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Low omega-3 polyunsaturated fatty acids predict reduced response to standard antidepressants in patients with major depressive disorder.
Cussotto, S, Delgado, I, Oriolo, G, Kemper, J, Begarie, D, Dexpert, S, Sauvant, J, Leboyer, M, Aouizerate, B, Martin-Santos, R, et al
Depression and anxiety. 2022
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Plain language summary
Major depressive disorder (MDD) is a leading cause of disability, and antidepressant drug treatment is only effective in over half of patients with a high prevalence of treatment resistance. The importance of nutrition in mental health is gaining recognition. Omega-3 is an essential polyunsaturated fatty acid (PUFA) vital for anti-inflammatory processes and brain integrity. In the absence of the body's ability to make Omega-3, it or its precursors must be acquired from the diet. Yet altered metabolic pathways can hamper the process and the adequate balance with PUFA Omega‐6 is also crucial, as elevated levels of Omega-6 are linked to several diseases. An extensive amount of research suggests that higher Omega-3 levels reduce the occurrence of depression. Yet results using just Omega-3s for depression have been varied. This European-wide study sought to investigate how the PUFA status could affect the clinical response to treatment with antidepressants. 60-adults with an average age of 41 with major depressive disorders received antidepressive treatment. Their red blood cell fatty acids content was determined, and at the end of the 8-week trial treatment responders and non-responders were identified. Findings affirmed the existing knowledge that depressive symptoms are strongly associated with PUFA status. Patients who did not respond to treatment showed low levels of Omega-3 and an unfavourable ratio of Omega-3 to Omega-6 at the start of treatment. Higher levels of Omega-3 fatty acid of DHA seemed to produce a better clinical response to treatments than the Omega-3 of EPA. The authors discussed some potential mechanisms and suggested that PUFA intake and metabolism could be a potential tool for the management of treatment-unresponsive patients with depression. This review highlights the clinical importance of considering PUFA status and metabolism in the support of major depressive disorders.
Expert Review
Conflicts of interest:
None
Take Home Message:
- Healthy eating such as that with low omega-6 diets has more than a physiological result on the human body and carries significant biochemical consequences when the omega-6 to omega-3 ratio is deemed to be ‘high’.
- The result of this research has pharmaceutical implications - if the findings could be imparted to the general public in layman’s terms, practitioners could empower individuals to take greater control of their mental health through more naturalistic means, i.e., optimised nutrition.
- There are wider cognitive considerations of healthy eating beyond that of treating Major Depressive Disorder due to implicated blood-brain-barrier effects, as concluded in this study.
Evidence Category:
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A: Meta-analyses, position-stands, randomized-controlled trials (RCTs)
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B: Systematic reviews including RCTs of limited number
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C: Non-randomized trials, observational studies, narrative reviews
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D: Case-reports, evidence-based clinical findings
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E: Opinion piece, other
Summary Review:
Sixty adults suffering from major depressive disorder (MDD) were recruited into a multicenter study assessing the impact of baseline polyunsaturated (PUFA) levels on responsiveness to antidepressants. Neuropsychiatric evaluations producing MADRS (Montgomery Åsberg Depression Rating Scale) scores at baseline, four weeks and again at eight weeks, were performed. The pre-recorded baseline PUFA levels were then used as an associative and predictive indicator when viewing the end point scoring of participants, thus categorising into responsive and nonresponsive strata.
Of those with low omega-3 and high omega-6 to omega-3 ratio at baseline, there was increased association with ‘non-responsive’ classification at end point (week 8). Participants were deemed ‘non-responsive’ to anti-depressant treatment when scores at week 8 failed to demonstrate ≥50% reduction in MADRS scoring.
Clinical practice applications:
- Clinicians could monitor MDD within at-risk-groups, such as those who are overweight (mean BMI of ALL study participants was 24.20 kg/m2 with a standard deviation of 4.21) or those experiencing an inflammatory state with blood-brain-barrier involvement, as part of a mental ill-health prevention programme.
- When presenting with symptoms of major depressive disorder and prescribing antidepressants, clinicians could recommend increasing consumption of foods high in omega-3 and/or querying the patient about their dietary habits.
- Article supports recommendations for an increase in the consumption of omega-3 rich foods amongst the general population to prevent or intervene in cases of major depressive disorder.
- Wider cognitive implications beyond major depressive disorder in the presence of low omega-3, such as cognitive decline as seen with dementia, theorised due to altered blood-brain-barrier (Cussotto et al., 2022; Gustafson et al., 2020).
Considerations for future research:
- Repeated studies, with normalised distribution of antidepressant and sample size by country, with greater geographic inclusion, along with age categorisation. The broader geographic inclusion is necessary to rule out cultural diets as a confounding variable. An example of how different cultural diets could influence the results, which has potentially been highlighted in this study, is the more predominant consumption of a Mediterranean diet which may have been the case for the participants from Spain or, as could also be the case, an underlying vitamin D deficiency of the participants from Germany.
- Novel studies for assessing diet against mood could be beneficial to fully apply the findings of this study to clinical practice applications and that of the practice of nutritional therapists. The thinking here is the potential for anti-inflammatory foods inducing better mood results through gut-brain axis links and resultant influence on microbiome.
Abstract
BACKGROUND Major depressive disorder (MDD) is characterized by a high rate of treatment resistance. Omega (ω)-3 polyunsaturated fatty acids (PUFAs) were shown to correlate with depressive phenotype both in rodents and in humans. However, few studies to date have investigated the role of PUFAs in antidepressant response. The primary aim of this study was to assess the link between baseline PUFA composition and changes in depressive symptoms as well as antidepressant response in a multicenter study of depressed patients. METHODS Sixty depressed adults who met criteria for MDD according to DSM-IV-TR were recruited. Neuropsychiatric evaluations occurred at baseline and after 4 and 8 weeks of treatment with standard antidepressants, including escitalopram (N = 45), sertraline (N = 13) and venlafaxine (N = 2). At study endpoint, patients were stratified into responders (R) or non-responders (NR) based on their MADRS (Montgomery-Åsberg Depression Rating Scale) score. Baseline PUFA levels were assessed and their association with clinical response was determined. RESULTS Lower ω-3 PUFA levels were associated to worse baseline symptomatology. Baseline levels of PUFAs were significantly different between R and NR, with R exhibiting lower docosahexaenoic acid (DHA), eicosapentaenoic acid (EPA) and ω-3 index; and higher ω-6/ω-3 ratio than NR before the start of antidepressant treatment. DHA levels as well as the ω-3 index and ω-6/ω-3 ratio significantly predicted response to antidepressants at study endpoint. CONCLUSIONS These results show that baseline levels of PUFAs predict later response to standard antidepressants in depressed subjects. They suggest that PUFA intake and/or metabolism represent a novel modifiable tool for the management of unresponsive depressed patients.
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The role of the microbiota-gut-brain axis in neuropsychiatric disorders.
Generoso, JS, Giridharan, VV, Lee, J, Macedo, D, Barichello, T
Revista brasileira de psiquiatria (Sao Paulo, Brazil : 1999). 2021;43(3):293-305
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Metabolites produced by the gut microbiota have been shown to influence mood and behaviour via the microbiota-gut-brain axis, and there is increased interest in better understanding this interaction in the context of mental health. This review summarises the evidence around the influence of gut microbiota in various neuropsychiatric disorders, primarily focusing on the metabolic pathways that originate in the gut microbiota. Current research highlights an association between gut microbiota metabolites with neuropsychiatric disorders and that probiotics demonstrate a significant therapeutic role in many of these disorders. Based on the current literature, the authors conclude it is crucial to better understand the complex microbiota-host interaction in health and disease, leading to more targeted and improved therapeutic interventions.
Abstract
The microbiota-gut-brain axis is a bidirectional signaling mechanism between the gastrointestinal tract and the central nervous system. The complexity of the intestinal ecosystem is extraordinary; it comprises more than 100 trillion microbial cells that inhabit the small and large intestine, and this interaction between microbiota and intestinal epithelium can cause physiological changes in the brain and influence mood and behavior. Currently, there has been an emphasis on how such interactions affect mental health. Evidence indicates that intestinal microbiota are involved in neurological and psychiatric disorders. This review covers evidence for the influence of gut microbiota on the brain and behavior in Alzheimer disease, dementia, anxiety, autism spectrum disorder, bipolar disorder, major depressive disorder, Parkinson's disease, and schizophrenia. The primary focus is on the pathways involved in intestinal metabolites of microbial origin, including short-chain fatty acids, tryptophan metabolites, and bacterial components that can activate the host's immune system. We also list clinical evidence regarding prebiotics, probiotics, and fecal microbiota transplantation as adjuvant therapies for neuropsychiatric disorders.
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Probiotics, Prebiotics and Postbiotics on Mitigation of Depression Symptoms: Modulation of the Brain-Gut-Microbiome Axis.
Chudzik, A, Orzyłowska, A, Rola, R, Stanisz, GJ
Biomolecules. 2021;11(7)
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The bidirectional communication pathway between the gut microbiota and the central nervous system has been termed the brain-gut-microbiome axis. Increased investigation of this pathway has found the gut bacteria to impact metabolism and the brain, suggesting that modulating the microbiome may elicit change in mental health. The aim of this review is to discuss the current findings in both animal and human studies regarding the use of pro-, pre- and post-biotics in the prevention and treatment of depressive disorders. Studies show that modulating the bacteria in the gut may reduce inflammation, decrease stress hormone levels and adjust the levels of neurotransmitters in the brain. These changes consequently lead to the reduction of depressive symptoms and improvement in mood. While these results are promising, larger clinical trials are needed that include biochemical measurements and fecal microbiome analysis in addition to validated questionnaires. With this in mind, the authors conclude there is huge potential in the role of nutrition as a therapeutic target for neurological and mental health conditions.
Abstract
The brain-gut-microbiome axis is a bidirectional communication pathway between the gut microbiota and the central nervous system. The growing interest in the gut microbiota and mechanisms of its interaction with the brain has contributed to the considerable attention given to the potential use of probiotics, prebiotics and postbiotics in the prevention and treatment of depressive disorders. This review discusses the up-to-date findings in preclinical and clinical trials regarding the use of pro-, pre- and postbiotics in depressive disorders. Studies in rodent models of depression show that some of them inhibit inflammation, decrease corticosterone level and change the level of neurometabolites, which consequently lead to mitigation of the symptoms of depression. Moreover, certain clinical studies have indicated improvement in mood as well as changes in biochemical parameters in patients suffering from depressive disorders.
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Depressive Symptoms among Middle-Aged Women-Understanding the Cause.
Cybulska, AM, Szkup, M, Schneider-Matyka, D, Skonieczna-Żydecka, K, Kaczmarczyk, M, Jurczak, A, Wieder-Huszla, S, Karakiewicz, B, Grochans, E
Brain sciences. 2020;11(1)
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The natural decline of estrogen that occurs around menopause contributes to depressive symptoms, and the severity of symptoms depends on many sociodemographic and genetic factors. The aim of this study was to assess the influence of various factors on the development of depression in women through the lifespan and establish the relationship between the severity of depression and presence of specific genes. This study analyzed 1453 women in the three different stages of menopause (pre-, peri- and post-menopause) who completed a validated questionnaire for measuring severity of depression and had blood samples taken to identify gene fragments. The results indicated depressive symptoms to be present in 27% of women. The predictive sociodemographic factors for depressive symptoms in this population are unemployment and the postmenopausal stage. Associations between the 5-HTT and MOA-A gene and depressive symptoms were also found. Based on these results, the authors conclude that while menopause is natural, the severity of symptoms is associated with various sociodemographic and genetic factors.
Abstract
Menopause is an important event in a woman's life associated with hormonal changes that play a substantial role in the functioning of her body. A decline in the level of estrogens contributes to depressive symptoms and mood disorders during this period. The severity of depressive symptoms experienced by middle-aged women depends on many factors, including sociodemographic data (e.g., menopause, employment status, and marital status) and genetic variables (MAO-A and 5-HTT gene polymorphisms). In order to assess their influence on the development of depression in females, we analyzed 1453 healthy Polish women in different stages of menopause. Based on the results, we found that the l/l + l/s inheritance model for the 5-HTT gene polymorphism was more common in women without and with moderate depressive symptoms according to the Beck Depression Inventory (BDI), while the l/s model was more often observed in women with mild depression. Moreover, the overdominant 3/3 + 4/4 genotype of the MAO-A gene polymorphism was more often found in respondents without depressive symptoms, while women with depressive symptoms had more often the overdominant 3/4 genotype.
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Interleukin-6 Gene Expression Changes after a 4-Week Intake of a Multispecies Probiotic in Major Depressive Disorder-Preliminary Results of the PROVIT Study.
Reiter, A, Bengesser, SA, Hauschild, AC, Birkl-Töglhofer, AM, Fellendorf, FT, Platzer, M, Färber, T, Seidl, M, Mendel, LM, Unterweger, R, et al
Nutrients. 2020;12(9)
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Major depressive disorder (MDD) is a disease with multiple aetiology and symptoms that can end in death due to suicide. A biological imbalance in free radicals and inflammatory molecules have been associated with depression and diseases such as obesity which are often associated with MDD. Probiotics may potentially be able to redress this imbalance through several mechanisms. The aim of this randomised placebo-controlled trial was to assess the effect of probiotics on mood, brain function, gut microbiome and inflammation genes in 61 individuals with MDD over 4 weeks. The results showed that probiotic intake improved expression of some but not all of the assessed inflammatory genes and it was concluded that positive effects of probiotics on inflammation may mean that they are of benefit to those with MDD. This study could be used by healthcare professionals who are looking at additional, non-pharmacological ways of supporting patients with MDD.
Abstract
Major depressive disorder (MDD) is a prevalent disease, in which one third of sufferers do not respond to antidepressants. Probiotics have the potential to be well-tolerated and cost-efficient treatment options. However, the molecular pathways of their effects are not fully elucidated yet. Based on previous literature, we assume that probiotics can positively influence inflammatory mechanisms. We aimed at analyzing the effects of probiotics on gene expression of inflammation genes as part of the randomized, placebo-controlled, multispecies probiotics PROVIT study in Graz, Austria. Fasting blood of 61 inpatients with MDD was collected before and after four weeks of probiotic intake or placebo. We analyzed the effects on gene expression of tumor necrosis factor (TNF), nuclear factor kappa B subunit 1 (NFKB1) and interleukin-6 (IL-6). In IL-6 we found no significant main effects for group (F(1,44) = 1.33, p = ns) nor time (F(1,44) = 0.00, p = ns), but interaction was significant (F(1,44) = 5.67, p < 0.05). The intervention group showed decreasing IL-6 gene expression levels while the placebo group showed increasing gene expression levels of IL-6. Probiotics could be a useful additional treatment in MDD, due to their anti-inflammatory effects. Results of the current study are promising, but further studies are required to investigate the beneficial effects of probiotic interventions in depressed individuals.
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The Role of Bacteria and Its Derived Metabolites in Chronic Pain and Depression: Recent Findings and Research Progress.
Li, S, Hua, D, Wang, Q, Yang, L, Wang, X, Luo, A, Yang, C
The international journal of neuropsychopharmacology. 2020;23(1):26-41
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Depression is closely associated with chronic pain yet the connection between these comorbidities is ambiguous. Recent studies have shown alterations in the gut microbiome may contribute to cognitive dysfunction via the microbiota-gut-brain axis. The aim of this systematic review is to summarize the existing evidence of the role of the gut microbiome in chronic pain and depression and explore potential mechanisms of gut dysbiosis in the development of these conditions. This review found metabolic products from the gut microbiota can mediate neuro-inflammation and neuro-immunity pathways in pain and depression, and that dysbiosis in the gut may contribute to the cause of chronic pain and depression. The authors conclude the metabolic products from the gut bacteria offer new insights to the connection between the gut microbiota and mechanisms of pain and depression, while showing potential as a therapeutic target.
Abstract
BACKGROUND Chronic pain is frequently comorbid with depression in clinical practice. Recently, alterations in gut microbiota and metabolites derived therefrom have been found to potentially contribute to abnormal behaviors and cognitive dysfunction via the "microbiota-gut-brain" axis. METHODS PubMed was searched and we selected relevant studies before October 1, 2019. The search keyword string included "pain OR chronic pain" AND "gut microbiota OR metabolites"; "depression OR depressive disorder" AND "gut microbiota OR metabolites". We also searched the reference lists of key articles manually. RESULTS This review systematically summarized the recent evidence of gut microbiota and metabolites in chronic pain and depression in animal and human studies. The results showed the pathogenesis and therapeutics of chronic pain and depression might be partially due to gut microbiota dysbiosis. Importantly, bacteria-derived metabolites, including short-chain fatty acids, tryptophan-derived metabolites, and secondary bile acids, offer new insights into the potential linkage between key triggers in gut microbiota and potential mechanisms of depression. CONCLUSION Studying gut microbiota and its metabolites has contributed to the understanding of comorbidity of chronic pain and depression. Consequently, modulating dietary structures or supplementation of specific bacteria may be an available strategy for treating chronic pain and depression.
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Reductions in anti-inflammatory gut bacteria are associated with depression in a sample of young adults.
Liu, RT, Rowan-Nash, AD, Sheehan, AE, Walsh, RFL, Sanzari, CM, Korry, BJ, Belenky, P
Brain, behavior, and immunity. 2020;88:308-324
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Alterations to the gut microbiota may be associated with depression and anxiety disorders through a pathway known as the gut-brain axis. Inflammation may be the mediator between the two, as individuals with major depressive disorder (MDD) have reported high levels of inflammation, which the gut microbiota may have the capacity to protect against. This observational study of the gut microbiota of 90 young adults with MDD and 47 healthy controls aimed to determine the relationship between inflammatory gut microbiota and symptoms of depression. The results showed changes to several species of gut microbiota in those with MDD and that the level of change was related to MDD symptom severity. These changes were observed even in those taking psychotropic medications. Changes at the taxonomic level indicated that those with higher symptoms of depression had more pronounced differences compared with healthy controls. Although the observed differences were indicative of an inflammatory microbiome, no changes were observed in blood markers of inflammation between those individuals with MDD and healthy controls. It was concluded that the gut microbiome of individuals with MDD was different from healthy individuals in favour of an inflammatory environment. This study could be used by healthcare professionals to understand that the status of the gut microbiota may be an important measure in individuals with MDD and that a treatment plan to ensure gut health is considered may help with symptoms of depression.
Abstract
We assessed the gut microbiota of 90 American young adults, comparing 43 participants with major depressive disorder (MDD) and 47 healthy controls, and found that the MDD subjects had significantly different gut microbiota compared to the healthy controls at multiple taxonomic levels. At the phylum level, participants with MDD had lower levels of Firmicutes and higher levels of Bacteroidetes, with similar trends in the at the class (Clostridia and Bacteroidia) and order (Clostridiales and Bacteroidales) levels. At the genus level, the MDD group had lower levels of Faecalibacterium and other related members of the family Ruminococcaceae, which was also reduced relative to healthy controls. Additionally, the class Gammaproteobacteria and genus Flavonifractor were enriched in participants with MDD. Accordingly, predicted functional differences between the two groups include a reduced abundance of short-chain fatty acid production pathways in the MDD group. We also demonstrated that the magnitude of taxonomic changes was associated with the severity of depressive symptoms in many cases, and that most changes were present regardless of whether depressed participants were taking psychotropic medications. Overall, our results support a link between MDD and lower levels of anti-inflammatory, butyrate-producing bacteria, and may support a connection between the gut microbiota and the chronic, low-grade inflammation often observed in MDD patients.
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The Gut Microbiome and Mental Health: What Should We Tell Our Patients?: Le microbiote Intestinal et la Santé Mentale : que Devrions-Nous dire à nos Patients?
Butler, MI, Mörkl, S, Sandhu, KV, Cryan, JF, Dinan, TG
Canadian journal of psychiatry. Revue canadienne de psychiatrie. 2019;64(11):747-760
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The gut-brain axis is the bi-directional communication pathway and increasing evidence indicates its impact in neural health and disease. With the field of nutritional psychiatry actively developing, psychiatric patients have become increasingly aware of the therapeutic use of probiotics and mental health. This review aims to inform psychiatrists about the communication between the microbiome and brain and discuss its relevance to the management and treatment of psychiatric illness. In reviewing the common psychiatric illnesses, the current literature shows inconsistent results on specific microbiome compositions related to specific illnesses, yet shows promising effects for probiotic use in many disorders. These findings offer a novel paradigm for approaching mental illness through the lens of nutritional psychiatry. Authors conclude there is much work to be done translating laboratory findings into clinical practice, and highlight the necessity for clinicians to stay informed of the literature and make accurate recommendations to patients.
Abstract
The gut microbiome as a potential therapeutic target for mental illness is a hot topic in psychiatry. Trillions of bacteria reside in the human gut and have been shown to play a crucial role in gut-brain communication through an influence on neural, immune, and endocrine pathways. Patients with various psychiatric disorders including depression, bipolar disorder, schizophrenia, and autism spectrum disorder have been shown to have significant differences in the composition of their gut microbiome. Enhancing beneficial bacteria in the gut, for example, through the use of probiotics, prebiotics, or dietary change, has the potential to improve mood and reduce anxiety in both healthy people and patient groups. Much attention is being given to this subject in the general media, and patients are becoming increasingly interested in the potential to treat mental illness with microbiome-based therapies. It is imperative that those working with people with mental illness are aware of the rationale and current evidence base for such treatment strategies. In this review, we provide an overview of the gut microbiome, what it is, and what it does in relation to gut-brain communication and psychological function. We describe the fundamental principles and basic techniques used in microbiome-gut-brain axis research in an accessible way for a clinician audience. We summarize the current evidence in relation to microbiome-based strategies for various psychiatric disorders and provide some practical advice that can be given to patients seeking to try a probiotic for mental health benefit.
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Current Understanding of Gut Microbiota in Mood Disorders: An Update of Human Studies.
Huang, TT, Lai, JB, Du, YL, Xu, Y, Ruan, LM, Hu, SH
Frontiers in genetics. 2019;10:98
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The bidirectional communication between the brain and gastrointestinal tract has been established, and evidence suggests the gut microbiota can influence brain function. While the underlying cause of mood disorders is multifactorial and complex, the gut microbiota may play a role in the pathogenesis of disease. The aim of this review is to summarize the human studies of gut microbiota in mood disorders and discuss the cause-effect relationship between microbiota composition and mood disorders. Twelve studies were included and showed the microbiome diversity and composition of those experiencing mood disorders were significantly different compared with healthy individuals. They found an increase in the abundance of Actinobacteria, Enterobacteriaceae and a decrease in Faecalibacterium, suggesting a pro-inflammatory state. Based on these results, the authors conclude the gut microbiota plays an important role in mood disorders through the brain-gut-microbiota axis, and suggests it to be a target for improved diagnosis and therapeutic interventions.
Abstract
Gut microbiota plays an important role in the bidirectional communication between the gut and the central nervous system. Mounting evidence suggests that gut microbiota can influence the brain function via neuroimmune and neuroendocrine pathways as well as the nervous system. Advances in gene sequencing techniques further facilitate investigating the underlying relationship between gut microbiota and psychiatric disorders. In recent years, researchers have preliminarily explored the gut microbiota in patients with mood disorders. The current review aims to summarize the published human studies of gut microbiota in mood disorders. The findings showed that microbial diversity and taxonomic compositions were significantly changed compared with healthy individuals. Most of these findings revealed that short-chain fatty acids-producing bacterial genera were decreased, while pro-inflammatory genera and those involved in lipid metabolism were increased in patients with depressive episodes. Interestingly, the abundance of Actinobacteria, Enterobacteriaceae was increased and Faecalibacterium was decreased consistently in patients with either bipolar disorder or major depressive disorder. Some studies further indicated that specific bacteria were associated with clinical characteristics, inflammatory profiles, metabolic markers, and pharmacological treatment. These studies present preliminary evidence of the important role of gut microbiota in mood disorders, through the brain-gut-microbiota axis, which emerges as a promising target for disease diagnosis and therapeutic interventions in the future.