DSS-induced colitis activates the kynurenine pathway in serum and brain by affecting IDO-1 and gut microbiota

Zhao, Liping; Wu, Jian; Quan, Wei; Zhou, Yu; Hong, Hui; Niu, Gu-Yu; Li, Ting; Huang, Saisai; Qiao, Chen-Meng; Zhao, Wei-Jiang; Cui, Chun; Shen, Yan‐Qin

doi:10.3389/fimmu.2022.1089200

Cited by 7 publications

(4 citation statements)

References 49 publications

(43 reference statements)

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“…These findings are significant as the metabolism of tryptophan, via the kynurenine pathway, serves as a critical link between peripheral inflammation and central nervous system alterations ( 25 ). In contrast to our results, elevated kynurenine levels have been observed in humans with major depressive disorder ( 131 ), as well as in acute DSS-induced colitis mice ( 132 ). Acute inflammation in DSS-induced colitis stimulates the tryptophan-kynurenine-KYNA pathway in the brain ( 132 ); therefore, our findings suggest that chronic colitis in Winnie mice has a diminished impact on this pathway, given that neuroprotective KYNA concentration was reduced.…”

Section: Discussioncontrasting

confidence: 99%

Alterations in tryptophan metabolism and de novo NAD+ biosynthesis within the microbiota-gut-brain axis in chronic intestinal inflammation

Devereaux,

Robinson,

Stavely

et al. 2024

Front. Med.

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BackgroundInflammatory bowel disease is an incurable and idiopathic disease characterized by recurrent gastrointestinal tract inflammation. Tryptophan metabolism in mammalian cells and some gut microbes comprise intricate chemical networks facilitated by catalytic enzymes that affect the downstream metabolic pathways of de novo nicotinamide adenine dinucleotide (NAD+) synthesis. It is hypothesized that a correlation exists between tryptophan de novo NAD+ synthesis and chronic intestinal inflammation.MethodsTranscriptome analysis was performed using high-throughput sequencing of mRNA extracted from the distal colon and brain tissue of Winnie mice with spontaneous chronic colitis and C57BL/6 littermates. Metabolites were assessed using ultra-fast liquid chromatography to determine differences in concentrations of tryptophan metabolites. To evaluate the relative abundance of gut microbial genera involved in tryptophan and nicotinamide metabolism, we performed 16S rRNA gene amplicon sequencing of fecal samples from C57BL/6 and Winnie mice.ResultsTryptophan and nicotinamide metabolism-associated gene expression was altered in distal colons and brains of Winnie mice with chronic intestinal inflammation. Changes in these metabolic pathways were reflected by increases in colon tryptophan metabolites and decreases in brain tryptophan metabolites in Winnie mice. Furthermore, dysbiosis of gut microbiota involved in tryptophan and nicotinamide metabolism was evident in fecal samples from Winnie mice. Our findings shed light on the physiological alterations in tryptophan metabolism, specifically, its diversion from the serotonergic pathway toward the kynurenine pathway and consequential effects on de novo NAD+ synthesis in chronic intestinal inflammation.ConclusionThe results of this study reveal differential expression of tryptophan and nicotinamide metabolism-associated genes in the distal colon and brain in Winnie mice with chronic intestinal inflammation. These data provide evidence supporting the role of tryptophan metabolism and de novo NAD+ synthesis in IBD pathophysiology.

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Section: Discussioncontrasting

confidence: 99%

Alterations in tryptophan metabolism and de novo NAD+ biosynthesis within the microbiota-gut-brain axis in chronic intestinal inflammation

Devereaux,

Robinson,

Stavely

et al. 2024

Front. Med.

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“…In an inflammatory milieu, this augmented production of neurotoxic molecules, such as QUIN, 3-hydroxykynurenine (3-HK), and 3-hydroxy anthranilic acid (3-HAA), may potentially contribute to depressive symptoms by causing damage to hippocampal neurons [135]. DSS-induced colitis caused elevated KYN levels in the cerebral cortex, which were primarily a result of local synthesis mediated by the IDO-1, rather than transport from the bloodstream [136]. While there was no significant change in the pro/anti-inflammatory phenotypes transition of microglia cells in their response to colitis-induced KYN elevation, a neurotoxic neurotoxin subtype of astrocytes was observed.…”

Section: Tryptophan-kynurenine Pathway In Microglia and Its Possible ...mentioning

confidence: 99%

“…While there was no significant change in the pro/anti-inflammatory phenotypes transition of microglia cells in their response to colitis-induced KYN elevation, a neurotoxic neurotoxin subtype of astrocytes was observed. In addition, the changes in the variety and composition of the gut microbiota resulted in increased TRP metabolism in serum and brain [136]. When subjected to various forms of stress, experimental animals exhibit elevated ratios of KYN/TRP in both the brain and the intestines, along with an upregulation of IDO expression [137].…”

Section: Tryptophan-kynurenine Pathway In Microglia and Its Possible ...mentioning

confidence: 99%

Psychiatric Comorbidities of Inflammatory Bowel Disease: It Is a Matter of Microglia’s Gut Feeling

Fakhfouri,

Mijailović,

Rahimian

2024

Cells

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Inflammatory bowel disease (IBD), a common term for Crohn’s disease and ulcerative colitis, is a chronic, relapse-remitting condition of the gastrointestinal tract that is increasing worldwide. Psychiatric comorbidities, including depression and anxiety, are more prevalent in IBD patients than in healthy individuals. Evidence suggests that varying levels of neuroinflammation might underlie these states in IBD patients. Within this context, microglia are the crucial non-neural cells in the brain responsible for innate immune responses following inflammatory insults. Alterations in microglia’s functions, such as secretory profile, phagocytic activity, and synaptic pruning, might play significant roles in mediating psychiatric manifestations of IBD. In this review, we discuss the role played by microglia in IBD-associated comorbidities.

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“…Enterochromaffin cells are responsible for 5-HT (5-hydroxytryptamine) production (Reigstad et al, 2015 ; Rao and Gershon, 2016 ; Malinova et al, 2018 ). Enteroendocrine cells modulate signaling between enteric glial cells and GVB (Dowling et al, 2022 ), release cholecystokinin or YY peptide (Hayashi et al, 2023 ), and partake in microbial metabolites conversion such as tryptophan, and further, kynurenine (Ye et al, 2021 ; Zhao et al, 2023 ). The ENS detects bacteria-derived LPS via highly abundant TLRs, especially TLR2 and TLR4 (Hyland and Cryan, 2016 ).…”

Section: Focusing On the Immune System- Related Signaling Pathwaysmentioning

confidence: 99%

Stress and the gut-brain axis: an inflammatory perspective

Morys,

Małecki,

Nowacka-Chmielewska

2024

Front. Mol. Neurosci.

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The gut-brain axis (GBA) plays a dominant role in maintaining homeostasis as well as contributes to mental health maintenance. The pathways that underpin the axis expand from macroscopic interactions with the nervous system, to the molecular signals that include microbial metabolites, tight junction protein expression, or cytokines released during inflammation. The dysfunctional GBA has been repeatedly linked to the occurrence of anxiety- and depressive-like behaviors development. The importance of the inflammatory aspects of the altered GBA has recently been highlighted in the literature. Here we summarize current reports on GBA signaling which involves the immune response within the intestinal and blood-brain barrier (BBB). We also emphasize the effect of stress response on altering barriers' permeability, and the therapeutic potential of microbiota restoration by probiotic administration or microbiota transplantation, based on the latest animal studies. Most research performed on various stress models showed an association between anxiety- and depressive-like behaviors, dysbiosis of gut microbiota, and disruption of intestinal permeability with simultaneous changes in BBB integrity. It could be postulated that under stress conditions impaired communication across BBB may therefore represent a significant mechanism allowing the gut microbiota to affect brain functions.

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DSS-induced colitis activates the kynurenine pathway in serum and brain by affecting IDO-1 and gut microbiota

Cited by 7 publications

References 49 publications

Alterations in tryptophan metabolism and de novo NAD+ biosynthesis within the microbiota-gut-brain axis in chronic intestinal inflammation

Alterations in tryptophan metabolism and de novo NAD+ biosynthesis within the microbiota-gut-brain axis in chronic intestinal inflammation

Psychiatric Comorbidities of Inflammatory Bowel Disease: It Is a Matter of Microglia’s Gut Feeling

Stress and the gut-brain axis: an inflammatory perspective

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