Differential Induction of Antimicrobial REGIII by the Intestinal Microbiota and Bifidobacterium breve NCC2950

Natividad, Jane M.; Hayes, Christina L.; Motta, Jean-Paul; Jury, Jennifer; Galipeau, Heather J.; Philip, Vivek; García-Ródenas, Clara L.; Kiyama, Hiroshi; Berčík, Přemysl; Verdú, Elena F.

doi:10.1128/aem.02470-13

Cited by 85 publications

(73 citation statements)

References 41 publications

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“…5 For instance, the well-known probiotics Escherichia coli Nissle 1917, Lactobacillus rhamnosus GG (LGG) and a mixture of lactobacilli and bifidobacteria prevent the increase in intestinal permeability in vivo. [24][25][26][27] Notably, fermented milk containing Bifidobacterium lactis CNCM I-2494 and LAB strains present in yogurt prevented the increase of intestinal permeability induced by partial restraint stress in rats. 23 Recently, the commensal bacterium Faecalibacterium prausnitzii A2-165, (a major member of the Clostridium leptum group) was shown to display anti-inflammatory and protective effects in both acute 28 and chronic colitis models.…”

Section: Introductionmentioning

confidence: 97%

Lactobacillus rhamnosusCNCM I-3690 and the commensal bacteriumFaecalibacterium prausnitziiA2-165 exhibit similar protective effects to induced barrier hyper-permeability in mice

Laval¹,

Martin²,

Natividad³

et al. 2015

Gut Microbes

155

108

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Impaired gut barrier function has been reported in a wide range of diseases and syndromes and in some functional gastrointestinal disorders. In addition, there is increasing evidence that suggests the gut microbiota tightly regulates gut barrier function and recent studies demonstrate that probiotic bacteria can enhance barrier integrity. Here, we aimed to investigate the effects of Lactobacillus rhamnosus CNCM I-3690 on intestinal barrier function. In vitro results using a Caco-2 monolayer cells stimulated with TNF-α confirmed the anti-inflammatory nature of the strain CNCM I-3690 and pointed out a putative role for the protection of the epithelial function. Next, we tested the protective effects of L. rhamnosus CNCM I-3690 in a mouse model of increased colonic permeability. Most importantly, we compared its performance to that of the well-known beneficial human commensal bacterium Faecalibacterium prauznitzii A2-165. Increased colonic permeability was normalized by both strains to a similar degree. Modulation of apical tight junction proteins expression was then analyzed to decipher the mechanism underlying this effect. We showed that CNCM I-3690 partially restored the function of the intestinal barrier and increased the levels of tight junction proteins Occludin and E-cadherin. The results indicate L. rhamnosus CNCM I-3690 is as effective as the commensal anti-inflammatory bacterium F. prausnitzii to treat functional barrier abnormalities.

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Section: Introductionmentioning

confidence: 97%

Lactobacillus rhamnosusCNCM I-3690 and the commensal bacteriumFaecalibacterium prausnitziiA2-165 exhibit similar protective effects to induced barrier hyper-permeability in mice

Laval¹,

Martin²,

Natividad³

et al. 2015

Gut Microbes

155

108

View full text Add to dashboard Cite

show abstract

“…Gnotobiotic studies have provided key evidence on how specific bacterial strains influence the development and maturation of host physiology and immunity, including secondary lymphoid development, antimicrobial peptide maturation, and induction of T helper (T H ) cells, such as T regulatory (T REG ) and proinflammatory T H 17 cells. [1][2][3] Components of the intestinal microbiota have differential capacity to influence host responses. 4 For instance, experimentally defined communities, such as the altered Schaedler flora (ASF), Clostridium species, or the polysaccharide A-expressing Bacteroides fragilis predominantly induce T REG in the colon, whereas pathobionts Bilophila wadsworthia and segmented filamentous bacteria are potent inducers of T H 1 and T H 17 cells, respectively.…”

mentioning

confidence: 99%

Ecobiotherapy Rich in Firmicutes Decreases Susceptibility to Colitis in a Humanized Gnotobiotic Mouse Model

Natividad

Sánchez

Galipeau

et al. 2015

Inflammatory Bowel Diseases

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“…Paneth cells are part of the epithelium in the small intestine. They produce several antimicrobial peptides for innate immunity such as the regenerating islet-derived III (RegIII-α RegIII-β and RegIII-γ) proteins which belong to the family of C-type lectins [42] . RegIII-γ has a specific antibacterial effect and administration of live Akkermansia muciniphila or Bifidobacterium breve effectively induces REGIII production and specifically the RegIII-γ production protecting the intestine barrier [43] .…”

Section: Gut Dysbiosis Nafld and T2dmmentioning

confidence: 99%

Extrahepatic Diseases and NAFLD: The Triangular Relationship between NAFLD, Type 2-Diabetes and Dysbiosis

Scorletti

Byrne

2016

Dig Dis

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Non-alcoholic fatty liver disease (NAFLD) encompasses a spectrum of liver diseases from simple steatosis with hepatic lipid accumulation to end-stage liver disease with decompensated cirrhosis, liver failure and hepatocellular carcinoma. Recent data from the USA showed that in 2013, NAFLD was the second most frequent indication for liver transplantation behind hepatitis C. Since there are now effective treatments for hepatitis C and there is currently no licensed treatment for NAFLD, it has been predicted that over the next 10-15 years, NAFLD will replace hepatitis C as the most frequent indication for liver transplantation. Besides, increasing the risk of hepatocellular carcinoma and end-stage liver disease, it has recently become clear that NAFLD also increases risk of extrahepatic diseases such as type 2 diabetes mellitus (T2DM), cardiovascular disease, cardiac diseases and chronic kidney disease, to name but a few. Of each of these extrahepatic diseases, the evidence to date suggests that NAFLD is a strong risk factor for T2DM. When NAFLD occurs in combination with obesity and insulin resistance (as it frequently does), there is a marked increase in risk of incident T2DM with possible synergism occurring between liver fat accumulation, insulin resistance and obesity to further increase risk of development of T2DM. Thus, there is a reciprocal relationship between NAFLD as a risk factor for T2DM, and T2DM as a risk factor for liver disease progression in NAFLD. Moreover, recent evidence now points to the importance of perturbation of the intestinal microbiota (dysbiosis) in both T2DM and NAFLD. Consequently, there is a triangular relationship between dysbiosis and T2DM and NAFLD. This review will focus on T2DM as a key extrahepatic complication of NAFLD and will describe and discuss the triangular relationship between dysbiosis and T2DM and NAFLD and the factors and potential mechanisms underpinning this relationship.

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Differential Induction of Antimicrobial REGIII by the Intestinal Microbiota and Bifidobacterium breve NCC2950

Cited by 85 publications

References 41 publications

Lactobacillus rhamnosusCNCM I-3690 and the commensal bacteriumFaecalibacterium prausnitziiA2-165 exhibit similar protective effects to induced barrier hyper-permeability in mice

Lactobacillus rhamnosusCNCM I-3690 and the commensal bacteriumFaecalibacterium prausnitziiA2-165 exhibit similar protective effects to induced barrier hyper-permeability in mice

Ecobiotherapy Rich in Firmicutes Decreases Susceptibility to Colitis in a Humanized Gnotobiotic Mouse Model

Extrahepatic Diseases and NAFLD: The Triangular Relationship between NAFLD, Type 2-Diabetes and Dysbiosis

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