The microbiota is a heterogeneous ecosystem consisting of diverse microorganisms unique to an individual, playing a crucial role in maintaining human body homeostasis. The microbiota, as a suggested endocrine organ, is also capable of producing and regulating hormones, playing an important role in food processing, synthesis of vitamins, pathogen displacement, and influencing functions of distant systems and organs. The efficient connections between the brain and intestines and microbiota ensure the maintenance of the digestive tract homeostasis, with the bidirectional brain and gut axis playing an important role in the regulation of digestion. Enteroendocrine cells (EECs) are a fascinating example of highly specified cells scattered throughout the gastrointestinal (GI) tract. They produce and release signaling molecules (hormones), thus modulate homeostatic functions. EECs are believed to be crucial sensors of gut microbiota or/and microbial metabolites, secreting peptide hormones and cytokines in response to them. The diet, microbiota, and EECs are inevitably dependent on one another, thus together (nutrients, microbiota, enterohormones) affect metabolism. This manuscript reviews the role of various components of the brain-gut axis in digestive and absorption processes, as well as the maintenance of digestive tract homeostasis and the consequences of disturbances in the individual components of this axis.
Keywords: Enterohormones; Gastrointestinal peptides; Microbial metabolites; Microbiota-gut-brain axis; Microbiota/microbiome.
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