辣木的促胰岛素作用包括诱导细胞膜去极化和提高细胞内钙浓度

O. Ojo, C. Ojo
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引用次数: 3

摘要

目的:辣木提取物具有促胰岛素和其他抗糖尿病作用,已被广泛报道。然而,油橄榄提取物这些作用背后的机制尚不清楚。方法:采用标准方法测定油松提取物的植物化学成分。测定了提取物中总黄酮和总酚类化合物的含量。采用BRIN-BD11克隆胰岛β细胞,研究其提取物对葡萄糖刺激胰岛素分泌、膜去极化和细胞内钙浓度的影响。结果:提取液中生物碱、黄酮类、糖苷类、酚类、皂苷类和单宁类成分占优势。在存在二氮氧化物(48%)或维拉帕米(35%)和不存在细胞外钙(47%)的情况下,提取物的葡萄糖依赖性胰岛素作用被显著抑制。细胞与提取物和IBMX(3-异丁基-1-甲基黄嘌呤)或tolbutamide共孵育,胰岛素分泌增加2倍,而在植物提取物存在的情况下,用30 mM KCl去极化细胞,胰岛素分泌增加1.2倍。提取物显著诱导BRIN-BD11细胞膜去极化(7.1倍)和细胞内钙浓度(2.6倍)升高。结论:油松丙酮提取物的胰岛素促胰岛素作用可能通过胰岛素释放的katp依赖性途径介导。
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Insulinotropic actions of Moringa oleifera involves the induction of membrane depolarization and enhancement of intracellular calcium concentration
Objective: Moringa oleifera extracts have been widely reported for insulinotropic and other antidiabetic effects. However, mechanisms behind these actions of M.oleifera extracts are not well understood. This study investigated a possible mechanism underlying the insulinotropic actions of acetone extract of M. oleifera Methods: Phytochemical composition of M.oleifera extract was determined using standard procedures. Total flavonoid and total phenolic compounds in the extract were also quantified. Effects of the extracts on glucose stimulated insulin secretion, membrane depolarization and intracellular calcium concentration were investigated using BRIN-BD11 clonal pancreatic beta cells. Results: Results obtained showed the preponderance of alkaloids, flavonoids, glycosides, phenols, saponins and tannins in the extract. The glucose dependent insulinotropic effects of the extract were significantly inhibited in the presence of diazoxide (48%) or verapamil (35%) and in the absence of extracellular calcium (47%). Co-incubation of cells with the extract and IBMX (3-isobutyl-1-methylxanthine) or tolbutamide increased insulin secretion by 2-fold while a 1.2-fold increase was observed in cells depolarized with 30 mM KCl in the presence of the plant extract. The extract significantly induced membrane depolarization (7.1-fold) and enhanced intracellular calcium concentration (2.6-fold) in BRIN-BD11 cells. Conclusion: These observations suggest that the insulinotropic actions of acetone extract of M.oleifera may be mediated via the KATP-dependent pathway of insulin release.
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