蔗糖共给药可降低凝集素对肠道通透性和肠道细菌定植的毒性作用。

Sucrose co-administration reduces the toxic effect of lectin on gut permeability and intestinal bacterial colonization.

机构信息

Section of Gastroenterology, New Mexico VA Health Care System, Albuquerque, NM, USA.

出版信息

Dig Dis Sci. 2010 Oct;55(10):2778-84. doi: 10.1007/s10620-010-1359-2. Epub 2010 Aug 5.

DOI:10.1007/s10620-010-1359-2

PMID:20686845

Abstract

INTRODUCTION

Legume lectins can have toxic effects when consumed without adequate cooking, occasionally leading to an acute gastroenteritis. Lectins are sugar binging proteins and may use this property to execute their toxic effects; these toxic effects may be secondary to increased gut bacteria and intestinal permeability. However, whether or not sucrose rescues these toxic effects by decreasing gut bacterial concentration and intestinal permeability is unknown.

AIM

Our aim was to test the hypothesis that sucrose may reduce toxic effects of legume lectins by protecting barrier function, bacterial overgrowth and bacterial translocation.

METHODS

Twenty-four rats were randomized to an ad libitum diet of either standard rat chow, a chow containing 26% crude red kidney beans or a chow containing 26% crude red kidney beans supplemented with 1 mM sucrose in drinking water for 24 h. After 12-h fast, rats were gavaged with sugar probes; breath gas and urine were collected for 5 h. Intestine and liver tissues were then collected. Mucosa-associated total bacterial count were measured by targeting the 16s rRNA gene. Four groups of in vitro Caco-2 cell lines were treated with PBS, 200 μg/ml phytohemagglutinin (PHA), 1 mM sucrose and both 200 μg/ml PHA and 1 mM sucrose, respectively, and trans-epithelial resistance was measured.

RESULTS

Rats fed crude red kidney beans for 24 h showed significant weight loss when compared to controls (P < 0.05), as well as increased intestinal permeability (P < 0.05), increased bacterial load (P < 0.05) and increased bacterial translocation to the liver (P < 0.05). Sucrose rescues the drop in trans-epithelial resistance due to PHA in CaCO2-cells (P < 0.05).

CONCLUSIONS

Sucrose reduced crude red kidney beans induced increase in intestinal permeability, bacterial load and translocation. Since red kidney beans are an important source of dietary protein in the world, their potential toxicity when inadequately cooked may be rescued by a suitable complementary diet.

摘要

简介

未经充分烹饪而食用豆科植物凝集素可能会产生毒性作用，偶尔会导致急性肠胃炎。凝集素是一种与糖结合的蛋白质，可能会利用这种特性来发挥其毒性作用；这些毒性作用可能继发于肠道细菌增多和肠道通透性增加。然而，蔗糖是否通过降低肠道细菌浓度和肠道通透性来挽救这些毒性作用尚不清楚。

目的

我们的目的是检验以下假设，即蔗糖可能通过保护屏障功能、细菌过度生长和细菌易位来减少豆科植物凝集素的毒性作用。

方法

24 只大鼠被随机分为自由饮食组，分别给予标准大鼠饲料、含 26%粗红芸豆的饲料或含 26%粗红芸豆的饲料，并在饮用水中添加 1mM 蔗糖，持续 24 小时。禁食 12 小时后，大鼠给予糖探针灌胃，收集 5 小时呼吸气体和尿液。然后收集肠和肝组织。通过靶向 16s rRNA 基因测量粘膜相关总细菌计数。体外 Caco-2 细胞系分为四组，分别用 PBS、200μg/ml 植物血凝素（PHA）、1mM 蔗糖和 200μg/ml PHA 和 1mM 蔗糖处理，并测量跨上皮电阻。

结果

与对照组相比，连续 24 小时喂食粗红芸豆的大鼠体重明显减轻（P<0.05），肠道通透性增加（P<0.05），细菌负荷增加（P<0.05），细菌易位至肝脏增加（P<0.05）。蔗糖可挽救 PHA 对 CaCO2 细胞跨上皮电阻的降低（P<0.05）。

结论

蔗糖降低了粗红芸豆诱导的肠道通透性增加、细菌负荷和易位。由于红芸豆是世界上重要的膳食蛋白质来源，因此其在未充分烹饪时的潜在毒性可以通过适当的补充饮食来挽救。

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蔗糖共给药可降低凝集素对肠道通透性和肠道细菌定植的毒性作用。

Sucrose co-administration reduces the toxic effect of lectin on gut permeability and intestinal bacterial colonization.

机构信息

出版信息

INTRODUCTION

AIM

METHODS

RESULTS

CONCLUSIONS

简介

目的

方法

结果

结论

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