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Titre du projet :
Propagation of diet-derived immunoregulatory signals across tissues
Chercheur principal :
Osborne, Lisa
Co-chercheurs :
Lewis, Ian A
Directeur(s) de recherche :
S/O
Établisssement payé :
University of British Columbia
Établissement de recherche :
University of British Columbia
Département :
Microbiology and Immunology
Programme :
Subvention Projet
Concours (année/mois) :
202209
CEP désigné :
Immunologie
Institut principal :
Maladies infectieuses et immunitaires
Thème principal :
Recherche biomédicale
Durée (année/mois) :
5 ans 0 mois
Contribution des IRSC :
Donateurs :
Montant :
841 500$
Équipement :
0$
Contribution du partenaire externe :
Nom du partenaire :
S/O
Montant :
S/O
Équipement :
S/O
Partenaire du candidat à l'externe :
Nom du partenaire :
S/O
Montant :
S/O
Équipement :
S/O
Partenaire externe (en nature) :
Nom du partenaire :
S/O
Montant :
S/O
Équipement :
S/O
Mots clés :
Cd4 T Cell Activation; Cd4 T Cell Polarization; Diet-Microbiome Interactions; Dietary Intervention For Immunomodulatory Purposes; Experimental Autoimmune Encephalomyelitis; Fecal Microbiota Transplants; Host-Microbiome Interactions; Microbiota-Derived Metabolites
Résumé :
The old adage "You are what you eat" has been gaining traction in scientific circles as we continue to discover pathways that microbes living within our intestines use to break down the food we eat and produce small compounds (metabolites) that influence the function of our own cells. It is truly remarkable how much has been learned in the last decade, including identification of some previously unknown diet-derived metabolites that appear to prevent or treat disease in mouse models of autoimmunity and inflammation. Here, we propose to build on previous research from our lab showing that a particular type of dietary fiber (guar gum) has a powerful effect on immune cell activation that delays development of a multiple sclerosis (MS)-like autoimmune disease in mice. One of the most remarkable findings of these studies is the discovery that this is not a common feature of other fibers, which suggests that the microbes lining our intestines (the microbiota) are producing a unique suite of metabolites when they feed on guar gum. Our goals are to: identify the breakdown products (ie metabolites) of this dietary fiber, determine the pathways that the identified metabolite(s) alter in immune cell activation, and test whether guar gum itself or the metabolites produced by its digestion can treat MS-like disease in mice. Given that Canada has the highest rate of MS globally, these studies have the potential to affect the well-being of a large number of Canadians who are at risk of developing or are living with MS.
Version :
20250311.1