Literature DB >> 29563329

Deficiency of immunoregulatory indoleamine 2,3-dioxygenase 1in juvenile diabetes.

Ciriana Orabona1, Giada Mondanelli1, Maria T Pallotta1, Agostinho Carvalho2,3, Elisa Albini1, Francesca Fallarino1, Carmine Vacca1, Claudia Volpi1, Maria L Belladonna1, Maria G Berioli4, Giulia Ceccarini4,5, Susanna Mr Esposito4,5, Raffaella Scattoni4,5, Alberto Verrotti4,5, Alessandra Ferretti5, Giovanni De Giorgi5, Sonia Toni6, Marco Cappa7, Maria C Matteoli7, Roberta Bianchi1, Davide Matino1, Alberta Iacono1, Matteo Puccetti1, Cristina Cunha2,3, Silvio Bicciato8, Cinzia Antognelli1, Vincenzo N Talesa1, Lucienne Chatenoud9, Dietmar Fuchs10, Luc Pilotte11,12, Benoît Van den Eynde11,12, Manuel C Lemos13, Luigina Romani1, Paolo Puccetti1, Ursula Grohmann1.   

Abstract

A defect in indoleamine 2,3-dioxygenase 1 (IDO1), which is responsible for immunoregulatory tryptophan catabolism, impairs development of immune tolerance to autoantigens in NOD mice, a model for human autoimmune type 1 diabetes (T1D). Whether IDO1 function is also defective in T1D is still unknown. We investigated IDO1 function in sera and peripheral blood mononuclear cells (PBMCs) from children with T1D and matched controls. These children were further included in a discovery study to identify SNPs in IDO1 that might modify the risk of T1D. T1D in children was characterized by a remarkable defect in IDO1 function. A common haplotype, associated with dysfunctional IDO1, increased the risk of developing T1D in the discovery and also confirmation studies. In T1D patients sharing such a common IDO1 haplotype, incubation of PBMCs in vitro with tocilizumab (TCZ) - an IL-6 receptor blocker - would, however, rescue IDO1 activity. In an experimental setting with diabetic NOD mice, TCZ was found to restore normoglycemia via IDO1-dependent mechanisms. Thus, functional SNPs of IDO1 are associated with defective tryptophan catabolism in human T1D, and maneuvers aimed at restoring IDO1 function would be therapeutically effective in at least a subgroup of T1D pediatric patients.

Entities:  

Keywords:  Amino acid metabolism; Autoimmunity; Diabetes; Immunology; Immunotherapy

Mesh:

Substances:

Year:  2018        PMID: 29563329      PMCID: PMC5926942          DOI: 10.1172/jci.insight.96244

Source DB:  PubMed          Journal:  JCI Insight        ISSN: 2379-3708


  67 in total

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