微重力状态下的肠道问题:肠道微生物群及其代谢物与心血管和肌肉骨骼健康的潜在联系。

IF 3.9 2区 医学 Q2 NUTRITION & DIETETICS Nutrition & Metabolism Pub Date : 2024-08-09 DOI:10.1186/s12986-024-00836-6
Zeinab Ibrahim, Naveed A Khan, Ruqaiyyah Siddiqui, Rizwan Qaisar, Hezlin Marzook, Nelson C Soares, Adel B Elmoselhi
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引用次数: 0

摘要

肠道微生物群及其分泌的代谢物在心血管和肌肉骨骼的健康和疾病中发挥着重要作用。肠道微生物群的失调对心血管和骨骼肌的健康构成重大威胁。然而,这些变化的确切分子机制仍不清楚。此外,微重力还对心血管和骨骼肌健康提出了一些挑战,如肌肉力量受损、内皮功能障碍和新陈代谢变化。本综述旨在批判性地研究肠道微生物群代谢物对心血管和骨骼肌功能及功能障碍的作用。它还探讨了驱动微重力诱导的心血管和骨骼肌解调节的分子机制。本综述的主要发现强调,微重力状态下肠道微生物群和分泌代谢物的一些改变反映了心血管和骨骼肌疾病的特征。这些改变包括:固着菌/类杆菌(F/B)比率水平升高、脂多糖(LPS)水平升高、对甲酚(p-cresol)和次生代谢物增加,以及胆汁酸和 Akkermansia muciniphila 细菌减少。在微重力条件下调节肠道微生物群不仅在太空飞行期间,而且在地球上长期卧床的情况下,都能在缓解心血管和骨骼肌疾病方面发挥重要作用。
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Gut matters in microgravity: potential link of gut microbiota and its metabolites to cardiovascular and musculoskeletal well-being.

The gut microbiota and its secreted metabolites play a significant role in cardiovascular and musculoskeletal health and diseases. The dysregulation of the intestinal microbiota poses a significant threat to cardiovascular and skeletal muscle well-being. Nonetheless, the precise molecular mechanisms underlying these changes remain unclear. Furthermore, microgravity presents several challenges to cardiovascular and musculoskeletal health compromising muscle strength, endothelial dysfunction, and metabolic changes. The purpose of this review is to critically examine the role of gut microbiota metabolites on cardiovascular and skeletal muscle functions and dysfunctions. It also explores the molecular mechanisms that drive microgravity-induced deconditioning in both cardiovascular and skeletal muscle. Key findings in this review highlight that several alterations in gut microbiota and secreted metabolites in microgravity mirror characteristics seen in cardiovascular and skeletal muscle diseases. Those alterations include increased levels of Firmicutes/Bacteroidetes (F/B) ratio, elevated lipopolysaccharide levels (LPS), increased in para-cresol (p-cresol) and secondary metabolites, along with reduction in bile acids and Akkermansia muciniphila bacteria. Highlighting the potential, modulating gut microbiota in microgravity conditions could play a significant role in mitigating cardiovascular and skeletal muscle diseases not only during space flight but also in prolonged bed rest scenarios here on Earth.

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来源期刊
Nutrition & Metabolism
Nutrition & Metabolism 医学-营养学
CiteScore
8.40
自引率
0.00%
发文量
78
审稿时长
4-8 weeks
期刊介绍: Nutrition & Metabolism publishes studies with a clear focus on nutrition and metabolism with applications ranging from nutrition needs, exercise physiology, clinical and population studies, as well as the underlying mechanisms in these aspects. The areas of interest for Nutrition & Metabolism encompass studies in molecular nutrition in the context of obesity, diabetes, lipedemias, metabolic syndrome and exercise physiology. Manuscripts related to molecular, cellular and human metabolism, nutrient sensing and nutrient–gene interactions are also in interest, as are submissions that have employed new and innovative strategies like metabolomics/lipidomics or other omic-based biomarkers to predict nutritional status and metabolic diseases. Key areas we wish to encourage submissions from include: -how diet and specific nutrients interact with genes, proteins or metabolites to influence metabolic phenotypes and disease outcomes; -the role of epigenetic factors and the microbiome in the pathogenesis of metabolic diseases and their influence on metabolic responses to diet and food components; -how diet and other environmental factors affect epigenetics and microbiota; the extent to which genetic and nongenetic factors modify personal metabolic responses to diet and food compositions and the mechanisms involved; -how specific biologic networks and nutrient sensing mechanisms attribute to metabolic variability.
期刊最新文献
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