Open AccessDOI
Gut Microbiota Regulation and Their Implication in the Development of Neurodegenerative Disease.
Peilin Sun,Lei Su,Hua Zhu,Xue Li,Yaxi Guo,Xiaopeng Du,Ling Zhang,Chuan Qin +7 more
- Vol. 9, Iss: 11, pp 2281
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TLDR
In this article, the authors highlight the relationship between the human gut microbiota and neurodegenerative diseases, and discuss the current application and future prospects of microbiota-associated therapy, including probiotics and fecal microbiota transplantation (FMT).Abstract:
In recent years, human gut microbiota have become one of the most promising areas of microorganism research; meanwhile, the inter-relation between the gut microbiota and various human diseases is a primary focus. As is demonstrated by the accumulating evidence, the gastrointestinal tract and central nervous system interact through the gut–brain axis, which includes neuronal, immune-mediated and metabolite-mediated pathways. Additionally, recent progress from both preclinical and clinical studies indicated that gut microbiota play a pivotal role in gut–brain interactions, whereas the imbalance of the gut microbiota composition may be associated with the pathogenesis of neurological diseases (particularly neurodegenerative diseases), the underlying mechanism of which is insufficiently studied. This review aims to highlight the relationship between gut microbiota and neurodegenerative diseases, and to contribute to our understanding of the function of gut microbiota in neurodegeneration, as well as their relevant mechanisms. Furthermore, we also discuss the current application and future prospects of microbiota-associated therapy, including probiotics and fecal microbiota transplantation (FMT), potentially shedding new light on the research of neurodegeneration.read more
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Iron Homeostasis Disorder and Alzheimer's Disease.
TL;DR: In this paper, the authors reviewed the recent progress in the relationship between iron and AD from the aspects of iron absorption in intestinal cells, storage and regulation of iron in cells and organs, especially for the regulation of IR homeostasis in the human brain and prospects the future directions for AD treatments.
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Fecal Microbiota Transplantation Derived from Alzheimer's Disease Mice Worsens Brain Trauma Outcomes in Wild-Type Controls.
TL;DR: Gut microbiota from AD mice are observed to have a detrimental effect and aggravate the neuroinflammatory response and neurological outcomes after TBI in young WT mice.
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Research Advances of Lactoferrin in Electrostatic Spinning, Nano Self-Assembly, and Immune and Gut Microbiota Regulation
TL;DR: Lactoferrin (LF) is a naturally present iron-binding globulin with the structural properties of an N-lobe strongly positively charged terminus and a cage-like structure of nano self-assembly encapsulation as discussed by the authors .
Journal ArticleDOI
Downregulation of Neurofilament Light Chain Expression in Human Neuronal-Glial Cell Co-Cultures by a Microbiome-Derived Lipopolysaccharide-Induced miRNA-30b-5p
TL;DR: This gut microbiota-derived LPS- NF-kB-miRNA-30b-NF-L pathological signaling network underscores a positive pathological link between the LPS of gastrointestinal (GI)-tract microbes and the inflammatory neuropathology, disordered cytoskeleton, and disrupted synaptic signaling of the AD brain and stressed brain cells.
Journal ArticleDOI
Faecal Microbiota Transplantation and Chronic Kidney Disease
TL;DR: A review of the preclinical and clinical evidence and the potential therapeutic effect of FMT in the management of CKD concludes that strategies to reverse gut dysbiosis using FMT are a promising therapy in CKD.
References
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Pathogen Recognition and Innate Immunity
TL;DR: New insights into innate immunity are changing the way the way the authors think about pathogenesis and the treatment of infectious diseases, allergy, and autoimmunity.
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Mind-altering microorganisms: the impact of the gut microbiota on brain and behaviour
John F. Cryan,Timothy G. Dinan +1 more
TL;DR: The emerging concept of a microbiota–gut–brain axis suggests that modulation of the gut microbiota may be a tractable strategy for developing novel therapeutics for complex CNS disorders.
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The role of short-chain fatty acids in the interplay between diet, gut microbiota, and host energy metabolism
Gijs den Besten,Karen van Eunen,Albert K. Groen,Koen Venema,Dirk-Jan Reijngoud,Barbara M. Bakker +5 more
TL;DR: This review summarizes the role of SCFAs in host energy metabolism, starting from the production by the gut microbiota to the uptake by the host and ending with the effects on host metabolism.
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The impact of the gut microbiota on human health: an integrative view.
TL;DR: It is suggested that a holistic approach to studying the microbiota that goes beyond characterization of community composition and encompasses dynamic interactions between all components of the microbiota and host tissue over time will be crucial for building predictive models for diagnosis and treatment of diseases linked to imbalances in the microbiota.
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Short chain fatty acids in human large intestine, portal, hepatic and venous blood.
TL;DR: Data indicate that substantial carbohydrate, and possibly protein, fermentation is occurring in the human large intestine, principally in the caecum and ascending colon and that the large bowel may have a greater role to play in digestion than has previously been ascribed to it.