Centre de Documentation Campus Montignies
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Votre centre de documentation sera exceptionnellement fermé de 12h30 à 13h ce lundi 18 novembre.
Egalement, il sera fermé de 12h30 à 13h30 ce mercredi 20 novembre.
Lundi : 8h-18h30
Mardi : 8h-17h30
Mercredi 9h-16h30
Jeudi : 8h30-18h30
Vendredi : 8h30-12h30 et 13h-14h30
Votre centre de documentation sera exceptionnellement fermé de 12h30 à 13h ce lundi 18 novembre.
Egalement, il sera fermé de 12h30 à 13h30 ce mercredi 20 novembre.
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Détail de l'auteur
Auteur Keely G. McDonald |
Documents disponibles écrits par cet auteur
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In vivo labeling of epithelial cell–associated antigen passages in the murine intestine / Kathryn A. Knoop in LabAnimal, 4/2020 (Avril 2020)
[article]
Titre : In vivo labeling of epithelial cell–associated antigen passages in the murine intestine Type de document : texte imprimé Auteurs : Kathryn A. Knoop ; Devesha H. Kulkarni ; Keely G. McDonald ; et al. Année de publication : 2020 Article en page(s) : p. 21-32 Langues : Anglais (eng) Résumé : The intestinal immune system samples luminal contents to induce adaptive immune responses that include tolerance in the steady state and protective immunity during infection. How luminal substances are delivered to the immune system has not been fully investigated. Goblet cells have an important role in this process by delivering luminal substances to the immune system through the formation of goblet cell–associated antigen passages (GAPs). Soluble antigens in the intestinal lumen are transported across the epithelium transcellularly through GAPs and delivered to dendritic cells for presentation to T cells and induction of immune responses. GAPs can be identified and quantified by using the ability of GAP-forming goblet cells to take up fluorescently labeled dextran. Here, we describe a method to visualize GAPs and other cells that have the capacity to take up luminal substances by intraluminal injection of fluorescent dextran in mice under anesthesia, tissue sectioning for slide preparation and imaging with fluorescence microscopy. In contrast to in vivo two-photon imaging previously used to identify GAPs, this technique is not limited by anatomical constraints and can be used to visualize GAP formation throughout the length of the intestine. In addition, this method can be combined with common immunohistochemistry protocols to visualize other cell types. This approach can be used to compare GAP formation following different treatments or changes to the luminal environment and to uncover how sampling of luminal substances is altered in pathophysiological conditions. This protocol requires 8 working hours over 2–3 d to be completed. Permalink : ./index.php?lvl=notice_display&id=88537
in LabAnimal > 4/2020 (Avril 2020) . - p. 21-32[article] In vivo labeling of epithelial cell–associated antigen passages in the murine intestine [texte imprimé] / Kathryn A. Knoop ; Devesha H. Kulkarni ; Keely G. McDonald ; et al. . - 2020 . - p. 21-32.
Langues : Anglais (eng)
in LabAnimal > 4/2020 (Avril 2020) . - p. 21-32
Résumé : The intestinal immune system samples luminal contents to induce adaptive immune responses that include tolerance in the steady state and protective immunity during infection. How luminal substances are delivered to the immune system has not been fully investigated. Goblet cells have an important role in this process by delivering luminal substances to the immune system through the formation of goblet cell–associated antigen passages (GAPs). Soluble antigens in the intestinal lumen are transported across the epithelium transcellularly through GAPs and delivered to dendritic cells for presentation to T cells and induction of immune responses. GAPs can be identified and quantified by using the ability of GAP-forming goblet cells to take up fluorescently labeled dextran. Here, we describe a method to visualize GAPs and other cells that have the capacity to take up luminal substances by intraluminal injection of fluorescent dextran in mice under anesthesia, tissue sectioning for slide preparation and imaging with fluorescence microscopy. In contrast to in vivo two-photon imaging previously used to identify GAPs, this technique is not limited by anatomical constraints and can be used to visualize GAP formation throughout the length of the intestine. In addition, this method can be combined with common immunohistochemistry protocols to visualize other cell types. This approach can be used to compare GAP formation following different treatments or changes to the luminal environment and to uncover how sampling of luminal substances is altered in pathophysiological conditions. This protocol requires 8 working hours over 2–3 d to be completed. Permalink : ./index.php?lvl=notice_display&id=88537 Exemplaires (1)
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