内源性大麻素及其衍生物调节肠道微生物群中细菌数量的新机制

M. Ellermann
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摘要

生物活性脂质,如内源性大麻素,通过影响宿主的各种功能,包括中枢代谢、肠道生理和免疫,作为宿主健康和疾病的重要调节剂。此外,由饮食或疾病发展等外部因素引起的肠道微生物组的变化与内源性大麻素张力的改变和疾病结局有关。这些观察结果表明,宿主脂质信号网络和肠道内的细菌种群之间存在互惠关系。事实上,内源性大麻素及其同系物,如n -酰基乙醇酰胺,最近已被证明可以改变细菌的生长、功能、生理和行为,因此引入了这些生物活性脂质直接调节肠道微生物群的假设机制。此外,这些潜在的相互作用为可能由内源性大麻素及其衍生物介导的宿主健康和疾病发病机制的调节增加了另一层复杂性。这篇迷你综述将总结最近的文献,举例说明n -酰基乙醇酰胺和单酰基甘油包括内源性大麻素如何影响体外和肠道微生物群中的细菌种群。我们还强调了令人兴奋的临床前研究,这些研究已经设计肠道细菌来合成宿主n -酰基乙醇酰胺或其前体,作为治疗部分由异常脂质信号驱动的疾病的潜在策略,包括肥胖和炎症性肠病。
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Emerging mechanisms by which endocannabinoids and their derivatives modulate bacterial populations within the gut microbiome
Bioactive lipids such as endocannabinoids serve as important modulators of host health and disease through their effects on various host functions including central metabolism, gut physiology, and immunity. Furthermore, changes to the gut microbiome caused by external factors such as diet or by disease development have been associated with altered endocannabinoid tone and disease outcomes. These observations suggest the existence of reciprocal relationships between host lipid signaling networks and bacterial populations that reside within the gut. Indeed, endocannabinoids and their congeners such as N-acylethanolamides have been recently shown to alter bacterial growth, functions, physiology, and behaviors, therefore introducing putative mechanisms by which these bioactive lipids directly modulate the gut microbiome. Moreover, these potential interactions add another layer of complexity to the regulation of host health and disease pathogenesis that may be mediated by endocannabinoids and their derivatives. This mini review will summarize recent literature that exemplifies how N-acylethanolamides and monoacylglycerols including endocannabinoids can impact bacterial populations in vitro and within the gut microbiome. We also highlight exciting preclinical studies that have engineered gut bacteria to synthesize host N-acylethanolamides or their precursors as potential strategies to treat diseases that are in part driven by aberrant lipid signaling, including obesity and inflammatory bowel diseases.
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