RESUMO
BACKGROUND: The enzyme 3-hydroxy-3-methylglutaryl coenzyme A reductase (Hmgr) catalyzes the synthesis of mevalonate, a key compound for the synthesis of cholesterol in humans and ergosterol in fungi. Since the Hmgr enzymes of Saccharomyces cerevisiae, Schizosaccharomyces pombe and Candida glabrata are similar to the Hmgr enzymes of mammals, fungal Hmgr enzymes have been proposed as a model for studying antifungal agents. AIMS: To examine the correlation between inhibiting Um-Hmgr enzyme and the viability, sterols synthesis and mating in Ustilago maydis. METHODS: Using in silico analysis, the ORF codifying for Um-Hmgr was identified and the protein characteristics were deduced. The effect of the competitive inhibitors of Um-Hmgr on the viability of this basidiomycota, the synthesis of its sterols, and its mating were evaluated. RESULTS: The Umhmgr gene (XP_011389590.1) identified putatively codifies a protein of 1443 aa (ca. MW=145.5kDa) that has a possible binding domain in the endoplasmic reticulum (ER) and high identity with the Hmgr catalytic domain of humans and other yeasts. The inhibition of Um-Hmgr caused a decrease of viability and synthesis of sterols, and also the inhibition of mating. The activity of Um-Hmgr is mainly located in the membrane fraction of the fungus. CONCLUSIONS: Given our results we believe U. maydis is a valid model for studying synthetic inhibitors with lipid-lowering or antifungal activity. Additionally, we propose the Hmgr enzyme as an alternative molecular target to develop compounds for treating both phytopathogenic and pathogenic human fungi.
Assuntos
Inibidores de Hidroximetilglutaril-CoA Redutases/farmacologia , Viabilidade Microbiana/efeitos dos fármacos , Sinvastatina/farmacologia , Ustilago/efeitos dos fármacos , Ustilago/enzimologia , Esteróis/biossíntese , Ustilago/fisiologiaRESUMO
Dragon ́s blood root (Jatropha dioica) underwent a phytochemical screening showing the presence of flavonoids and terpenes responsible for the antioxidant potential observed in DPPH model for the decoction, aqueous and methanolic extracts. The chemoprotective effect of the root decoction was evaluated in liver, kidney and bone marrow cells of mice using the comet assay. Mutagens were administered via IP: cyclophosphamide (CCF) 50 mg/kg, daunorubicin (DAU) 10 mg/kg, and metyl metanesulfonate (MMS) 40 mg/kg, were co-administered with three doses of decoction 3.72 ml/kg, 10.71 ml/kg, and 21.42 ml/kg orally. Animals were sacrificed at 3, 9, 15 and 21 h after inoculation. The chemoprotective effect decreased DNA breaks at 3 hours in all organs, and longer against CCF and DAU, this effect probably being related to the antioxidant capacity of the decoction.
La raíz de Sangre de Drago (Jatropha dioica) se sometió a un tamizaje fitoquímico destacando la presencia de flavonoides y terpenos, posibles responsables del efecto antioxidante observado en el modelo de DPPH para la decocción, extracto acuoso y metanólico de la raíz. El efecto quimioprotector de la decocción, se evaluó en células hepáticas, renales y de médula ósea de ratón, mediante el ensayo cometa. Los mutágenos administrados vía I.P.: ciclofosfamida (CCF) 50 mg/kg, daunorrubicina (DAU) 10 mg/kg y metilmetanosulfonato (MMS) 40 mg/kg, se co-administraron con tres dosis de decocción 3,72 ml/kg, 10,71 ml/kg y 21,42 ml/kg, vía oral. Los animales fueron sacrificados a las 3, 9, 15 y 21 h posteriores a la aplicación. El efecto quimioprotector disminuyó las rupturas del DNA a las 3 horas en todos los órganos con los tres mutágenos, y permaneció por más tiempo frente a CCF y DAU, dicho efecto está relacionado con la capacidad antioxidante de la decocción.