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    Curcumin and its derivatives in cancer therapy: potentiating antitumor activity of cisplatin and reducing side effects
    (WILEY, 2021) Abadi, Asal Jalal; Mirzaei, Sepideh; Mahabady, Mahmood Khaksary; Hashemi, Farid; Zabolian, Amirhossein; Hashemi, Fardin; Raee, Pourya; Zarrabi, Ali
    Curcumin is a phytochemical isolated from Curcuma longa with potent tumor-suppressor activity, which has shown significant efficacy in pre-clinical and clinical studies. Curcumin stimulates cell death, triggers cycle arrest, and suppresses oncogenic pathways, thereby suppressing cancer progression. Cisplatin (CP) stimulates DNA damage and apoptosis in cancer chemotherapy. However, CP has adverse effects on several organs of the body, and drug resistance is frequently observed. The purpose of the present review is to show the function of curcumin in decreasing CP's adverse impacts and improving its antitumor activity. Curcumin administration reduces ROS levels to prevent apoptosis in normal cells. Furthermore, curcumin can inhibit inflammation via down-regulation of NF-kappa B to maintain the normal function of organs. Curcumin and its nanoformulations can reduce the hepatoxicity, neurotoxicity, renal toxicity, ototoxicity, and cardiotoxicity caused by CP. Notably, curcumin potentiates CP cytotoxicity via mediating cell death and cycle arrest. Besides, curcumin suppresses the STAT3 and NF-kappa B as tumor-promoting pathways, to enhance CP sensitivity and prevent drug resistance. The targeted delivery of curcumin and CP to tumor cells can be mediated nanostructures. In addition, curcumin derivatives are also able to reduce CP-mediated side effects, and increase CP cytotoxicity against various cancer types.
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    Overcoming doxorubicin resistance in cancer: siRNA-loaded nanoarchitectures for cancer gene therapy
    (2022) Deldar Abad Paskeh, Mahshid; Saebfar, Hamidreza; Mahabady, Mahmood Khaksary; Orouei, Sima; Hushmandi, Kiavash; Zarrabi, Ali
    Gene therapy can be used as a cancer therapy by affecting signaling networks participating in the aggressive behavior of tumors. Small interfering RNA (siRNA) is a genetic tool employed for gene silencing. The siRNA molecules have a length of 21-22 nucleotides, and are synthetic, short non-coding RNAs. The siRNA molecule should be loaded into the RISC complex to carry out its function to degrade mRNA and reduce protein expression. By targeting oncogenic pathways, siRNA can also promote chemosensitivity and reduce resistance. Doxorubicin (DOX) is an anthracycline family member capable of triggering cell cycle arrest via binding to topoisomerase II and inhibiting DNA replication. The present review focuses on the design of siRNA for increasing DOX sensitivity and overcoming resistance. Molecular pathways such as STAT3, Notch1, Mcl-1 and Nrf2 can be down-regulated by siRNA to promote DOX sensitivity. Furthermore, siRNA can be used to suppress the activity of P-glycoprotein as a cell membrane transporter of drugs, leading to enhanced accumulation of DOX. The co-delivery of DOX and siRNA both incorporated into nanoparticles can increase the intracellular accumulation in cancer cells, and protect siRNA against degradation by enzymes. Furthermore, the circulation time of DOX is lengthened to boost cytotoxicity against cancer cells. The surface modification of nanocarriers with ligands such as RGD or folate increases their selectivity towards cancer cells. Moreover, smart nanostructures, including pH-, redox- and light-responsive are optimized for siRNA and DOX delivery and tumor treatment.