Mobaraki, et al.: Molecular Mechanisms of Doxorubicin-induced CardiotoxicityDoxorubicin is among the most widely used drugs for the treatment of both adult and child cancers. Doxorubicin is the major cause of chemotherapy-induced cardiotoxicity that is dose limiting for the treatment of cancer. Many studies have explored pathophysiology and mechanisms of doxorubicininduced cardiotoxicity. Cellular and animal experiments proposed that doxorubicin-induced cardiotoxicity mechanism is multifactorial. Oxidative stress has been considered as the primary cause of cardiotoxicity. Although there is no effective treatment for doxorubicin-induced cardiotoxicity currently but many investigations are underway to discover preventive treatments whereas no specific treatment has been approved. Studies have shown that reactive oxygen species and topoisomerase 2b are molecular targets for cardioprotection. Therapeutic imaging methods and cardio-biomarkers may be helpful in the improvement of rapid detection of cardiac damage. In this review, effects of doxorubicin on DNA damage, free radical generation, mitochondrial damage, cell death and other parameters have been studied.
Introduction: Toxoplasmosis is caused by a protozoan named Toxoplasma gondii. This protozoan is a parasite of cats that can spread among other animals and birds around the world and cause a disease that varies from mild to severe. The disease is seen in the forms of acquired toxoplasmosis and congenital toxoplasmosis. Many studies have shown that there is a relationship between reproductive function and toxoplasmosis. T. gondii has led to decreased reproductive performance of males and females in many experimental animals. The aim of this study was to investigate the protective effect of hydroalcoholic extract of Solanum surattense on the brain tissue damage and brain oxidative stress induced by T. gondii in adult rats. Methods: For this purpose, 32 adult female rats were randomly divided into 4 groups. In group 1, 8 healthy rats received IP saline for 3 weeks. In group 2, 8 rats with T. gondii received IP saline for 3 weeks. In group 3, 8 rats with T. gondii received the hydroalcoholic extract of S. surattense for 3 weeks. In group 4, 8 healthy rats received the hydroalcoholic extract of S. surattense for 3 weeks. Then, brain tissue resection was performed to evaluate histological damage and levels of antioxidant enzymes. Results: Histological and biochemical studies showed that T. gondii had a deleterious effect on the brain tissue of rats and increased the level of tumor necrosis factor-α (TNF-α) and interferon-γ (IFN-γ). The administration of hydroalcoholic extract of S. surattense improved these effects due to its high antioxidant properties. Conclusion: The administration of the appropriate dose of hydroalcoholic extract of S. surattense for three consecutive weeks had a protective effect on brain tissue exposed to T. gondii.
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