BackgroundChrysophyllum cainito L., a tropical fruit tree, has been used as an alternative medicine for the treatment of diabetic patients in many countries. However, there is very limited scientific rationale for this medical use. The present study aimed to evaluate the antidiabetic activity of the extract from C. cainito stem bark and the possible mechanisms underlying this activity.MethodsPhytochemistry and in vitro antioxidant capacity of the extract were studied. Hypoglycemic activity of the extract was examined in normal and alloxan-induced diabetic mice. The effect of C. cainito extract on glucose absorption and glucose uptake were conducted using mouse isolated jejunum and abdominal muscle, respectively. Finally, an in vitro effect of C. cainito extract on α-glucosidase activity was evaluated.ResultsC. cainito extract possessed a strong antioxidant activity comparable to the ascorbic acid and butylated hydroxytoluene. The extract at 500 mg/kg significantly reduced the area under curve of blood glucose level in oral glucose tolerance test in normal mice. In alloxan-induced diabetic model, similar to glibenclamide, a single dose of the extract significantly decreased fasting blood glucose level from 387.17 ± 29.84 mg/dl to 125.67 ± 62.09 mg/dl after 6 h of administration. From the isolated jejunum experiment, the extract at any doses used did not inhibit glucose absorption. However, the extract at 50 μg/ml significantly increased the amount of glucose uptake by abdominal muscles in the presence of insulin (P < 0.05). Lastly, it was found that the extract produced stronger inhibition of α-glucosidase activity (IC50 = 1.20 ± 0.09 μg/ml) than acarbose (IC50 = 198.17 ± 4.74 μg/ml).ConclusionDirect evidence of antidiabetic activity of C. cainito stem bark with possible modes of action, glucose uptake stimulation and α-glucosidase inhibitory effect, was reported for the first time herein. These data support the potential use of this plant for the treatment of diabetic patients.
Withania coagulans is an Indian medicinal herb, the natural extracts of which are purported to have health-benefiting properties. In this study, the extract was encapsulated in nature-derived polymers with the aim of enhancing its bioavailability. The aqueous extract obtained from the plant W. coagulans was found to elicit the glucose-lowering effect by means of promoting insulin secretion from pancreatic β cells. The cells treated with the extract showed a nearly 2-fold increase in insulin secretion compared to untreated cells. A delivery system for the extract was developed based on electrosprayed chitosan nanoparticles coated with food-based starch. The enteric starch coating retarded (by 2.5 times) the release of the extract in the stomach. The bioactivity of the encapsulated extract was subsequently tested in vitro on mouse-derived pancreatic β cells, whereby the delivery system was found to promote insulin secretion. Finally, the extract-encapsulated oral delivery system was tested on diabetic mice and was validated to decrease blood glucose levels by 60%. In summary, it could be inferred that food-grade enteric-coated polysaccharide-based particles increase the bioavailability of the extracted compounds from the plant W. coagulans .
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