1Inflammatory bowel disease (IBD) may develop due to an inflammatory response to commensal gut microbiota triggered by environmental factors in a genetically susceptible host. Isotretinoin (acne therapy) has been inconsistently associated with IBD onset and flares but prior treatment with antibiotics, also associated with IBD development, complicates the confirmation of this association. Here we studied in mice whether doxycycline, metronidazole or isotretinoin induce epigenetic modifications, and consequently change T-cell mRNA expression and/or function directly after treatment and after a 4 week recovery period. Isotretinoin induced IL-10 signaling in Tregs and naive T-cells directly after treatment and reduced effector T-cell proliferation alone and in co-culture with Tregs. Metronidazole activated processes associated with anti-inflammatory pathways in both T-cell subsets directly after the treatment period whereas doxycycline induced an immediate proinflammatory expression profile that resolved after the recovery period. Long-term changes indicated an inhibition of proliferation by doxycycline and induction of beneficial immune and metabolic pathways by metronidazole. Persistent alterations in microRNA and mRNA expression profiles after the recovery period indicate that all three medications may induce long-term epigenetic modifications in both T-cell subsets. Yet, our data do not support the induction of a long-term pro-inflammatory phenotype in murine Tregs and naive T-cells.Inflammatory bowel diseases (IBD) with the two main forms, Crohn's disease (CD) and ulcerative colitis (UC), are chronic and relapsing inflammatory conditions of the gastrointestinal tract that affect an increasing number of patients worldwide 1 . The precise pathogenesis of IBD is multifactorial and is not completely elucidated yet. It is generally considered that environmental factors represent an important contributor to the pathogenesis of IBD by triggering an inappropriate and progressive immune response to the commensal gut microbiota in a genetically predisposed host 2 . To date, genome-wide association studies have identified more than 240 IBD susceptibility loci, affecting genes involved in immune regulation, mucosal immune response, autophagy and epithelial barrier function [3][4][5] . Currently available data support the concept that IBD is a polygenic disease and suggest that non-genetic modifications involved in regulatory processes might have an impact on susceptibility and severity of disease 6 . Mechanisms of gene regulation that do not alter the basic sequence of DNA are called epigenetic regulations and have been studied extensively over the last few years. These studies have shown that epigenetic modifications are associated with a variety of diseases, e.g. IBD 7,8 , multiple sclerosis 9 , psoriasis 10 and systemic lupus erythematosus 11. The molecular basis of epigenetic regulation is complex. Importantly, changes may remain through cell division, and last for many generations (long-term effects) 12 . So far, th...
Inflammatory bowel disease (IBD) may develop due to an immunogenic response to commensal gut microbiota triggered by environmental factors in the genetically susceptible host. Isotretinoin, applied in the treatment of severe acne, has been variably associated with IBD, but prior treatment with antibiotics, also associated with IBD development, confounds confirmation of this association. This study investigated the effects of doxycycline, metronidazole (frequently used in the treatment of acne and IBD, respectively) and isotretinoin on murine gut (faecal) microbiota after 2 weeks of treatment and after a 4-week recovery period. Faecal microbiota composition was assessed by 16S rRNA gene sequencing on the GS-FLX 454 platform with primers directed against the variable regions V1-V2. Doxycycline had a modest effect on bacterial richness and evenness, but had pronounced persistent and significant effects on the abundance of certain operational taxonomic units compared with the control group. In contrast, metronidazole induced a pronounced reduction in diversity after treatment, but these effects did not persist after the recovery period. This study demonstrates differential effects of antibiotics on the gut microbiota with doxycycline, unlike metronidazole, mediating long-term changes in the murine gut microbiota. Isotretinoin had no significant effect on the faecal microbiota.
Colorectal cancer (CRC) is one of the leading causes of cancer‐related deaths worldwide and the need for novel biomarkers and therapeutic strategies to improve diagnosis and surveillance is obvious. This study aims to identify β6‐integrin (ITGB6) as a novel serum tumor marker for diagnosis, prognosis, and surveillance of CRC. ITGB6 serum levels were validated in retro‐ and prospective CRC patient cohorts. ITGB6 serum levels were analyzed by ELISA. Using an initial cohort of 60 CRC patients, we found that ITGB6 is present in the serum of CRC, but not in non‐CRC control patients. A cut‐off of ≥2 ng/mL ITGB6 reveals 100% specificity for the presence of metastatic CRC. In an enlarged study cohort of 269 CRC patients, ITGB6 predicted the onset of metastatic disease and was associated with poor prognosis. Those data were confirmed in an independent, prospective cohort consisting of 40 CRC patients. To investigate whether ITGB6 can also be used for tumor surveillance, serum ITGB6‐levels were assessed in 26 CRC patients, pre‐ and post‐surgery, as well as during follow‐up visits. After complete tumor resection, ITGB6 serum levels declined completely. During follow‐up, a new rise in ITGB6 serum levels indicated tumor recurrence or the onset of new metastasis as confirmed by CT scan. ITGB6 was more accurate for prognosis of advanced CRC and for tumor surveillance as the established marker carcinoembryonic antigen (CEA). Our findings identify ITGB6 as a novel serum marker for diagnosis, prognosis, and surveillance of advanced CRC. This might essentially contribute to an optimized patient care.
Cadmium (Cd) affects the expression of estrogen receptor (ER) and aryl hydrocarbon receptor (AhR)-associated genes in rat uterus and elicits estrogen-like activity in vitro. The small intestine is highly exposed to dietary Cd which may mimic or antagonize estrogen action in this tissue. We investigated the effects of Cd and 17-alpha-ethinylestradiol (EE₂) on AhR-associated gene expression after oral exposure of ovariectomized female Wistar rats, and metallothionein (Mt1a) expression as a typical metal-response marker. Mt1a in the small intestine was strongly induced by co-treatment with CdCl₂ at 2 mg/kg b.wt (Cd 2) and 0.1 mg/kg b.wt EE2 than by the single compound (3-day gavage). The Cd 2-induced down-regulation of Cyp1a1, Gsta2, and Nqo1 mRNA was not antagonized by pure anti-estrogen (2.5 mg/kg b.wt ZK191703 s.c., ZK). Interestingly, the EE₂-induced down-regulation of Cyp1a1, Gsta2, and Nqo1 mRNA was antagonized by Cd 2 in vivo and in colon cancer cell lines (HT-29 and CaCo-2, treated 5 days with Cd 1 µM and/or E₂ 0.01 µM) with low or no ER-beta expression. Dose dependency was studied after Cd exposure with drinking water (5 and 50 ppm CdCl₂ equivalent to 0.4 and 4 mg/kg b.wt; Cd 0.4, Cd 4) for 28 days and EE₂ as reference. Intestinal Mt1a expression was dose dependently induced, while AhR target genes were down-regulated by Cd 0.4 similar to EE₂ and more pronounced than by Cd 4. We propose that Cd modulates intestinal AhR-associated gene expression similar to estrogens, but (contrary to its effects in uterus) via ER-independent and/or ER-beta-mediated mechanisms. Our new data suggest interference of Cd with estrogen and AhR signaling in the small intestine.
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