RESUMEN
Paridis Rhizoma possesses the functions of clearing heat and detoxifying, alleviating swelling and relieving pain, cooling the liver and calming the convulsion. Saponins are the main active components of Paridis Rhizoma. Studies have shown that total saponins in Paridis Rhizoma have obvious inhibitory effect on solid tumors such as breast cancer, lung cancer, gastric cancer, and liver cancer and non-solid tumors such as leukemia. The saponins may exert the anti-tumor effects by inhibiting the proliferation, migration, and invasion of tumor cells, regulating cell cycle, inducing apoptotic and non-apoptotic death pathways, and regulating metabolism and tumor microenvironment. Furthermore, total saponins in Paridis Rhizoma showed anti-inflammatory, antioxidant, antimicrobial, hemostatic, and uterus-contracting activities. At the same time, they may induce apoptosis of normal cells, inflammation and oxidative stress, and metabolic disorders. In recent years, the reports of liver injury, reproductive injury, gastrointestinal injury, hemolysis, and other adverse reactions caused by total saponins in Paridis Rhizoma have been increasing. Pharmacokinetic studies have shown that there are significant differences in the metabolism of total saponins in Paridis Rhizoma administrated in different ways. Injection has a fast clearance rate, while oral administration may have hepatoenteric circulation. Meanwhile, due to the low solubility and activation of P-glycoprotein (P-gp) molecular pump, the prototype absorption, intestinal permeability, and recovery rate of total saponins in Paridis Rhizoma are poor, which affects the bioavailability. The bioavailability can be improved to some extent by preparing new dosage forms or new drug delivery systems with advanced technology. This paper reviews the pharmacological effect, pharmacokinetics, and adverse reactions of Rhizoma Paridis total saponins by searching the China National Knowledge Infrastructure (CNKI), VIP, and Web of Science with ''Rhizoma Paridis total saponins'' as the keywords, hoping to provide references for the research, development, and clinical application of such components.
RESUMEN
Ferroptosis, a new form of programmed cell death different from apoptosis, necrosis, and autophagy, is closely associated with a variety of physiological and pathological processes. Iron-mediated accumulation of reactive oxygen species is the main inducement of ferroptosis, the mechanism of which is related to intracellular lipid metabolism, iron metabolism, and antioxidant defense pathways. Multiple signaling axes and regulators jointly regulate the occurrence and disruption of ferroptosis. Studies have demonstrated that ferroptosis regulates the growth and proliferation of tumor cells. Inducing ferroptosis in tumor cells can control the growth, metastasis, and multi-drug resistance of tumors. Therefore, the effect and mechanism of ferroptosis on tumor cells have become a hot topic in anti-cancer research. As the research advances, a variety of ferroptosis inducers has been used in the clinical chemotherapy for cancers and demonstrate significant efficacy. Accordingly, the development of ferroptosis-inducing anticancer drugs has become a new research direction for tumor treatment. Some active ingredients such as lycorine, oleanolic acid, dihydroartemisinin, pseudolaric acid B, and ophiopogonin B of Chinese medicines can induce ferroptosis in tumor cells via lipid metabolism, iron metabolism, system Xc-, and GPX4/GSH to regulate the development of tumors, demonstrating a promising prospect in clinical treatment. Based on the theory of the mechanism of ferroptosis, this paper reviews the research progress in ferroptosis induced by active ingredients of Chinese medicines in tumor cells and describes the metabolic regulatory network of ferroptosis from signaling pathways and regulatory factors, providing new strategies for applying active ingredients of Chinese medicines in the treatment of tumors.