Crosstalk between the gut microbiota and the host has attracted considerable attention owing to its involvement in diverse diseases. Chronic kidney disease (CKD) is commonly associated with hypertension and is characterized by immune dysregulation, metab
gut‐brain axisIslets of LangerhansorexinsLaycock, JohnBoth of Imperial College LondonMeeran, KarimBoth of Imperial College LondonLaycock, JohnBoth of Imperial College LondonMeeran, KarimBoth of Imperial College LondonJohn Wiley & Sons, Ltd
A gut-derived metabolite alters brain activity and anxiety behaviour in mice Article 14 February 2022 Microbiota–gut–brain axis and its therapeutic applications in neurodegenerative diseases Article Open access 16 February 2024 References Cho, I. & Blaser, M. J. The human microbiome: at the...
There is increasing evidence showing that the dynamic changes in the gut microbiota can alter brain physiology and behavior. Cognition was originally thought to be regulated only by the central nervous system. However, it is now becoming clear that many non-nervous system factors, including the gut...
This will be beneficial to avoid the adverse impacts of antibiotic disruption in the gut microbiota. Vagus nerve stimulation The brain-gut axis is known to communicate through immunomodulatory factors, the endocrine-metabolic axis, and the vagus nerve. In particular, the gut flora interacts with ...
The association between dietary protein source and gut-brain axis. The figure illustrates how diet, gut microbiota composition, and mental disorders are interconnected. It suggests that dietary choices may significantly impact the management of mood disorders by affecting the balance of gut microbiota co...
Specifically, fecal microbiota transplanted from ADHD patients into mice were found to result in changes not only in fecal microbial composition but also in behavior, brain structure and brain function (Tengeler et al., 2020). In addition, studies have proposed a link between the gut microbiome...
due to the complexity of the pathways involved in the gut–brain axis; however, this deficiency could be addressed with new advances in metabolomic technology. In this sense, new sequencing technologies will allow us to gain a deeper insight into the composition of the microbiota and its associat...
polyphenols; α-synuclein; gut–brain axis; Parkinsons’s disease; gut microbiota 1. Introduction Parkinson’s disease (PD) is the second most common neurodegenerative disease, after Alzheimer’s, affecting approximately 2–3% of the population more than 60 years of age and up to 5% of the ...
Human gut microbiota convert BBN to BCPN Next we investigated whether microbial communities of the human gut could also oxidize BBN to BCPN, despite generally large compositional differences compared to the mouse gut microbiome19,20. To this end, we collected 11 culturable faecal samples from human...