Gastrointestinal Inflammation and the Gut Microbiome: An Evolving Conceptual Framework with Implications for Diagnosis and Therapy in Inflammatory Bowel Disorders

O. Grundmann
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Abstract

The human gut microbiome has garnered much attention over the past two decades with important discoveries linking it to human health and disease. The commensal bacterial flora evolves due to the influence of a number of factors including diet, pathogen exposure, environmental toxicants, disease states, and a challenged microenvironment that requires balancing with the host itself. However, the composition of bacterial species can impact and contribute to the development of local and systemic inflammation. Among the factors attributed to intestinal inflammation are dysbiosis caused by pathogenic bacteria, following decreased host immunity or loss of intestinal barrier function. Dysbiosis can also be triggered by antibiotic therapy or the use of other medications that allow for colonisation of pathogenic bacteria, such as proton pump inhibitors. The imbalance with commensal bacteria leads to the generation of proinflammatory mediators and a reduction of host immune defences, due to a lack of short-chain fatty acid generation needed for energy production to maintain barrier and immune function. The initially localised inflammation results in further dysbiosis as former commensal bacteria are able to breach the barrier and cause systemic immune responses. Low-grade systemic inflammation is a hallmark of inflammatory bowel disease. Because a specific dysbiosis is common in patients with inflammatory bowel disease, it can serve as an early diagnostic marker in its development. Furthermore, faecal microbiome transplants have shown promising benefits in patients with ulcerative colitis and Crohn’s disease.
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胃肠道炎症和肠道微生物组:一个对炎症性肠病诊断和治疗有意义的进化概念框架
在过去的二十年里,人类肠道微生物组引起了人们的广泛关注,重要发现将其与人类健康和疾病联系起来。共生菌群的进化受到许多因素的影响,包括饮食、病原体暴露、环境毒物、疾病状态以及需要与宿主自身平衡的挑战性微环境。然而,细菌种类的组成会影响并促进局部和全身炎症的发展。肠道炎症的因素包括病原菌引起的生态失调,宿主免疫力下降或肠道屏障功能丧失。抗生素治疗或使用其他允许病原菌定植的药物(如质子泵抑制剂)也可能引发生物失调。由于缺乏维持屏障和免疫功能所需的能量产生所需的短链脂肪酸,与共生细菌的失衡导致促炎介质的产生和宿主免疫防御的减少。最初的局部炎症会导致进一步的生态失调,因为以前的共生细菌能够突破屏障并引起系统免疫反应。低度系统性炎症是炎症性肠病的标志。由于特定的微生态失调在炎症性肠病患者中很常见,它可以作为其发展的早期诊断标志。此外,粪便微生物组移植对溃疡性结肠炎和克罗恩病患者显示出良好的疗效。
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