A new Jun amino-terminal kinase inhibitor, KRev-202, inhibits rat ischemic acute injury and the progression to renal fibrosis
David J. Nikolic-Paterson, Greg H. Tesch, Elyce Ozols, Kurt Jarnagin, Yoshi Satoh, David R. Webb, Elizabeth Squiers, Keren Grynberg, Frank Y. Ma

TL;DR
A new water-soluble JNK inhibitor, KRev-202, protects against kidney injury and prevents progression to kidney fibrosis in rats.
Contribution
KRev-202 is a novel water-soluble prodrug of a JNK inhibitor that effectively prevents acute kidney injury and fibrosis in a rat model.
Findings
KRev-202 reduced plasma creatinine and kidney damage markers in rats with acute kidney injury.
Early treatment with KRev-202 prevented the progression to renal fibrosis over 21 days.
A single day of KRev-202 treatment was as effective as a 4-day regimen in protecting kidney structure.
Abstract
Ischemia is an important cause of acute kidney injury (AKI). Ischemia-induced hypoxia rapidly induces activation of the Jun amino-terminal kinase (JNK) in tubular epithelial cells of the kidney, and blockade of this enzyme is protective in short-term animal models of renal ischemia. However, the clinical translation of this finding requires a water-soluble JNK inhibitor. This study investigated whether KRev-202, a soluble prodrug of the potent and selective JNK inhibitor CC930, can prevent ischemia-induced AKI and whether short-term inhibition of JNK can prevent AKI from transitioning to renal fibrosis. In a rat model of bilateral renal ischemia/reperfusion injury (IRI), the animals received prophylactic treatment with KRev-202, the parent compound (CC-930), or a vehicle by oral gavage, starting 1 h prior to surgery. In study 1, the animals were killed on day 1 after IRI to assess the…
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Taxonomy
TopicsAcute Kidney Injury Research · Cardiac Ischemia and Reperfusion · Quinazolinone synthesis and applications
