Increase of Faecal Tryptic Activity Relates to Changes in the Intestinal Microbiome: Analysis of Crohn's Disease with a Multidisciplinary Platform

Midtvedt, Tore; Zabarovsky, Eugene R.; Norin, Elisabeth; Bark, Johan; Gizatullin, Rinat; Kashuba, Vladimir I.; Ljungqvist, Olle; Zabarovska, Veronika I.; Möllby, R.; Ernberg, Ingemar

doi:10.1371/journal.pone.0066074

Cited by 44 publications

(40 citation statements)

References 28 publications

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“…The inability of the intestinal microbiota from V/M-treated mice to inactivate serine proteases ex vivo or on transfer into GF mice supports the latter assumption. However, although our data are in line with published literature suggesting specific strains of the order Bacteroidales to play a role in the physiological inactivation of pancreatic proteases,34, 61, 65 the identity of relevant antiproteolytic species/strains remains to be elucidated. The identification and isolation of antiproteolytic bacteria is challenging because the capacity to inactivate/degrade pancreatic proteases seems to be a rather rare bacterial function and none of the already investigated simplified microbial consortia (SIHUMIx, 62 altered Schaedler flora, 66 Oligo-MM community 67 ; data not shown) are able to normalize the PA.…”

Section: Discussionsupporting

confidence: 87%

Increased Pancreatic Protease Activity in Response to Antibiotics Impairs Gut Barrier and Triggers Colitis

Yoon

Schaubeck

Lagkouvardos

et al. 2018

Cellular and Molecular Gastroenterology and Hepatology

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Background & AimsAntibiotic (ABx) therapy is associated with increased risk for Crohn’s disease but underlying mechanisms are unknown. We observed high fecal serine protease activity (PA) to be a frequent side effect of ABx therapy. The aim of the present study was to unravel whether this rise in large intestinal PA may promote colitis development via detrimental effects on the large intestinal barrier.MethodsTranswell experiments were used to assess the impact of high PA in ABx-treated patients or vancomycin/metronidazole-treated mice on the epithelial barrier. Serine protease profiling was performed using liquid chromatography–mass spectrometry/mass spectrometry analysis. The impact of high large intestinal PA on the intestinal barrier in wild-type and interleukin (IL)10-/- mice and on colitis development in IL10-/- mice was investigated using vancomycin/metronidazole with or without oral serine protease inhibitor (AEBSF) treatment.ResultsThe ABx-induced, high large intestinal PA was caused by significantly increased levels of pancreatic proteases and impaired epithelial barrier integrity. In wild-type mice, the rise in PA caused a transient increase in intestinal permeability but did not affect susceptibility to chemically induced acute colitis. In IL10-/- mice, increased PA caused a consistent impairment of the intestinal barrier associated with inflammatory activation in the large intestinal tissue. In the long term, the vancomycin/metronidazole-induced lasting increase in PA aggravated colitis development in IL10-/- mice.ConclusionsHigh large intestinal PA is a frequent adverse effect of ABx therapy, which is detrimental to the large intestinal barrier and may contribute to the development of chronic intestinal inflammation in susceptible individuals.

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Section: Discussionsupporting

confidence: 87%

Increased Pancreatic Protease Activity in Response to Antibiotics Impairs Gut Barrier and Triggers Colitis

Yoon

Schaubeck

Lagkouvardos

et al. 2018

Cellular and Molecular Gastroenterology and Hepatology

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“…The genetic and environmental interactions of the intestinal microbiota are reportedly correlated with the progression of inflammatory bowel disease9. Acute viral gastroenteritis (AGE) can be associated with atypical manifestations, such as convulsions and intestinal hemorrhage101112.…”

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confidence: 99%

Intestinal microbiome in children with severe and complicated acute viral gastroenteritis

Chen

Tsai

Lee

et al. 2017

Sci Rep

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The aim of the present study was to evaluate the microbiota of children with severe or complicated acute viral gastroenteritis (AGE). To that end, next-generation sequencing (NGS) technology was used to sequence the 16S ribosomal RNA (16S rRNA) gene in 20 hospitalized pediatric patients with severe or complicated AGE and a further 20 otherwise healthy children; the fecal microbiome was then assessed. Comparative metagenomics data were analyzed by a Wilcoxon rank–sum test and hierarchical clustering analysis of bacterial reads. The statistical analyses showed a significantly decreased Shannon diversity index (entropy score) of the intestinal microbiota in patients with severe AGE compared with normal controls (P = 0.017) and patients with mild-to-moderate AGE (P = 0.011). The intestinal microbiota score of the 5 patients with rotavirus AGE was significantly lower than that of those with norovirus infection (P = 0.048). Greater richness in Campylobacteraceae (P = 0.0003), Neisseriaceae (P = 0.0115), Methylobacteriaceae (P = 0.0004), Sphingomonadaceae (P = 0.0221), and Enterobacteriaceae (P = 0.0451) was found in patients with complicated AGE compared with normal controls. The data suggest a significant reduction in intestinal microbial diversity in patients with severe AGE, particularly those with rotavirus infection.

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“…The altered microbiota profile observed in our study could be also linked to altered proteolytic activity in the gut, which can subsequently affect the neural system 64 . Higher abundance of Coribacteriales has been previously associated with increased faecal protease activity 65 , while a decrease in Bacteroides has been linked to high faecal tryptic activity 66 . Although we have not identified the exact underlying mechanisms in this model, our results are in agreement with previous studies showing that bacteria can produce or alter the metabolism of neurotransmitters 51,67,68 , modify expression of multiple genes within the CNS 24,25 , modulate metabolism of tryptophan/kynurenine 26 , directly affect neural activity 69 and alter serum metabolomic profile 70 .…”

Section: P=0030mentioning

confidence: 99%

Microbiota and host determinants of behavioural phenotype in maternally separated mice

et al. 2015

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Early-life stress is a determinant of vulnerability to a variety of disorders that include dysfunction of the brain and gut. Here we exploit a model of early-life stress, maternal separation (MS) in mice, to investigate the role of the intestinal microbiota in the development of impaired gut function and altered behaviour later in life. Using germ-free and specific pathogen-free mice, we demonstrate that MS alters the hypothalamic-pituitary-adrenal axis and colonic cholinergic neural regulation in a microbiota-independent fashion. However, microbiota is required for the induction of anxiety-like behaviour and behavioural despair. Colonization of adult germ-free MS and control mice with the same microbiota produces distinct microbial profiles, which are associated with altered behaviour in MS, but not in control mice. These results indicate that MS-induced changes in host physiology lead to intestinal dysbiosis, which is a critical determinant of the abnormal behaviour that characterizes this model of early-life stress.

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Increase of Faecal Tryptic Activity Relates to Changes in the Intestinal Microbiome: Analysis of Crohn's Disease with a Multidisciplinary Platform

Cited by 44 publications

References 28 publications

Increased Pancreatic Protease Activity in Response to Antibiotics Impairs Gut Barrier and Triggers Colitis

Increased Pancreatic Protease Activity in Response to Antibiotics Impairs Gut Barrier and Triggers Colitis

Intestinal microbiome in children with severe and complicated acute viral gastroenteritis

Microbiota and host determinants of behavioural phenotype in maternally separated mice

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