Background
To examine immune-epithelial interactions and their impact on epithelial transformation in primary sclerosing cholangitis–associated ulcerative colitis (PSC-UC) using patient-derived colonic epithelial organoid cultures (EpOCs).
Methods
The EpOCs were originated from colonic biopsies from patients with PSC-UC (n = 12), patients with UC (n = 14), and control patients (n = 10) and stimulated with cytokines previously associated with intestinal inflammation (interferon (IFN) γ and interleukin (IL)-22). Markers of cytokine downstream pathways, stemness, and pluripotency were analyzed by real-time quantitative polymerase chain reaction and immunofluorescence. The OLFM4 expression in situ was assessed by RNAscope and immunohistochemistry.
Results
A distinct expression of stem cell–associated genes was observed in EpOCs derived from patients with PSC-UC, with lower expression of the classical stem-cell marker LGR5 and overexpression of OLFM4, previously associated with pluripotency and early stages of neoplastic transformation in the gastrointestinal and biliary tracts. High levels of OLFM4 were also found ex vivo in colonic biopsies from patients with PSC-UC. In addition, IFNγ stimulation resulted in the downregulation of LGR5 in EpOCs, whereas higher expression of OLFM4 was observed after IL-22 stimulation. Interestingly, expression of the IL-22 receptor, IL22RA1, was induced by IFNγ, suggesting that a complex interplay between these cytokines may contribute to carcinogenesis in PSC-UC.
Conclusions
Higher expression of OLFM4, a cancer stemness gene induced by IL-22, is present in PSC-UC, suggesting that IL-22 responses may result in alterations of the intestinal stem-cell niche in these patients.
Objective: The purpose of this study was to identify the potential of resveratrol in inhibiting the growth and production of two enzymes, hyaluronidase and protease, in Stenotrophomonas maltophilia, which has become a burn wound pathogen of great significance. Method: Stenotrophomonas maltophilia (ATCC 17666) was cultured in nutrient broth and the microbial load was standardised to 0.5 McFarland standard at 600nm. The study included antimicrobial assays (well diffusion and resazurin dye binding method), hyaluronidase expression regulation assay (hyaluronic acid hydrolysis assay and turbidity assay) and protease expression regulation assay (casein hydrolysis assay and determination of specific activity of protease using tyrosine standard). Results: The minimum inhibitory concentration (MIC) of resveratrol against Stenotrophomonas maltophilia was found to be 125µg/ml. Hyaluronidase production in the organism treated with resveratrol was found to be half that in the untreated organism. The specific activity of protease produced by the organism treated with resveratrol was found to be one-quarter that in the untreated organism, as analysed by the tyrosine standard estimation protocol. Conclusion: Resveratrol was found to be a potent compound to treat Stenotrophomonas maltophilia infections. In addition to the antimicrobial and enzyme-regulatory properties of resveratrol, it also shows anti-oxidant and anti-inflammatory properties. This finding has great scope clinically as resveratrol may prove to be an ideal drug to treat burn wound infections.
Chromatin undergoes structural remodeling through the cell-cycle stages. Remodeling of the chromatin structure is extremely important for events occurring during these stages. The five major levels of structural organization, from the double-strand structure to the metaphase chromosomes are possible due to specific factors and mechanisms that function in synchrony. The mitotic promoting factors, the "structural maintenance of chromosomes" proteins, and proteins associated with cytoskeletal and nucleoskeletal elements have specific roles in structural modeling and functioning of DNA. It is of interest that the DNA decondensation cycle opposes the DNA condensation cycle. However, it is not clear if the factors and mechanisms involved in the DNA decondensation cycle are exactly opposite to the DNA condensation cycle. Also interesting is that chromosome-specific chromatin is positioned in the interphase nucleus in specific "territories" or "niches," a phenomenon similar to the exactly positioned genes at specific locations on a fully condensed chromosome. We review the factors and mechanisms in remodeling chromatin, maintaining structural integrity at each organizational level, and impact of this structural remodeling on functions of the genetic material.
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