Antioxidant, anti-cholinesterase, anti-α-glucosidase and prebiotic properties of beta-glucan extracted from Algerian barley

International Journal of Phytomedicine Pub Date : 2018-04-30 DOI:10.5138/09750185.2229

Saad Mebrek, H. Djeghim, Y. Mehdi, Asma Meghezzi, Sirajudheen Anwar, N. Awadh, M. Benali

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引用次数: 8

Abstract

Beta-glucan, such as barley-derived beta-glucan (BBG), are homopolysaccharides that have attracted attention by their nutritional and therapeutic properties. The aim of this study was to evaluate the antioxidant power of BBG extracted from local Algerian variety of barley (SAIDA 183), and its acetylcholinesterase, alpha glucosidase inhibitory activity as well as its prebiotic potential by fermentation with lactic acid bacteria isolated from camel’s milk, namely lactococcuslactisssplactis (Lc.l.l) and leuconostocmesenteroidesspmesenteroides (Ln.m.m). The results revealed that BBG exhibited low activity against DPPH and ferric-reducing power (IC 50 4018.61 ± 656.69 and A 0.5 at 359.88 ±63.64 µg/mL respectively), in contrast to other antioxidant tests (ABTS, Beta-carotene and CUPRAC) where BBG demonstrated a moderate activity (IC 50 529.91 ±26.37, IC 50 161.013±13.322, A 0.5 529.79 ± 48.65 µg/mL). The scavenging ability of hydroxyl radical and superoxide radical by BBG with an IC 50 at 2268.38±101.57 µg/mL and IC 50 345.26± 62.32 µg/mL, respectively, while enzymatic inhibition by BBG exhibited for AChE at IC 50 859.164 ±64.46 μg/mL , BChE at IC 50 at 725.470 ±30.95 , α-Amylase inhibitory activity at IC 50 2986.785 ± 37.046 . The bacterial growth of the two strains used in this study is favorably affected by the use of BBG as the only carbon source, in comparison with glucose as a control. In light of these findings, it can be concluded that BBG have shown moderate antioxidant and enzyme inhibitory activities and can be used as a prebiotic by acting synergistically with probiotics in functional food matrices.

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阿尔及利亚大麦β -葡聚糖的抗氧化、抗胆碱酯酶、抗α-葡萄糖苷酶和益生元特性

β -葡聚糖，如大麦衍生的β -葡聚糖(BBG)，是一种因其营养和治疗特性而引起关注的均多糖。本研究的目的是评价从阿尔及利亚本地大麦品种(SAIDA 183)中提取的BBG的抗氧化能力，以及其乙酰胆碱酯酶、α -葡萄糖苷酶的抑制活性，并利用从骆驼乳中分离的乳酸菌，即乳酸球菌(lactococcuslactisssplactis, Lc.l.l)和乳酸菌(leuconostocmesenteroidesspmesenteroides, lm .m.m)发酵其益生元潜力。结果表明，BBG对DPPH和铁还原能力(IC 50 4018.61±656.69和a0.5，分别为359.88±63.64µg/mL)表现出较低的活性，而其他抗氧化试验(ABTS， β -胡萝卜素和CUPRAC)则表现出中等的活性(IC 50 529.91±26.37,IC 161.013±13.322,a0.5 529.79±48.65µg/mL)。BBG对羟基自由基和超氧自由基的清除能力分别为2268.38±101.57µg/mL和345.26±62.32µg/mL，对AChE的酶促抑制作用为859.164±64.46 μg/mL，对BChE的酶促抑制作用为725.470±30.95，对α-淀粉酶的酶促抑制作用为2986.785±37.046。与葡萄糖作为对照相比，本研究中使用的两种菌株的细菌生长受到BBG作为唯一碳源的有利影响。综上所述，枸杞多糖具有一定的抗氧化和酶抑制活性，可与功能性食品基质中的益生菌协同作用，作为益生元。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Phytomedicine

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