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Gut microbial metabolites in depression: understanding the biochemical mechanisms.
Caspani, G, Kennedy, S, Foster, JA, Swann, J
Microbial cell (Graz, Austria). 2019;6(10):454-481
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Plain language summary
Major depressive disorder is a leading cause of disability and is linked to shortened life expectancy and suicide. Despite its prevalence, for near to a third of patients, long-term treatment options are ineffective. In addition to the primary presentation of persistent low mood, other emotional and physiological symptoms, researchers have also identified alterations in metabolism, hormones and the immune system. Furthermore, increasing evidence suggests that depression and depressive behaviour is also influenced by divergences in gut health and gut bacteria composition. With insights from animal and human research, this review highlights how the gut and gut bacteria-derived metabolites can directly or indirectly influence mood. Described are the pathways of how the gut and its microorganism communicate with the brain, the essential role the immune system has as part of the gut-brain communication, and the impact of low-grade, chronic inflammation on neurofunction. Comprehensive summaries are dedicated to how several metabolites or by-products from gut bacteria can influence the nervous system and gene expression in relation to depression. These include substances like neurotransmitters, short-chain fatty acids, tryptophan metabolites, lactate, bile acids, choline metabolites and folate. This article yields a detailed overview of how gut health and microbiota can influence neurofunction and mental health. The authors promote the idea of the gut as a suitable target for the management of depressive disorders, whilst also eluding to the current limitations and need for further research.
Abstract
Gastrointestinal and central function are intrinsically connected by the gut microbiota, an ecosystem that has co-evolved with the host to expand its biotransformational capabilities and interact with host physiological processes by means of its metabolic products. Abnormalities in this microbiota-gut-brain axis have emerged as a key component in the pathophysiology of depression, leading to more research attempting to understand the neuroactive potential of the products of gut microbial metabolism. This review explores the potential for the gut microbiota to contribute to depression and focuses on the role that microbially-derived molecules - neurotransmitters, short-chain fatty acids, indoles, bile acids, choline metabolites, lactate and vitamins - play in the context of emotional behavior. The future of gut-brain axis research lies is moving away from association, towards the mechanisms underlying the relationship between the gut bacteria and depressive behavior. We propose that direct and indirect mechanisms exist through which gut microbial metabolites affect depressive behavior: these include (i) direct stimulation of central receptors, (ii) peripheral stimulation of neural, endocrine, and immune mediators, and (iii) epigenetic regulation of histone acetylation and DNA methylation. Elucidating these mechanisms is essential to expand our understanding of the etiology of depression, and to develop new strategies to harness the beneficial psychotropic effects of these molecules. Overall, the review highlights the potential for dietary interventions to represent such novel therapeutic strategies for major depressive disorder.