Boris Le Nevé scite author profile

Objective Brain-gut-microbiota interactions may play an important role in human health and behavior. However, while rodent models have demonstrated effects of the gut microbiota on emotional, nociceptive and social behaviors, there is little translational human evidence to date. In this study we identify brain and behavioral characteristics of healthy women clustered by gut microbiota profiles. Methods Forty women supplied fecal samples for 16s rRNA profiling. Microbial clusters were identified using Partitioning Around Medoids. Functional magnetic resonance imaging was acquired. Microbiota-based group differences were analyzed in response to affective images. Structural and diffusion tensor imaging provided gray matter metrics (volume, cortical thickness, mean curvature, surface area) as well as fiber density between regions. A sparse Partial Least Square-Discrimination Analysis was applied to discriminate microbiota-clusters using white and gray matter metrics. Results Two bacterial genus-based clusters were identified, one with greater Bacteroides abundance (n=33), one with greater Prevotella abundance (n=7). The Prevotella group showed less hippocampal activity viewing negative valences images. White and gray matter imaging discriminated the two clusters, with accuracy of 66.7% and 87.2% respectively. The Prevotella cluster was associated with differences in emotional, attentional, and sensory processing regions. For gray matter, the Bacteroides cluster showed greater prominence in the cerebellum, frontal regions, and the hippocampus. Conclusions These results support the concept of brain-gut-microbiota interactions in healthy humans. Further examination of the interaction between gut microbes, brain and affect in humans is needed to inform preclinical reports that microbial modulation may affect mood and behavior.

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Global Cytokine Profiles and Association With Clinical Characteristics in Patients With Irritable Bowel Syndrome

Bennet

Polster

Törnblom

et al. 2016

111

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Global cytokine profiles did not discriminate IBS patients from healthy subjects, but cytokine profiles were more varied among IBS patients than among healthy subjects, and a small subgroup of patients with enhanced immune activity was identified. Also, association of inflammatory cytokines with some clinical symptoms suggests that immune activation may be of importance in a subset of IBS patients.

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Evidence for an association of gut microbial Clostridia with brain functional connectivity and gastrointestinal sensorimotor function in patients with irritable bowel syndrome, based on tripartite network analysis

Labus¹,

Osadchiy²,

Hsiao

et al. 2019

Microbiome

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Background and aimsEvidence from preclinical and clinical studies suggests that interactions among the brain, gut, and microbiota may affect the pathophysiology of irritable bowel syndrome (IBS). As disruptions in central and peripheral serotonergic signaling pathways have been found in patients with IBS, we explored the hypothesis that the abundance of serotonin-modulating microbes of the order Clostridiales is associated with functional connectivity of somatosensory brain regions and gastrointestinal (GI) sensorimotor function.MethodsWe performed a prospective study of 65 patients with IBS and 21 healthy individuals (controls) recruited from 2011 through 2013 at a secondary/tertiary care outpatient clinic in Sweden. Study participants underwent functional brain imaging, rectal balloon distension, a nutrient and lactulose challenge test, and assessment of oroanal transit time within a month. They also submitted stool samples, which were analyzed by 16S ribosomal RNA gene sequencing. A tripartite network analysis based on graph theory was used to investigate the interactions among bacteria in the order Clostridiales, connectivity of brain regions in the somatosensory network, and GI sensorimotor function.ResultsWe found associations between GI sensorimotor function and gut microbes in stool samples from controls, but not in samples from IBS patients. The largest differences between controls and patients with IBS were observed in the Lachnospiraceae incertae sedis, Clostridium XIVa, and Coprococcus subnetworks. We found connectivity of subcortical (thalamus, caudate, and putamen) and cortical (primary and secondary somatosensory cortices) regions to be involved in mediating interactions among these networks.ConclusionsIn a comparison of patients with IBS and controls, we observed disruptions in the interactions between the brain, gut, and gut microbial metabolites in patients with IBS—these involve mainly subcortical but also cortical regions of brain. These disruptions may contribute to altered perception of pain in patients with IBS and may be mediated by microbial modulation of the gut serotonergic system.Electronic supplementary materialThe online version of this article (10.1186/s40168-019-0656-z) contains supplementary material, which is available to authorized users.

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The steroid glycoside H.g.-12 from Hoodia gordonii activates the human bitter receptor TAS2R14 and induces CCK release from HuTu-80 cells

Nevé

Foltz

Daniel

et al. 2010

American Journal of Physiology-Gastrointestinal and Liver Physi

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Steroid glycosides extracted from the succulent plant Hoodia gordonii are suggested to have appetite-suppressant effects both in animals and humans. Yet, the mechanisms underlying the putative satiety action of Hoodia steroid glycosides are not fully understood. We found that H.g.-12, a steroid glycoside purified from H. gordonii extract, initiated cholecystokinin (CCK) secretion both ex vivo in rat intestine and in vitro in the human enteroendocrine (EC) cell line HuTu-80. CCK is known to exert central effects on appetite suppression via the vagus nerve which afferents terminate in the gut wall. Recent data show that G protein-coupled receptors signaling bitter taste (T2Rs) are expressed in both rodent and human gastrointestinal tract. It was further demonstrated that bitter sensing is functional in mouse STC-1 EC cells and leads to CCK secretion via increased intracellular Ca²(+) concentrations. Based on the bitter taste of H. gordonii purified extracts, we assessed whether H.g.-12 could activate human bitter receptors. The steroid glycoside activated selectively TAS2R7 and TAS2R14, both heterologously expressed in HEK 293 cells. Removing an essential structural feature from the steroid glycoside inhibited H.g.-12-induced Ca²(+) increase in TAS2R14-expressing HEK cells and abolished H.g.-12-induced CCK secretion from human EC cells. Similarly, a nonspecific bitter receptor antagonist abolished H.g.-12-induced CCK secretion in HuTu-80 cells. These results point to a potential route of action by which components of Hoodia might influence appetite control. Our data also provide additional evidence that bitter taste-sensing mechanisms are coupled to hormone release from EC cells in the intestine. Moreover, we identified a natural agonist of TAS2R7 and TAS2R14 for further studies on the role of bitter receptors in satiety control and food intake.

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Boris Le Nevé

Identification of an Intestinal Microbiota Signature Associated With Severity of Irritable Bowel Syndrome

Brain Structure and Response to Emotional Stimuli as Related to Gut Microbial Profiles in Healthy Women

Global Cytokine Profiles and Association With Clinical Characteristics in Patients With Irritable Bowel Syndrome

Evidence for an association of gut microbial Clostridia with brain functional connectivity and gastrointestinal sensorimotor function in patients with irritable bowel syndrome, based on tripartite network analysis

The steroid glycoside H.g.-12 from Hoodia gordonii activates the human bitter receptor TAS2R14 and induces CCK release from HuTu-80 cells

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