膳食纤维在肠道热休克蛋白调节中的作用

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Dina Mustika Rini, Gertrude Cynthia Sitolo, Precious Adedayo Adesina, Takuya Suzuki
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引用次数: 0

摘要

胃肠道是一道重要的物理屏障,可防止外源性物质从肠腔转运进入全身循环。肠道屏障功能失调与代谢紊乱等多种疾病的发病机制有关。热休克蛋白(HSPs)在维持上皮细胞暴露于应激源时的恢复力和活力方面发挥着至关重要的作用。有证据表明,膳食纤维(DF)是一种已知的热休克蛋白生成诱导剂,可能是加强肠道屏障的一种有前途的候选物质。了解肠道 HSP 的调控和 DF 的保护作用对于抵御环境威胁和保护人类健康至关重要。迄今为止,已有报道称六种 DF--菊粉、菊苣、洋车前子、瓜尔豆胶、部分水解瓜尔豆胶和木寡糖--对肠道 HSP 诱导具有促进作用。DF通过肠道微生物群依赖机制和独立机制促进肠道HSP诱导。DF 经肠道微生物群发酵产生短链脂肪酸,特别是丁酸盐和丙酸盐,从而促进 HSP 的产生。同时,DF 还可通过与肠道上皮细胞的直接相互作用促进肠道 HSP 诱导,而与肠道微生物群的活性无关,但其确切机制仍不清楚。对肠道 HSP 的调控是通过激活热休克转录因子(主要是热休克因子 1)进行转录调节,或在转录后水平通过调节翻译过程进行的。本综述重点介绍了在了解 DF 在改善肠道屏障功能方面作用的最新进展,尤其强调了肠道 HSP 的调控机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The role of dietary fibre in intestinal heat shock protein regulation

The role of dietary fibre in intestinal heat shock protein regulation

The gastrointestinal tract serves as a pivotal physical barrier that prevents the translocation of exogenous substances from the intestinal lumen into the systemic circulation. Dysfunction of intestinal barrier function has been implicated in the pathogenesis of several diseases, such as metabolic disorders. Heat shock proteins (HSPs) play a critical role in maintaining the resilience and viability of epithelial cells when exposed to stressors. Evidence suggests that dietary fibre (DF), a known inducer of HSP production, may be a promising candidate for strengthening the intestinal barrier. Understanding the regulation of intestinal HSPs and the protective effect of DF is critical to defending against environmental threats and preserving human health. To date, six DFs—pectin, chicory, psyllium, guar gum, partially hydrolysed guar gum, and xylooligosaccharide—have been reported to have promotive effects on intestinal HSP induction. DF promotes intestinal HSP induction through gut microbiota-dependent and independent mechanisms. DF is fermented by gut microbiota to produce short-chain fatty acids, specifically butyrate and propionate, to promote HSP production. Meanwhile, DF also promotes intestinal HSP induction through direct interaction with intestinal epithelial cells, independent of gut microbiota activity, although the precise mechanism is still unclear. Regulation of intestinal HSP occurs by transcriptional modulation through activation of heat shock transcription factors, primarily heat shock factor 1, or at the post-transcriptional level by modulation of the translation process. This review highlights recent advances in understanding the role of DF in improving intestinal barrier function, with particular emphasis on the regulatory mechanisms of intestinal HSPs.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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