Commensal Bacteria Derived Metabolite Butyrate Restores the Epithelial Mitochondrial Network Disrupted by the Crohn's Disease‐Associated Pathobiont Adherent Invasive
            E‐coli
            Infection

Abstract Background Mitochondria exist in a dynamic network that undergoes continuous cycles of fission and fusion that is tightly controlled. Mitochondrial dysfunction is implicated in several autoimmune and inflammatory diseases. Adherent-invasive E. coli (AIEC) is a pathogenic strain of bacteria associated with Crohn’s disease (CD), that can evoke pro-inflammatory responses. Data from our lab showed that AIEC (strain LF82) infection in gut epithelial cells (T84 human cell line) caused dramatic mitochondrial network fragmentation and loss of mitochondrial membrane potential. Short chain fatty acids (SCFA) produced by commensal bacteria in the gut have a wide range of benefits including enhancing mitochondrial biogenesis. Aims To determine (1) if sodium butyrate (NaB) treatment can protect against mitochondrial dysfunction induced by AIEC (strain LF82) infection in T84 epithelial cells and then (2) to identify the mechanism by which NaB restores mitochondrial functions. Methods We assessed changes in mitochondrial network morphology through confocal microscopy live cell imaging of mitotracker-stained T84 epithelial cells based on unbiased Hoechst-stained nuclei to select the field of view. The effect of NaB on the proliferation of bacteria and their invasion of T84-epithelia was assessed by growth curve analysis and bacterial internalisation assays. Finally, mRNA and protein expression of peroxisome proliferating activator receptor gamma co-activator 1 alpha (PGC1α), a regulator of mitochondrial biogenesis, were assessed by qPCR and Western Blot. Results We confirmed that AIEC infection (strain LF82, 108cfu, 4h) induces massive mitochondrial fragmentation in T84 cells (2x105). We also found that cotreatment of T84 cells with NaB (10mM) and LF82 showed increased percentage of fused mitochondrial networks compared to LF82-treated cells. This result was also seen in cells treated with mitochondrial uncoupler dinitrophenol (DNP; 0.1 mM, 2h) and NaB. Moreover, the protective effect of NaB was not related to inhibition of proliferation of the bacteria as we demonstrated that LF82 growth and its invasive phenotype was not compromised by NaB (3-20mM; 0-24hr). In agreement with the effect of LF82 on mitochondrial functions, LF82 significantly reduced PGC1α mRNA expression in T84 cells, that was prevented by co-treatment with NaB. Conclusions These data suggest the pathogen disruption of the epithelial mitochondrial network is a component of IBD; thus, identifying mitochondrial fission and fusion pathways as novel therapeutic targets to control enteric inflammation. The data underscore the complex interplay between bacteria and the epithelium, such that commensal organisms may preserve the mitochondrial network in the face of challenge from pathogens that seek to disrupt mitochondrial form and function Funding Agencies CIHR

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Macrophages behaviour against Adherent and Invasive E. coli (AIEC) isolated from Crohn's disease patients in relation with host factors susceptibility

10.26226/morressier.57c5383ed462b80296c9b40e ◽

2016 ◽

Author(s):

Anthony Buisson

Keyword(s):

Crohn’S Disease ◽

Crohn's Disease ◽

Host Factors ◽

E Coli

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The Order in Which Antibiotics are Administered Affects the Fitness Costs of Adherent-Invasive E. coli (AIEC) Strains

10.31219/osf.io/46fae ◽

2019 ◽

Author(s):

Jordan B Gregg

Keyword(s):

Crohn’S Disease ◽

Crohn's Disease ◽

Combination Therapy ◽

Agar Plate ◽

Sequential Therapy ◽

Negative Control ◽

Clinical Settings ◽

Fitness Costs ◽

Inflammatory Gene Expression ◽

E Coli

AIEC-LF82 is a strain of bacteria that is surmised to have a role in causing IBD and Crohn’s disease by activating pro-inflammatory gene expression in organisms. Using antibiotics via combination therapy has been a technique used in clinical settings in an attempt to treat the strains, however, the attempts have not been that effective nor efficient in terms of completely halting the growth and colonization of AIEC to treat IBD and Crohn's disease patients. Research has shown that regarding hindering or preventing the colonization bacterial colonies, sequential therapy tends to be more effective and time-efficient than combination therapy, with fewer adverse effects. To test if this is also the case with the AIEC-LF82 strain of bacteria, I first tested AIEC’s response to combination therapy using the Penicillin-Streptomycin, Kanamycin-Chloramphenicol, antimicrobial peptide (AMP), Kanamycin, SPE phase and LB agar plates, all of which were experimental plates other than the LB agar plate that acted as the negative control. I then tested AIEC-LF82’s response to sequential therapy using the LB+ Kan + Spe, LB + AMP + Spe, LB+ Kan/Cam + Spe, LB + P/S + Spe, LB + P/S + Kan and LB + P/S + AMP and one LB agar plate acting as the negative control. The only differences between sets a and b were the order in which antibiotics were administered in the six aforementioned treatment sets. Ultimately, I found that set b of sequential therapy, strong-weak antibiotic treatments, was the most effective treatment but that set a regarding sequential therapy was actually the least effective of all of the treatments. In conclusion, using strong-weak sequential antibiotic therapy treatments appears to be a potentially promising option to treat patients suffering from Crohn's disease and IBD.

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Antagonism of Adherent Invasive E. coli LF82 With Human α-defensin 5 in the Follicle-associated Epithelium of Patients With Ileal Crohn’s Disease

Inflammatory Bowel Diseases ◽

10.1093/ibd/izaa315 ◽

2020 ◽

Author(s):

Lina Y Alkaissi ◽

Martin E Winberg ◽

Stéphanie DS Heil ◽

Staffan Haapaniemi ◽

Pär Myrelid ◽

...

Keyword(s):

Crohn’S Disease ◽

Crohn's Disease ◽

Ex Vivo ◽

Ussing Chambers ◽

E Coli ◽

Follicle Associated Epithelium ◽

Vitro Model ◽

Set Up

Abstract Background The first visible signs of Crohn’s disease (CD) are microscopic erosions over the follicle-associated epithelium (FAE). The aim of the study was to investigate the effects of human α-defensin 5 (HD5) on adherent-invasive Escherichia coli LF82 translocation and HD5 secretion after LF82 exposure in an in vitro model of human FAE and in human FAE ex vivo. Methods An in vitro FAE-model was set up by the coculture of Raji B cells and Caco-2-cl1 cells. Ileal FAE from patients with CD and controls were mounted in Ussing chambers. The effect of HD5 on LF82 translocation was studied by LF82 exposure to the cells or tissues with or without incubation with HD5. The HD5 secretion was measured in human FAE exposed to LF82 or Salmonella typhimurium. The HD5 levels were evaluated by immunofluorescence, immunoblotting, and ELISA. Results There was an increased LF82 translocation across the FAE-model compared with Caco-2-cl1 (P < 0.05). Incubation of cell/tissues with HD5 before LF82 exposure reduced bacterial passage in both models. Human FAE showed increased LF82 translocation in CD compared with controls and attenuated passage after incubation with sublethal HD5 in both CD and controls (P < 0.05). LF82 exposure resulted in a lower HD5 secretion in CD FAE compared with controls (P < 0.05), whereas Salmonella exposure caused equal secretion on CD and controls. There were significantly lower HD5 levels in CD tissues compared with controls. Conclusions Sublethal HD5 reduces the ability of LF82 to translocate through FAE. The HD5 is secreted less in CD in response to LF82, despite a normal response to Salmonella. This further implicates the integrated role of antimicrobial factors and barrier function in CD pathogenesis.

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