Cisplatin cycles treatment sustains cardiovascular and renal damage involving TLR4 and NLRP3 pathways

Cisplatin is clinically proven to combat different cancers, including sarcomas, soft tissue cancers, bones, muscles, and blood. However, renal and cardiovascular toxicities are important limitations in cisplatin therapeutical use. Immunoinflammation could be key factor in cisplatin‐induced toxicity. The aim of the present study was to evaluate the activation of the inflammatory TLR4/NLRP3 pathway as a common mechanism for cardiovascular and renal cisplatin's cycles treatment toxicity. Adult male Wistar rats were treated with saline, cisplatin 2 mg/kg or cisplatin 3 mg/kg (intraperitoneally once a week, for five experimental weeks). After treatments, plasma, cardiac, vascular, and renal tissues were collected. Plasma malondialdehyde (MDA) and inflammatory cytokines were determined. TLR4, MyD88, NF‐κβ p65, NLRP3, and procaspase‐1 tissue expressions were also analyzed. Cisplatin treatment induced a dose‐dependent increase in plasma MDA and IL‐18. In cardiovascular system, an increase in NLRP3 and in cleaved caspase‐1 were observed in cardiac tissue and a moderate increase in TLR4, MyD88 appeared in mesenteric artery. In kidney, a significant dose‐dependent increase in TLR4, MyD88 and NLRP3 and cleaved caspase 1 expressions were observed after cisplatin treatments. In conclusion, cisplatin cycles provoke a low grade pro‐inflammatory systemic state. Kidney was more sensitive than cardiovascular tissues to this pro‐inflammatory state. TLR4 and NLRP3 are key pathways involved in renal tissue damage, NLRP3 is the main pathway involved in cardiac toxicity and TLR4 pathway in resistance vessel toxicity.

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Cisplatin cycles treatment sustains cardiovascular and renal damage involving TLR4 and NLRP3 pathways

González

Gómez-Heras

Franco-Rodríguez

et al. 2023

Pharmacology Res & Perspec

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Molecular mechanisms involved in therapeutic effects of natural compounds against cisplatin-induced cardiotoxicity: a review

Hesari,

Mohammadi,

Moradi

et al. 2024

Naunyn-Schmiedeberg's Arch Pharmacol

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Nano Spirulina platensis countered cisplatin-induced repro-toxicity by reversing the expression of altered steroid hormones and downregulation of the StAR gene

Khalil,

Rady,

Darwish

et al. 2024

Naunyn-Schmiedeberg's Arch Pharmacol

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Cisplatin is a commonly utilized chemotherapy medication for treating different sarcomas and carcinomas. Its ability interferes with cancer cells’ DNA repair pathways and postpones unfavorable outcomes in cancer patients. The current investigation’s goal was to ascertain if nano Spirulina platensis (NSP) might shield rat testicles from cisplatin damage by assessing the expression of the StAR and SOD genes, sex hormones, 17ß-hydroxysteroid dehydrogenase(17ß-HSD), sperm profile picture, oxidative condition of testes, testicular histology, and DNA damage. Four equal and random groups of 28 adult male Wistar rats were created; the control group was given saline for 8 weeks. An extraction of NSP at a concentration of 2500 mg/kg body weight was administered orally for 8 weeks to the NSP group. For the first 4 weeks, the cisplatin group was intraperitoneally injected with 2 mg/kg/body weight of cisplatin, and for the next 4 weeks, they were given a dosage of 4 mg/kg/body weight. The cisplatin + NSP group was given both NSP and cisplatin. The results of the experiment showed that intake of NSP and cisplatin improved sperm profile; re-established the balance of oxidizing agents and antioxidant state; enhanced testicular histology; promoted the histometric parameters of seminiferous tubules including epithelial height, their diameter, and Johnsen’s score, decreasing DNA breakage in testicular tissue; increased testosterone level; decreased 17ß-HSD concentration; and upregulated both the StAR and SOD gene expression in testicles compared to rats exposed to cisplatin alone. These results demonstrate that NSP is a promising agent for improving cisplatin-induced testicular injury and infertility.

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Cisplatin cycles treatment sustains cardiovascular and renal damage involving TLR4 and NLRP3 pathways

Cited by 4 publications

References 71 publications