
<ns0:uwmetadata xmlns:ns0="http://phaidra.univie.ac.at/XML/metadata/V1.0" xmlns:ns1="http://phaidra.univie.ac.at/XML/metadata/lom/V1.0" xmlns:ns10="http://phaidra.univie.ac.at/XML/metadata/provenience/V1.0" xmlns:ns11="http://phaidra.univie.ac.at/XML/metadata/provenience/V1.0/entity" xmlns:ns12="http://phaidra.univie.ac.at/XML/metadata/digitalbook/V1.0" xmlns:ns13="http://phaidra.univie.ac.at/XML/metadata/etheses/V1.0" xmlns:ns2="http://phaidra.univie.ac.at/XML/metadata/extended/V1.0" xmlns:ns3="http://phaidra.univie.ac.at/XML/metadata/lom/V1.0/entity" xmlns:ns4="http://phaidra.univie.ac.at/XML/metadata/lom/V1.0/requirement" xmlns:ns5="http://phaidra.univie.ac.at/XML/metadata/lom/V1.0/educational" xmlns:ns6="http://phaidra.univie.ac.at/XML/metadata/lom/V1.0/annotation" xmlns:ns7="http://phaidra.univie.ac.at/XML/metadata/lom/V1.0/classification" xmlns:ns8="http://phaidra.univie.ac.at/XML/metadata/lom/V1.0/organization" xmlns:ns9="http://phaidra.univie.ac.at/XML/metadata/histkult/V1.0">
  <ns1:general>
    <ns1:identifier>o:2675</ns1:identifier>
    <ns1:title language="en">The Intricacies of Inflammatory Bowel Disease: A Preliminary Study of Redox Biology in Intestinal Organoids</ns1:title>
    <ns1:language>en</ns1:language>
    <ns1:description language="en">We evaluated the redox status, precisely glutathione levels, which have a major impact in cellular detoxification and antioxidant defence in IBD-derived and healthy intestinal organoids. Therefore, we wanted to explore the differences in terms of their redox balance and mitochondrial fitness. To this end, we introduced a Grx1-roGFP2 construct into the organoids by lentiviral transduction before performing a stress assay by treating the organoids with hydrogen peroxide and examined the GSH/GSSG ratio using confocal imaging. Using ratio imaging, we could detect statistically significant differences between healthy and IBD-derived samples. To gain more insight, we also performed a GSH/GSSG assay, which directly measured glutathione levels. This analysis revealed that both organoid lines had higher levels of oxidized glutathione due to the stress treatment demonstrated by a lower GSH/GSSG ratio compared to the untreated control. Nevertheless, the results showed no significant difference between healthy and IBD-derived organoids. We further challenged organoids with hydrogen peroxide after incubation with MitoTracker® to see if mitochondrial fitness might be different in IBD-derived organoids. However, these results were also very comparable. In summary, our preliminary findings indicate that both organoid lines demonstrate a well-functioning system in terms of analysis but show no clear difference between healthy and IBD-derived samples.</ns1:description>
    <ns1:keyword language="en">intestinal organoid; redox biology; IBD; glutathione; oxidative stress; ROS; redox imaging</ns1:keyword>
    <ns2:identifiers>
      <ns2:resource>1552099</ns2:resource>
      <ns2:identifier>10.3390/organoids2030012</ns2:identifier>
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    <ns1:upload_date>2024-03-05T09:14:13.960Z</ns1:upload_date>
    <ns1:status>44</ns1:status>
    <ns2:peer_reviewed>yes</ns2:peer_reviewed>
    <ns1:contribute seq="0">
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      <ns1:entity seq="0">
        <ns3:firstname>Georg</ns3:firstname>
        <ns3:lastname>Csukovich</ns3:lastname>
        <ns3:institution>University of Veterinary Medicine Vienna</ns3:institution>
        <ns3:orcid>0000-0001-5615-666X</ns3:orcid>
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        <ns3:firstname>Janina</ns3:firstname>
        <ns3:lastname>Huainig</ns3:lastname>
        <ns3:institution>University of Veterinary Medicine Vienna</ns3:institution>
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        <ns3:firstname>Selina</ns3:firstname>
        <ns3:lastname>Troester</ns3:lastname>
        <ns3:institution>University of Veterinary Medicine Vienna</ns3:institution>
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        <ns3:firstname>Barbara</ns3:firstname>
        <ns3:lastname>Pratscher</ns3:lastname>
        <ns3:institution>University of Veterinary Medicine Vienna</ns3:institution>
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        <ns3:firstname>Iwan Anton</ns3:firstname>
        <ns3:lastname>Burgener</ns3:lastname>
        <ns3:institution>University of Veterinary Medicine Vienna</ns3:institution>
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  <ns12:digitalbook>
    <ns12:name_magazine language="en">Organoids</ns12:name_magazine>
    <ns12:pagination>9</ns12:pagination>
    <ns12:volume>2</ns12:volume>
    <ns12:booklet>3</ns12:booklet>
    <ns12:publisher>MDPI</ns12:publisher>
    <ns12:releaseyear>2023</ns12:releaseyear>
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