mouse models of ischemia-reperfusion-induced acute kidney injury.

Lauren Scarfe1, Anna Menshikh1, Emily Newton1, Yuantee Zhu1,2, Rachel Delgado1, Charlene Finney1, Mark P de Caestecker1,3.   

Abstract

Severe acute kidney injury has a high mortality and is a risk factor for progressive chronic kidney disease. None of the potential therapies that have been identified in preclinical studies have successfully improved clinical outcomes. This failure is partly because animal models rarely reflect the complexity of human disease: most preclinical studies are short term and are commonly performed in healthy, young, male mice. Therapies that are effective in preclinical models that share common clinical features seen in patients with acute kidney injury, including genetic diversity, different sexes, and comorbidities, and evaluate long-term outcomes are more likely to predict success in the clinic. Here, we evaluated susceptibility to chronic kidney disease after ischemia-reperfusion injury with delayed nephrectomy by monitoring long-term functional and histological responses to injury. We defined conditions required to induce long-term postinjury renal dysfunction and fibrosis without increased mortality in a reproducible way and evaluate effect of mouse strains, sexes, and preexisting diabetes on these responses.

Entities:  

Keywords:  acute kidney injury; diabetes; glomerular filtration rate; ischemia-reperfusion injury; mouse strains

Mesh:

Year:  2019        PMID: 31411074      PMCID: PMC7132317          DOI: 10.1152/ajprenal.00305.2019

Source DB:  PubMed          Journal:  Am J Physiol Renal Physiol        ISSN: 1522-1466


  58 in total

1.  Transcutaneous measurement of renal function in conscious mice.

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Authors:  Oleksa Rewa; Sean M Bagshaw
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Review 4.  Hypoxia of the renal medulla--its implications for disease.

Authors:  M Brezis; S Rosen
Journal:  N Engl J Med       Date:  1995-03-09       Impact factor: 91.245

5.  Enhanced recovery from postischemic acute renal failure. Micropuncture studies in the rat.

Authors:  W F Finn
Journal:  Circ Res       Date:  1980-03       Impact factor: 17.367

Review 6.  Bridging translation for acute kidney injury with better preclinical modeling of human disease.

Authors:  Nataliya I Skrypnyk; Leah J Siskind; Sarah Faubel; Mark P de Caestecker
Journal:  Am J Physiol Renal Physiol       Date:  2016-03-09

7.  Sexual dimorphism in renal ischemia-reperfusion injury in rats: possible role of endothelin.

Authors:  Veronika Müller; György Losonczy; Uwe Heemann; Adám Vannay; Andrea Fekete; György Reusz; Tivadar Tulassay; Attila J Szabó
Journal:  Kidney Int       Date:  2002-10       Impact factor: 10.612

8.  Pyridoxamine reduces postinjury fibrosis and improves functional recovery after acute kidney injury.

Authors:  Nataliya I Skrypnyk; Paul Voziyan; Haichun Yang; Christian R de Caestecker; Marie-Claude Theberge; Mathieu Drouin; Billy Hudson; Raymond C Harris; Mark P de Caestecker
Journal:  Am J Physiol Renal Physiol       Date:  2016-05-18

9.  Ischemia-reperfusion model of acute kidney injury and post injury fibrosis in mice.

Authors:  Nataliya I Skrypnyk; Raymond C Harris; Mark P de Caestecker
Journal:  J Vis Exp       Date:  2013-08-09       Impact factor: 1.355

10.  Delayed recovery of renal regional blood flow in diabetic mice subjected to acute ischemic kidney injury.

Authors:  Haikun Shi; Daniel Patschan; Tracy Epstein; Michael S Goligorsky; Joseph Winaver
Journal:  Am J Physiol Renal Physiol       Date:  2007-09-19
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  6 in total

1.  Endoplasmic reticulum protein TXNDC5 promotes renal fibrosis by enforcing TGF-β signaling in kidney fibroblasts.

Authors:  Yen-Ting Chen; Pei-Yu Jhao; Chen-Ting Hung; Yueh-Feng Wu; Sung-Jan Lin; Wen-Chih Chiang; Shuei-Liong Lin; Kai-Chien Yang
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2.  Validation of HDAC8 Inhibitors as Drug Discovery Starting Points to Treat Acute Kidney Injury.

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Journal:  ACS Pharmacol Transl Sci       Date:  2022-03-16

Review 3.  Experimental models of acute kidney injury for translational research.

Authors:  Neil A Hukriede; Danielle E Soranno; Veronika Sander; Tayla Perreau; Michelle C Starr; Peter S T Yuen; Leah J Siskind; Michael P Hutchens; Alan J Davidson; David M Burmeister; Sarah Faubel; Mark P de Caestecker
Journal:  Nat Rev Nephrol       Date:  2022-02-16       Impact factor: 42.439

4.  Capillary rarefaction is more closely associated with CKD progression after cisplatin, rhabdomyolysis, and ischemia-reperfusion-induced AKI than renal fibrosis.

Authors:  Anna Menshikh; Lauren Scarfe; Rachel Delgado; Charlene Finney; Yuantee Zhu; Haichun Yang; Mark P de Caestecker
Journal:  Am J Physiol Renal Physiol       Date:  2019-09-11

5.  Murine models of renal ischemia reperfusion injury: An opportunity for refinement using noninvasive monitoring methods.

Authors:  Rachel Harwood; Joshua Bridge; Lorenzo Ressel; Lauren Scarfe; Jack Sharkey; Gabriela Czanner; Philip A Kalra; Aghogho Odudu; Simon Kenny; Bettina Wilm; Patricia Murray
Journal:  Physiol Rep       Date:  2022-03

6.  DDR1 contributes to kidney inflammation and fibrosis by promoting the phosphorylation of BCR and STAT3.

Authors:  Corina M Borza; Gema Bolas; Fabian Bock; Xiuqi Zhang; Favour C Akabogu; Ming-Zhi Zhang; Mark de Caestecker; Min Yang; Haichun Yang; Ethan Lee; Leslie Gewin; Agnes B Fogo; W Hayes McDonald; Roy Zent; Ambra Pozzi
Journal:  JCI Insight       Date:  2022-02-08
  6 in total

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