20222
Author: Oyinloye, Babatunji Emmanuel × Subject: Diabetes ×
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    Antidiabetic activity of avocado seeds (Persea americana Mill.) in diabetic rats via activation of PI3K/AKT signaling pathway
    2022
     | Nature Research
    The treatment of diabetes involves the use of herbal plants, attracting interest in their cost-effectiveness and efficacy. An aqueous extract of Persea americana seeds (AEPAS) was explored in this study as a possible therapeutic agent in rats with diabetes mellitus. The induction of diabetes in the rats was achieved by injecting 65 mg/kg body weight (BWt) of alloxan along with 5% glucose. This study was conducted using thirty-six (36) male Wistar rats. The animals were divided into 6 equal groups, (n = 6) and treated for 14 days. In vitro assays for total flavonoid, phenols, FRAP, DPPH, NO, α-amylase, and α-glucosidase, were performed. Biochemical indices fasting blood sugar (FBS), BWt, serum insulin, liver hexokinase, G6P, FBP, liver glycogen, IL-6, TNF-α, and NF-ĸB in the serum, were investigated as well as the mRNA expressions of PCNA, Bcl2, PI3K/Akt in the liver and pancreas. The in vitro analyses showed the potency of AEPAS against free radicals and its enzyme inhibitory potential as compared with the positive controls. AEPAS showed a marked decrease in alloxan-induced increases in FBG, TG, LDL-c, G6P, F-1, 6-BP, MDA, IL-6, TNF-α, and NF-ĸB and increased alloxan-induced decreases in liver glycogen, hexokinase, and HDL-c. The diabetic control group exhibited pancreatic dysfunction as evidenced by a reduction in serum insulin, HOMA-β, expressions of PI3K/AKT, Bcl-2, and PCNA combined with an elevation in HOMA-IR. The HPLC revealed luteolin and myricetin to be the phytochemicals that were present in the highest concentration in AEPAS. The outcome of this research showed that the administration of AEPAS can promote the activation of the PI3K/AkT pathway and the inhibition of β-cell death, which may be the primary mechanism by which AEPAS promotes insulin sensitivity and regulates glycolipid metabolism.
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    Phytochemicals profile and in-vitro antidiabetic potentials of fractionated extracts of Entada africana and Leptadenia hastata
    2022
     | PC Technology Center
    Aim: To confirm their use in the management of diabetes and to determine the numerous phytochemicals present that may be connected to the active performance of the plants, the fractionated extracts of Leptadenia hastata and Entada africana were subjected to an in vitro experiment. Material and methods: The plant leaves were dried, pulverized with a Sumeet CM/L 2128945 grinder, the particle size was 45.85 μm and extracted with methanol. The crude extracts were fractionated using a 30×8 cm diameter column and 60 g of silica gel 60 F254 grade, using methanol as eluent and fractions were concentrated using a rotary evaporator, the fractionated extracts were run on thin layer Chromatographic plate (TLC) and their retardation factors (RF) were determined. Fractions of similar RF were pulled together and spotted again using TLC plate and the final (RF) were calculated. The crude extracts were quantified for the content of phytochemicals and the phytochemicals present in the fractionated extracts (LH1 and EA2 ) were identified using HPLC-UV detector. The extracts (LH1 and EA2 ) were tested for antidiabetic potentials using α -glucosidase and α-amylase enzymes in an in-vitro antidiabetic assay. Results: The yields of the fractionated extracts were 10.0 mg (Leptadenia hastata) and 11.5.0 mg (Entada Africana) and designated as LH1 and EA2, the RF for LH1 and EA2 were 0.75±0.01 and 0.77±0.03 respectively. The maximum amount of alkaloid was found in E. Africana (14.50±0.25 mg/g), while tannin was not found in L. Hastata. In the portion of L. Hastata (LH1 ), thirteen phytochemicals were discovered and out of these three were alkaloids. Thirteen phytochemicals were found in the E. Africana fraction (EA2 ), with eight of them being alkaloids and flavonoids. When compared to the usual acarbose, the plants’ anti-diabetic properties were superior. EA2 had EC50 of 0.950.17 g/ml (α-amylase) and 0.970.41 g/ml (α-glucosidase), while LH1 had EC50 of 1.00±0.11 g/ml (α-amylase) and 0.90±0.35 g/ml (α-glucosidase). The presence of the detected phytochemicals may be linked to the active qualities of the plants’ leaves. Conclusion: The phytochemical profile of fractionated extracts classified as flavonoids and alkaloids are stated to be antidiabetic agents, and this has proved that the researched plants have antidiabetic potential.
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