Abstract
Acute renal failure is a serious complication of the anticancer drug cisplatin. The potential role of baicalein, a naturally occurring bioflavonoid on cisplatin-induced renal injury is unknown. Here, we assessed the effect of baicalein against a murine model of cisplatin-induced acute renal failure and investigated the underlying possible mechanisms. Renal function, kidney histology, inflammation, oxidative stress, renal mitochondrial function, proteins involved in apoptosis, nuclear translocation of Nrf2 and effects on intracellular signaling pathways such as MAPKs, and NF-κB were assessed. Pretreatment with baicalein ameliorated the cisplatin-induced renal oxidative stress, apoptosis and inflammation and improved kidney injury and function. Baicalein inhibited the cisplatin-induced expression of iNOS, TNF-α, IL-6 and mononuclear cell infiltration and concealed redox-sensitive transcription factor NF-κB activation via reduced DNA-binding activity, IκBα phosphorylation and p65 nuclear translocation in kidneys. Further studies demonstrated baicalein markedly attenuated cisplatin-induced p38 MAPK, ERK1/2 and JNK phosphorylation in kidneys. Baicalein also restored the renal antioxidants and increased the amount of total and nuclear accumulation of Nrf2 and downstream target protein, HO-1 in kidneys. Moreover, baicalein preserved mitochondrial respiratory enzyme activities and inhibited cisplatin-induced apoptosis by suppressing p53 expression, Bax/Bcl-2 imbalance, cytochrome c release and activation of caspase-9, caspase-3 and PARP. Our findings suggest that baicalein ameliorates cisplatin-induced renal damage through up-regulation of antioxidant defense mechanisms and down regulation of the MAPKs and NF-κB signaling pathways.
Highlights
Cisplatin, a platinum-based inorganic compound, is one of the most potent and most widely used antineoplastic drugs
The serum levels of renal injury biomarkers, such as blood urea nitrogen (BUN) (Fig 1A) and creatinine (Fig 1B) and the relative weight of kidneys (Fig 1C) were significantly (p< 0.001) increased and the body weight (Fig 1D) was significantly (p< 0.001) decreased in cisplatin alone administered mice when compared with the vehicle control mice
Kidney tissue sections from mice treated with cisplatin alone (Fig 2C) revealed obvious structural damage such as tubular degeneration, extensive epithelial vacuolization and necrosis, massive infiltration of inflammatory cells and formation of hyaline casts in the renal tubules
Summary
A platinum-based inorganic compound, is one of the most potent and most widely used antineoplastic drugs. It is used for the treatment of several human malignancies, including. Baicalein Ameliorates Cisplatin-Induced AKI in Mice testicular, ovarian, head, neck and lung cancers [1]. The clinical use of cisplatin as a chemotherapeutic agent is limited by its side effects in normal tissues. Due to preferential accumulation of cisplatin in renal tubules, acute kidney injury is a serious and frequent complication in cancer patients undergoing cisplatin chemotherapy [2]. Despite advances in understanding the pathophysiology of cisplatin-induced toxicities and improved supportive care, in clinical practice, approximately 25–40% patients experience renal dysfunction after treatment with cisplatin [3]. A great challenge lies ahead in identifying an effective therapy for the prevention of nephrotoxicity associated with cisplatin therapy
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