Advances in biosynthesis of triterpenoid saponins in medicinal plants / 中国天然药物

In recent years, biosynthesis of triterpenoid saponins in medicinal plants has been widely studied because of their active ingredients with diverse pharmacological activities. Various oxidosqualene cyclases, cytochrome P450 monooxygenases, uridine diphosphate glucuronosyltransferases, and transcription factors related to triterpenoid saponins biosynthesis have been explored and identified. In the biosynthesis of triterpenoid saponins, the progress of gene mining by omics-based sequencing, gene screening, gene function verification, catalyzing mechanism of key enzymes and gene regulation are summarized and discussed. By the progress of the biosynthesis pathway of triterpenoid saponins, the large-scale production of some triterpenoid saponins and aglycones has been achieved through plant tissue culture, transgenic plants and engineered yeast cells. However, the complex biosynthetic pathway and structural diversity limit the biosynthesis of triterpenoid saponins in different system. Special focus can further be placed on the systematic botany information of medicinal plants obtained from omics large dataset, and triterpenoid saponins produced by synthetic biology strategies, gene mutations and gene editing technology.

Actividad incrementada de las enzimas citocromo P450 monooxigenasas en cepas cubanas de Aedes aegypti de referencia, resistentes a insecticidas / Increased activity of cytochrome P450 monooxygenase enzymes in reference insecticide-resistant Aedes aegypti strains from Cuba

Introducción: las enzimas desintoxicadoras citocromo P450 monooxigenasas (MFO) constituyen uno de los principales mecanismos de resistencia de Aedes aegypti a insecticidas. En Cuba, aunque la presencia de estas enzimas se ha estudiado in vivo mediante el uso de sinergistas, su actividad no se ha determinado cuantitativamente in vitro, elemento que resulta imprescindible para abordar estudios de resistencia metabólica en los insectos. Objetivo: estandarizar un método para detectar la actividad de las citocromo P450 monooxigenasas in vitro, y determinarla entonces, en larvas y adultos de cepas de referencia de Aedes aegypti. Métodos: se utilizaron 3 cepas de laboratorio de Aedes aegypti seleccionadas por 14 o 15 generaciones con temefos, deltametrina o propoxur, respectivamente, y una cepa susceptible a los insecticidas. Resultados: se establecieron las condiciones para los ensayos de actividad enzimática (concentración de proteínas y de sustrato, 0,4 mg/mL y 12 mmol/L, respectivamente; y tiempo de reacción de 10 min). Hubo un incremento significativo de la actividad de las citocromo P450 monooxigenasas en las cepas resistentes, con una mayor frecuencia fenotípica de este carácter en el estadio larva. Conclusiones: las modificaciones a la técnica para la determinación de la actividad enzimática permitieron discriminar entre mosquitos de cepas susceptibles y resistentes en los estadios larva y adulto, por lo que se cuenta con otra herramienta para la detección de la resistencia metabólica en Cuba

Introduction: cytochrome P450 monooxygenase detoxifying enzymes (MFO) are one of the main resistance mechanisms of Aedes aegypti to insecticides. In vivo studies of the presence of these enzymes have been conducted in Cuba with the use of synergists. However, their activity has not been quantitatively determined in vitro, an indispensable step in studies about metabolic resistance in insects. Objective: standardize a method to detect the activity of cytochrome P450 monooxygenase in vitro, and then determine such activity in larvae and adults of Aedes aegypti reference strains. Methods: the study was based on three laboratory strains of Aedes aegypti selected for 14 or 15 generations with temephos, deltamethrin or propoxur, respectively, and a strain susceptible to insecticides. Results: the conditions for enzyme activity assays were established (protein and substrate concentration: 0.4 mg/mL and 12 mmol/L, respectively, and reaction time: 10 min). There was a significant increase in cytochrome P450 monooxygenase activity in resistant strains, with a higher phenotypic frequency in the larval stage. Conclusions: modifications to the technique used for determination of enzymatic activity made it possible to distinguish between mosquitoes from susceptible and resistant strains in larval and adult stages, providing a new tool for the detection of metabolic resistance in Cuba

Genetic polymorphisms of cytochrome P450 oxidoreductase and its effect on drug metabolism / 中国药理学通报

Cytochrome P450 oxidoreductase (POR) is the only electron donor for all microsome Cytochrome P450 monooxygenases which are phase I metabolizing enzymes responsible for the metabolism of more than 80% drugs used in clinic.Also,POR metabolizes some anti-tumor prodrugs directly.Therefore,the alteration in POR activity caused by the polymorphisms of POR gene will be of great clinical significance.This review summarizes the newest advancement on the effects of POR polymorphisms on drug metabolism.