Background:Annona cherimola, known as “chirimoya” has been reported in Mexican traditional medicine for the treatment of diabetes.Objective:The aims of the present study were to validate and assess the traditional use of A. cherimola as an antidiabetic agent.Materials and Methods:The ethanol extract from A. cherimola (300 mg/kg, EEAc), subsequent fractions (100 mg/kg), and rutin (30 mg/kg) were studied on alloxan-induced type 2 diabetic (AITD) and normoglycemic rats. In addition, oral glucose tolerance test (OGTT) and oral sucrose tolerance test (OSTT) were performed in normoglycemic rats. Molecular docking technique was used to conduct the computational study.Results:Bioassay-guided fractionation of EEAc afforded as major antihyperglycemic compound, rutin. EEAc attenuated postprandial hyperglycemia in acute test using AITD rats (331.5 mg/dL) carrying the glycemic levels to 149.2 mg/dL. Rutin after 2 h, attenuated postprandial hyperglycemia in an acute assay using AITD rats such as EEAc, with maximum effect (150.0 mg/dL) being seen at 4 h. The antihyperglycemic activities of EEAc and rutin were comparable with acarbose (151.3 mg/dL). In the subchronic assay on AITD rats, the EEAc and rutin showed a reduction of the blood glucose levels since the 1st week of treatment, reaching levels similar to normoglycemic state (116.9 mg/kg) that stayed constant for the rest of the assay. OGTT and OSTT showed that EEAc and rutin significantly lowered blood glucose levels in normoglycemic rats at 2 h after a glucose or sucrose load such as acarbose. Computational molecular docking showed that rutin interacted with four amino acids residues in the enzyme α-glucosidase.Conclusion:The results suggest that rutin an α-glucosidase inhibitor was responsible in part of the antihyperglycemic activity of A. cherimola. Its in vivo antihyperglycemic activity is in good agreement with the traditional use of A. cherimola for the treatment of diabetes.SUMMARYThe ethanol extract from Annona cherimola (300 mg/kg, EEAc), subsequent fractions (100 mg/kg) and rutin (30 mg/kg) were studied on alloxan-induced type 2 diabetic (AITD) and normoglycemic rats. The results suggest that rutin; an α-glucosidase inhibitor was responsible in part of the antihyperglycemic activity of A. cherimola. Its in vivo antihyperglycemic activity is in good agreement with the traditional use of A. cherimola for the treatment of diabetes.Abbreviations Used: EEAc: The ethanol extract from Annona cherimola, AITD: Alloxan-induced type 2 diabetic rats, OGTT: Oral glucose tolerance test, OSTT: Oral sucrose tolerance test, DM: Diabetes mellitus
The MeOH extracts from 19 Mexican medicinal plants belonging to different families have been assessed for antiprotozoal activity against Entamoeba histolytica and Giardia lamblia. Five plant extracts, derived from Acalypha phleoides, Cnidoscolus tehuacanensis, Geranium niveum, Hellianthella quinquenervis and Teloxys graveolens, were found to possess significant activity against both protozoa, but were less potent than metronidazole. These findings tend to support the ethnomedical use of the species for the treatment of infectious diarrhoea in Mexican traditional medicine.
The in vitro antiprotozoal activity of 18 natural flavonoids has been determined against Entamoeba histolytica and Giardia lamblia. (-)-Epicatechin, (-)-epigallocatechin and kaempferol were the most active flavonoids against both protozoa.
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