Abstract
Nephrotoxicity is a common complication of cisplatin chemotherapy and, thus, limits the clinical application of cisplatin. In this work, the effects of catalpol (CAT), a bioactive ingredient extracted from Rehmannia glutinosa, on cisplatin-induced nephrotoxicity and antitumor efficacy were comprehensively investigated. Specifically, the protective effect of CAT on cisplatin-induced injury was explored in mice and HK-2 cells. In vivo, CAT administration strikingly suppressed cisplatin-induced renal dysfunction, morphology damage, apoptosis, and inflammation. In vitro, CAT induced activation of adenosine 5′-monophosphate- (AMP-) activated protein kinase (AMPK), improved mitochondrial function, and decreased generation of cellular reactive oxygen species (ROS), leading to a reduction in inflammation and apoptosis, which ultimately protected from cisplatin-induced injury. However, the beneficial effects of CAT were mostly blocked by coincubation with compound C. Furthermore, molecular docking results indicated that CAT had a higher affinity for AMPK than other AMPK activators such as danthron, phenformin, and metformin. Importantly, CAT possessed the ability to reverse drug resistance without compromising the antitumor properties of cisplatin. These findings suggest that CAT exerts positive effects against cisplatin-induced renal injury through reversing drug resistance via the mitochondrial-dependent pathway without affecting the anticancer activity of cisplatin.
Highlights
Cisplatin, an effective and reliable DNA toxin, is widely used against many kinds of solid tumors, including esophageal [1], lung [2], gastric [3], bladder, and liver cancer [4]
Cisplatin-induced acute kidney injury (AKI) is characterized by dilation of renal tubules, extensive necrosis, and exfoliation of epithelial cells; these contribute to a loss of kidney functions, including severe decreases in glomerular filtration and creatinine (CRE) clearance and increases in serum CRE and blood urea nitrogen (BUN) [6]
To investigate the protective effect of CAT on renal injury induced by cisplatin, kidney weight, body weight, and serum biochemical factors were examined in mice
Summary
An effective and reliable DNA toxin, is widely used against many kinds of solid tumors, including esophageal [1], lung [2], gastric [3], bladder, and liver cancer [4]. Cisplatin-induced acute kidney injury (AKI) is characterized by dilation of renal tubules, extensive necrosis, and exfoliation of epithelial cells; these contribute to a loss of kidney functions, including severe decreases in glomerular filtration and creatinine (CRE) clearance and increases in serum CRE and blood urea nitrogen (BUN) [6]. An obvious increase in the kidney index (kidney weight/body weight) has been observed in mice treated with cisplatin [7]. The upregulation of kidney injury molecule-1 (KIM-1), a nephrotoxic biomarker, has been observed in cisplatin-treated mice, indicating severe kidney injury [8]. The mechanisms underlying cisplatin-induced AKI involves DNA damage and mitochondrial dysfunction followed by oxidative stress, apoptosis, and necrosis [9]. ROS accumulation impairs mitochondrial function, producing a reduction in ATP levels and mitochondrial
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