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      An Engineered Probiotic Produces a Type III Interferon IFNL1 and Reduces Inflammations in in vitro Inflammatory Bowel Disease Models

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          Abstract

          The etiology of inflammatory bowel diseases (IBDs) frequently results in the uncontrolled inflammation of intestinal epithelial linings and the local environment. Here, we hypothesized that interferon-driven immunomodulation could promote anti-inflammatory effects. To test this hypothesis, we engineered probiotic Escherichia coli Nissle 1917 (EcN) to produce and secrete a type III interferon, interferon lambda 1 (IFNL1), in response to nitric oxide (NO), a well-known colorectal inflammation marker. We then validated the anti-inflammatory effects of the engineered EcN strains in two in vitro models: a Caco-2/Jurkat T cell coculture model and a scaffold-based 3D coculture IBD model that comprises intestinal epithelial cells, myofibroblasts, and T cells. The IFNL1-expressing EcN strains upregulated Foxp3 expression in T cells and thereafter reduced the production of pro-inflammatory cytokines such as IL-13 and -33, significantly ameliorating inflammation. The engineered strains also rescued the integrity of the inflamed epithelial cell monolayer, protecting epithelial barrier integrity even under inflammation. In the 3D coculture model, IFNL1-expressing EcN treatment enhanced the population of regulatory T cells and increased anti-inflammatory cytokine IL-10. Taken together, our study showed the anti-inflammatory effects of IFNL1-expressing probiotics in two in vitro IBD models, demonstrating their potential as live biotherapeutics for IBD immunotherapy.

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          One-step inactivation of chromosomal genes in Escherichia coli K-12 using PCR products.

          K. Datsenko, B Wanner (2000)
          We have developed a simple and highly efficient method to disrupt chromosomal genes in Escherichia coli in which PCR primers provide the homology to the targeted gene(s). In this procedure, recombination requires the phage lambda Red recombinase, which is synthesized under the control of an inducible promoter on an easily curable, low copy number plasmid. To demonstrate the utility of this approach, we generated PCR products by using primers with 36- to 50-nt extensions that are homologous to regions adjacent to the gene to be inactivated and template plasmids carrying antibiotic resistance genes that are flanked by FRT (FLP recognition target) sites. By using the respective PCR products, we made 13 different disruptions of chromosomal genes. Mutants of the arcB, cyaA, lacZYA, ompR-envZ, phnR, pstB, pstCA, pstS, pstSCAB-phoU, recA, and torSTRCAD genes or operons were isolated as antibiotic-resistant colonies after the introduction into bacteria carrying a Red expression plasmid of synthetic (PCR-generated) DNA. The resistance genes were then eliminated by using a helper plasmid encoding the FLP recombinase which is also easily curable. This procedure should be widely useful, especially in genome analysis of E. coli and other bacteria because the procedure can be done in wild-type cells.
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            IFN-lambdas mediate antiviral protection through a distinct class II cytokine receptor complex.

            Sergei V. Kotenko, Grant Gallagher, Vitaliy V Baurin (2003)
            We report here the identification of a ligand-receptor system that, upon engagement, leads to the establishment of an antiviral state. Three closely positioned genes on human chromosome 19 encode distinct but paralogous proteins, which we designate interferon-lambda1 (IFN-lambda1), IFN-lambda2 and IFN-lambda3 (tentatively designated as IL-29, IL-28A and IL-28B, respectively, by HUGO). The expression of IFN-lambda mRNAs was inducible by viral infection in several cell lines. We identified a distinct receptor complex that is utilized by all three IFN-lambda proteins for signaling and is composed of two subunits, a receptor designated CRF2-12 (also designated as IFN-lambdaR1) and a second subunit, CRF2-4 (also known as IL-10R2). Both receptor chains are constitutively expressed on a wide variety of human cell lines and tissues and signal through the Jak-STAT (Janus kinases-signal transducers and activators of transcription) pathway. This receptor-ligand system may contribute to antiviral or other defenses by a mechanism similar to, but independent of, type I IFNs.
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              Unravelling the pathogenesis of inflammatory bowel disease.

              R. J. Xavier, D Podolsky (2007)
              Recently, substantial advances in the understanding of the molecular pathogenesis of inflammatory bowel disease (IBD) have been made owing to three related lines of investigation. First, IBD has been found to be the most tractable of complex disorders for discovering susceptibility genes, and these have shown the importance of epithelial barrier function, and innate and adaptive immunity in disease pathogenesis. Second, efforts directed towards the identification of environmental factors implicate commensal bacteria (or their products), rather than conventional pathogens, as drivers of dysregulated immunity and IBD. Third, murine models, which exhibit many of the features of ulcerative colitis and seem to be bacteria-driven, have helped unravel the pathogenesis/mucosal immunopathology of IBD.
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                Author and article information

                Journal
                Journal ID (nlm-ta): ACS Biomater Sci Eng
                Journal ID (iso-abbrev): ACS Biomater Sci Eng
                Journal ID (publisher-id): ab
                Journal ID (coden): abseba
                Title: ACS Biomaterials Science & Engineering
                Publisher: American Chemical Society
                ISSN (Electronic): 2373-9878
                Publication date (Electronic): 18 November 2022
                Publication date Collection: 11 September 2023
                Volume: 9
                Issue: 9 , Design and Evaluation of Engineered Probiotics
                Pages: 5123-5135
                Affiliations
                []NUS Synthetic Biology for Clinical and Technological Innovation (SynCTI), National University of Singapore , 117456, Singapore
                []Synthetic Biology Translational Research Programme, Yong Loo Lin School of Medicine, National University of Singapore , 117456, Singapore
                [§ ]Department of Biochemistry, Yong Loo Lin School of Medicine, National University of Singapore ,117596, Singapore
                []Wilmar-NUS Corporate Laboratory, National University of Singapore , 117599, Singapore
                []Department of Biological and Environmental Engineering, Cornell University , Ithaca, New York 14853, United States
                [# ]Department of Paediatrics, Yong Loo Lin School of Medicine, National University of Singapore , 119228, Singapore
                Author notes
                Author information
                https://orcid.org/0000-0003-0470-6177
                https://orcid.org/0000-0001-6448-6319
                Article
                DOI: 10.1021/acsbiomaterials.2c00202
                PMC ID: 10498420
                PubMed ID: 36399014
                SO-VID: c8f1e507-f96b-4402-bbc0-4ea08fb02dbd
                Copyright © © 2022 The Authors. Published by American Chemical Society
                License:

                Permits the broadest form of re-use including for commercial purposes, provided that author attribution and integrity are maintained ( https://creativecommons.org/licenses/by/4.0/).

                History
                Date received : 21 February 2022
                Date accepted : 01 November 2022
                Funding
                Funded by: Asian Office of Aerospace Research and Development, doi 10.13039/100018237;
                Award ID: FA2386-18-1-4058
                Funded by: Ministry of Education - Singapore, doi 10.13039/501100001459;
                Award ID: NUHSRO/2020/046/T1/3
                Funded by: National Research Foundation Singapore, doi 10.13039/501100001381;
                Award ID: NRF2019-NRF-ISF003-3208
                Funded by: National Research Foundation Singapore, doi 10.13039/501100001381;
                Award ID: NRF-NRFI05-2019-0004
                Funded by: National University of Singapore, doi 10.13039/501100001352;
                Award ID: NUHSRO/2020/077/MSC/02/SB
                Categories
                Subject: Article
                Custom metadata
                document-id-old-9 ab2c00202
                document-id-new-14 ab2c00202
                ccc-price

                Keywords: probiotics,e. coli nissle,interferon,anti-inflammation,inflammatory bowel diseases
                Data availability:
                Keywords: probiotics, e. coli nissle, interferon, anti-inflammation, inflammatory bowel diseases

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