A Network of Physiological Interactions Modulating GI Homeostasis: Probiotics, Inflammasome, mTOR

Probiotics - Current Knowledge and Future Prospects Pub Date : 2017-12-20 DOI:10.5772/INTECHOPEN.72656

D. N. Kling, L. Teixeira, Evon M. DeBose-Scarlett, Claudio F. Gonzalez

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引用次数: 1

Abstract

The gastrointestinal surface is in constant interaction with various exogenous molecules. Exogenous components are discriminated in the GI context, as good, in case of nutrients and fibers, and bad, when they negatively affect host integrity. During this tolerogenic process, they also train the host’s immune system. The immune system is a morpho-physiologic unit driven by immune cells with the assistance of commensal organisms. Several species of commensal microorganisms have been used for centuries as probiotics due to their beneficial effects on human health. Lowering local levels of pro-inflammatory cytokines has a systemic effect, which is one of the fundamental characteristics associated with probiotics. Still, the primary mechanisms wiring those regulatory circuits as a unit remain unclear. Modulation of the innate immune system, via regulation of inflammasome assembly is emerging as a critical driver of this interaction. Stimulation of toll like receptors (TLR) and inner cell sensors like NLRP3 connect probiotics with essential host systems. In this context, the mTOR-regulated circuits, an intricate network modulating a cascade of protein phosphorylations, could be an

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调节胃肠道稳态的生理相互作用网络:益生菌，炎性体，mTOR

胃肠道表面不断与各种外源分子相互作用。在GI环境下，外源成分被区分为好的，如果是营养素和纤维，当它们对宿主完整性产生负面影响时，是坏的。在这个产生耐受性的过程中，它们也训练宿主的免疫系统。免疫系统是由免疫细胞在共生生物的帮助下驱动的形态生理单元。由于几种共生微生物对人体健康的有益作用，几个世纪以来，它们一直被用作益生菌。降低局部促炎细胞因子水平具有全身性作用，这是与益生菌相关的基本特征之一。尽管如此，连接这些监管回路的主要机制仍不清楚。通过调节炎性小体组装来调节先天免疫系统是这种相互作用的关键驱动因素。刺激toll样受体(TLR)和细胞内传感器(如NLRP3)将益生菌与必需的宿主系统连接起来。在这种情况下，mtor调节的电路，一个复杂的网络调节蛋白质磷酸化级联，可能是一个重要的机制

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Probiotics - Current Knowledge and Future Prospects

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