1.
Effect of gut microbiome modulation on muscle function and cognition: the PROMOTe randomised controlled trial.
Ni Lochlainn, M, Bowyer, RCE, Moll, JM, García, MP, Wadge, S, Baleanu, AF, Nessa, A, Sheedy, A, Akdag, G, Hart, D, et al
Nature communications. 2024;15(1):1859
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Humans lose skeletal muscle with advancing age, and this can progress to sarcopenia. Dietary protein is crucial for maintaining skeletal muscle health; however, several factors can lead to reduced protein intake in older age. The aim of this study was to test whether the addition of gut microbiome modulation could augment established muscle function improvements from combined protein (branched chain amino acids [BCAA]) and resistance exercise. This study was based on the PROMOTe (effect of PRebiotic and prOtein on Muscle in Older Twins) trial which was a randomised controlled trial in which twin pairs (n= 72) were randomised, one twin to each study arm. Results showed that prebiotics improved cognition but did not impact muscle strength and function, compared with placebo. Furthermore, gut microbiome modulation via prebiotic supplementation in the context of ageing-muscle research is feasible and well tolerated, with clear responses noted in the gut microbiota composition and function. Authors concluded that cheap and readily available gut microbiome interventions hold promise for improving cognitive frailty in our ageing population.
Abstract
Studies suggest that inducing gut microbiota changes may alter both muscle physiology and cognitive behaviour. Gut microbiota may play a role in both anabolic resistance of older muscle, and cognition. In this placebo controlled double blinded randomised controlled trial of 36 twin pairs (72 individuals), aged ≥60, each twin pair are block randomised to receive either placebo or prebiotic daily for 12 weeks. Resistance exercise and branched chain amino acid (BCAA) supplementation is prescribed to all participants. Outcomes are physical function and cognition. The trial is carried out remotely using video visits, online questionnaires and cognitive testing, and posting of equipment and biological samples. The prebiotic supplement is well tolerated and results in a changed gut microbiome [e.g., increased relative Bifidobacterium abundance]. There is no significant difference between prebiotic and placebo for the primary outcome of chair rise time (β = 0.579; 95% CI -1.080-2.239 p = 0.494). The prebiotic improves cognition (factor score versus placebo (β = -0.482; 95% CI,-0.813, -0.141; p = 0.014)). Our results demonstrate that cheap and readily available gut microbiome interventions may improve cognition in our ageing population. We illustrate the feasibility of remotely delivered trials for older people, which could reduce under-representation of older people in clinical trials. ClinicalTrials.gov registration: NCT04309292.
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Serotonin Reuptake Inhibitors and the Gut Microbiome: Significance of the Gut Microbiome in Relation to Mechanism of Action, Treatment Response, Side Effects, and Tachyphylaxis.
Sjöstedt, P, Enander, J, Isung, J
Frontiers in psychiatry. 2021;12:682868
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In preceding centuries common thought was that psychiatric disorders originated from the gut. In later years this concept was replaced by the idea of it being a disorder of the brain and that an imbalance of neurotransmitters is the cause of depression and other psychiatric conditions (monoamine hypothesis). This theory has been dominating psychiatric research for the past decades, and selective serotonin reuptake inhibitors (SSRIs) have become a widespread treatment option for psychological disorders. Despite their benefits, their use also presents clinical challenges such as treatment resistance, side effects or loss of effect. Consequently, the monoamine hypothesis has become disputed with other pathophysiological mechanisms having been proposed in recent years. With an appreciation of the pathophysiological complexities, this opinion-based article sought to present alternate views and to suggest areas for future research regarding psychiatric disorders, SSRIs and the gut-brain axis. The gut-brain axis has complex communication and signalling pathways in essence, the gut microbiome can exert significant effects on emotions, behaviours, metabolic risks, and the metabolism of drugs. Nerve cells of the gut also generate substantial amounts of serotonin for use within the gut. Equally, the gut microbiome produces and uses serotonin. It appears that some of the side effects associated with SSRIs, such as weight gain, are mediated via the gut microbiome. Further evidence suggests that SSRIs and several other psychotropic drugs exert antimicrobial action, which can alter the balance and integrity of the gut microbiome. Therefore, it would be valuable to further investigate the impact of long-term SSRI use on the microbial constellation in the gut and whether certain microbiome patterns could help predict treatment responsiveness or side effects, that may be manageable via microbiome manipulation. The authors believe that an advanced understanding of the dynamics of the gut microbiome could provide better and personalized treatment options for mental health conditions. This article provides a brief insight into current thoughts and theories of psychiatric disorders, SSRIs and the gut.
Abstract
The monoamine hypothesis of psychopharmacology has been dominating the biological psychiatric research field for decades. Currently psychiatric research has increasingly appreciated psychiatric disorders and suicidal behavior as being highly complex and multi-etiological. In this pathway the gut microbiome and its interrelationship with the brain is gaining traction. The usage of selective serotonin reuptake inhibitors (SSRIs) is increasing in the general population. This is due to their effect on a broad range of psychiatric disorders, and their favorable side effect profile. Still, there are enigmatic aspects about SSRIs, such as the difficulty to predict effect in individual patients, inter-individual differences in side effect, tachyphylaxis (a sudden loss of response to a certain drug), and to date, uncertainties on how they exert their clinical effect. A majority of the serotonin in the human body is produced within the gut, and SSRIs affect enteric neurons. They also exhibit antimicrobial properties that comes with the potential of disrupting microbial hemostasis. We propose that the role of the gut-brain axis and the gut microbiome in relation to psychopharmacology should be more highlighted. With this article, together with similar articles, we would like to provide a hypothetical framework for future studies within this field. We believe that this would have the potential to provide a paradigm shift within the field of psychopharmacology, and result in findings that potentially could contribute to the development of a more personalized and tailored treatment.
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Exploring the Role and Potential of Probiotics in the Field of Mental Health: Major Depressive Disorder.
Johnson, D, Thurairajasingam, S, Letchumanan, V, Chan, KG, Lee, LH
Nutrients. 2021;13(5)
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A bi-directional communication between the brain and the microbiome of the gut may exist, known as the microbiome-gut-brain axis (MGBA). The role of this and the use of probiotics in relation to many psychiatric and neurological disorders is being increasingly researched. This review aimed to summarise the research on the use of probiotics for the treatment of mental health disorders and major depressive disorder (MDD). Probiotics and their use were summarised concluding that they have a diverse range of health benefits due to their anti-inflammatory, antipathogenic and antimicrobial actions. Imbalances in the four major phyla of gut bacteria; Bacteroidetes, Firmicutes, Proteobacteria and Actinobacteria may have a major role in the development of MDD. Probiotics may have several mechanisms through which they benefit MDD and decreased inflammation in the brain, increased production of chemicals involved in brain signalling and decreased stress hormones, were all implicated. It was concluded that probiotics have mental health benefits, however gaps in the evidence from studies needs to be addressed. This study could be used by healthcare professionals to understand the role of probiotics in the treatment of mental health disorders and in particular MDD.
Abstract
The field of probiotic has been exponentially expanding over the recent decades with a more therapeutic-centered research. Probiotics mediated microbiota modulation within the microbiota-gut-brain axis (MGBA) have been proven to be beneficial in various health domains through pre-clinical and clinical studies. In the context of mental health, although probiotic research is still in its infancy stage, the promising role and potential of probiotics in various mental disorders demonstrated via in-vivo and in-vitro studies have laid a strong foundation for translating preclinical models to humans. The exploration of the therapeutic role and potential of probiotics in major depressive disorder (MDD) is an extremely noteworthy field of research. The possible etio-pathological mechanisms of depression involving inflammation, neurotransmitters, the hypothalamic-pituitary-adrenal (HPA) axis and epigenetic mechanisms potentially benefit from probiotic intervention. Probiotics, both as an adjunct to antidepressants or a stand-alone intervention, have a beneficial role and potential in mitigating anti-depressive effects, and confers some advantages compared to conventional treatments of depression using anti-depressants.
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Effects of Probiotics on Anxiety, Stress, Mood and Fitness of Badminton Players.
Salleh, RM, Kuan, G, Aziz, MNA, Rahim, MRA, Rahayu, T, Sulaiman, S, Kusuma, DWY, Adikari, AMGCP, Razam, MSM, Radhakrishnan, AK, et al
Nutrients. 2021;13(6)
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Exercise has been shown to improve fitness, wellbeing, and health. However, strenuous exercise may be detrimental physiologically, as well as affecting psychological health. The aim of this study was to determine the effects of daily probiotic supplementation on anxiety, stress, mood and fitness levels among competitive badminton players. This study was a randomised, placebo-controlled study. Recruited participants (n=30) were randomly divided into the probiotic group and the control group. The participants were given treatments for six weeks without altering the training schedule of the athletes. Results showed that stress and anxiety in badminton players could be alleviated with the daily consumption of probiotics for six weeks. Additionally, probiotics supplementation increased aerobic capacity. Authors conclude that probiotic supplements could be beneficial for athletes to enhance their mental state and physical performance. Thus, probiotic supplementation that may influence the regulation of pathways (neuro-endocrine) and mechanism of action in response to physical and psychological stressors encountered by badminton players should further studied.
Abstract
BACKGROUND Reports of probiotic consumption on athletes' performance are debatable due to their equivocal results. There is a need for more evidence on the effects of probiotic intake on psychological state and fitness level. Thus, this study determined the effects of daily probiotic consumption on competitive anxiety, perceived stress and mood among university badminton players, besides their fitness like aerobic capacity, strength, speed, leg power and agility. METHODS Thirty university badminton players aged from 19 to 22 years old were randomly divided equally into two groups, where the probiotic group (PG; n = 15) received a drink that contained Lactobacillus casei Shirota (3 × 1010 CFU) and placebo group (CG; n = 15) a placebo drink for six weeks. Anxiety, stress and mood levels were determined using the CSAI-2R, PSS and BRUMS questionnaires, respectively. Fitness levels were measured using by subjecting the players to 20-m shuttle runs (aerobic capacity), handgrips (muscular strength), vertical jumps (leg power), 40-m dash (speed) and T-test (agility). The Student's t-test (p < 0.05) was used to determine the differences between PG and CG players. RESULTS After six weeks, the anxiety and stress levels of PG players significantly decreased by 16% (p < 0.001) and 20% (p < 0.001), respectively, but there were no significant changes detected in CG players. Supplementation of probiotics also improved aerobic capacity in PG players by 5.9% (p < 0.001) but did not influence the speed, strength, leg power and agility. CONCLUSIONS Probiotics supplementation showed improved aerobic capacity and relieve anxiety and stress. However, further studies need to be carried out to determine the mechanisms through which probiotic intake produces these effects.
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Mechanisms Underlying the Anti-Depressive Effects of Regular Tea Consumption.
Rothenberg, DO, Zhang, L
Nutrients. 2019;11(6)
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Previous research suggests that tea consumption is linked to a lower risk of depression, but it is not understood why. This meta-analysis and literature review looked at previous human, animal and laboratory studies that might give an indication of the mechanisms by which drinking tea can lead to a reduced depression risk. Tea contains many different active compounds such as L-theanine, various polyphenols and polyphenol metabolites that have effects on the immune system, stress response, brain neurotransmitters such as serotonin and dopamine, and gut bacteria. Different types of tea such as black, green or oolong tea contain different amounts of active compounds. The authors found that these compounds are capable of functioning through multiple pathways simultaneously that together reduce the risk of depression. The authors concluded that daily consumption of moderate amounts of different types of tea may offer significant potential benefit in the risk reduction of depression.
Abstract
This article is a comprehensive review of the literature pertaining to the antidepressant effects and mechanisms of regular tea consumption. Meta-data supplemented with recent observational studies were first analyzed to assess the association between tea consumption and depression risk. The literature reported risk ratios (RR) were 0.69 with 95% confidence intervals of 0.62-0.77. Next, we thoroughly reviewed human trials, mouse models, and in vitro experiments to determine the predominant mechanisms underlying the observed linear relationship between tea consumption and reduced risk of depression. Current theories on the neurobiology of depression were utilized to map tea-mediated mechanisms of antidepressant activity onto an integrated framework of depression pathology. The major nodes within the network framework of depression included hypothalamic-pituitary-adrenal (HPA) axis hyperactivity, inflammation, weakened monoaminergic systems, reduced neurogenesis/neuroplasticity, and poor microbiome diversity affecting the gut-brain axis. We detailed how each node has subsystems within them, including signaling pathways, specific target proteins, or transporters that interface with compounds in tea, mediating their antidepressant effects. A major pathway was found to be the ERK/CREB/BDNF signaling pathway, up-regulated by a number of compounds in tea including teasaponin, L-theanine, EGCG and combinations of tea catechins and their metabolites. Black tea theaflavins and EGCG are potent anti-inflammatory agents via down-regulation of NF-κB signaling. Multiple compounds in tea are effective modulators of dopaminergic activity and the gut-brain axis. Taken together, our findings show that constituents found in all major tea types, predominantly L-theanine, polyphenols and polyphenol metabolites, are capable of functioning through multiple pathways simultaneously to collectively reduce the risk of depression.