In vitro modulation of pancreatic insulin secretion, extrapancreatic insulin action and peptide glycation by Curcuma longa aqueous extracts -

Journal of Experimental and Integrative Medicine Pub Date : 2014-06-27 DOI:10.5455/JEIM.170414.OR.101

V. Kasabri, P. Flatt, Y. Abdel-Wahab

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引用次数: 5

Abstract

Objective: Medicinal, edible, and aromatic plants have been used as folk remedies in traditional treatments worldwide. This study investigates the antidiabetic efficacy and action mode of Curcuma longa Linn. (Zingiberaceae). Methods: Effects of aqueous extracts (AEs) of C. longa on insulin secretion and action were studied using the insulin-secreting BRIN-BD11 and the adipocyte-like 3T3-L1 cell lines, respectively. In vitro models were employed to evaluate effects on starch digestion using α-amylase/amyloglucosidase and protein glycation. Results: C. longa AEs stimulated basal insulin output and potentiated glucose-stimulated insulin secretion concentration-dependently in the clonal pancreatic beta cell line, BRIN-BD11 (P < 0.001). The insulin secretory activity of plant extract was abolished in the absence of extracellular Ca 2+ and by inhibitors of cellular Ca 2+ uptake, diazoxide and verapamil (P < 0.001). Furthermore, the extract increased insulin secretion in depolarized cells and augmented insulin secretion triggered by 3-isobutyl-1-methylxanthine, tolbutamide, and glibenclamide. C. longa AEs lacked insulin mimetic activity but enhanced insulin-stimulated glucose transport in 3T3-L1 adipocytes by 370% (P < 0.001). Similar to aminoguanidine, C. longa AEs (1-50 mg/ml) effected concentration-dependent inhibition of protein glycation (24-70% inhibition, P < 0.001) in vitro. In bioassays of enzymatic starch digestion, C. longa AEs lacked inhibitory effects on α-amylase and α-glucosidase, unlike acarbose, the classical reference drug. Conclusion: This study has revealed that water soluble bioactive principles in C. longa AEs stimulate basal- and potentiate glucose evoked-insulin secretion, enhance insulin action and inhibit insulin glycation, but not starch digestion. Future work assessing the use of C. longa AEs as dietary adjunct or as a source of active antidiabetic agents may provide new opportunities for the combinatorial treatment/prevention of diabetes.

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姜黄水提物对胰腺胰岛素分泌、胰外胰岛素作用和肽糖基化的体外调节

目的:药用、食用和芳香植物在世界各地的传统治疗中都被用作民间偏方。本研究探讨了姜黄的抗糖尿病功效及其作用机制。(姜科)。方法:采用胰岛素分泌细胞BRIN-BD11和脂肪样3T3-L1细胞株，研究龙骨草水提物(ae)对胰岛素分泌和作用的影响。采用体外模型评价α-淀粉酶/淀粉葡糖苷酶和蛋白糖化对淀粉消化的影响。结果:长藤ae刺激克隆胰腺β细胞系BRIN-BD11的基础胰岛素输出和葡萄糖刺激的胰岛素分泌浓度依赖(P < 0.001)。在缺乏细胞外ca2 +和细胞ca2 +摄取抑制剂、二氮氧化物和维拉帕米的情况下，植物提取物的胰岛素分泌活性被破坏(P < 0.001)。此外，该提取物增加去极化细胞的胰岛素分泌，并增强由3-异丁基-1-甲基黄嘌呤、甲苯丁胺和格列本脲引发的胰岛素分泌。C. longa ae缺乏胰岛素模拟活性，但胰岛素刺激的3T3-L1脂肪细胞中的葡萄糖转运增加了370% (P < 0.001)。与氨基胍相似，龙葵ae (1 ~ 50 mg/ml)对糖化蛋白的抑制作用呈浓度依赖性(24 ~ 70%，P < 0.001)。在酶解淀粉的生物测定中，与经典参比药物阿卡波糖不同，龙葵ae对α-淀粉酶和α-葡萄糖苷酶缺乏抑制作用。结论:本研究揭示了龙葵多糖的水溶性生物活性原理，其刺激基础和增强葡萄糖唤起胰岛素分泌，增强胰岛素作用，抑制胰岛素糖基化，但不抑制淀粉消化。今后的研究工作将评估龙葵ae作为膳食辅料或活性抗糖尿病药物的来源，这可能为糖尿病的联合治疗/预防提供新的机会。

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Journal of Experimental and Integrative Medicine

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