Therapy of experimental type 1 diabetes by isolated Sertoli cell xenografts alone

doi:10.1084/jem.20090134

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doi:10.1084/jem.20090134
The Journal of Experimental Medicine
The Rockefeller University Press, 0022-1007 $30.00
© Fallarino et al.

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ARTICLE

Therapy of experimental type 1 diabetes by isolated Sertoli cell xenografts alone

Francesca Fallarino¹, Giovanni Luca², Mario Calvitti¹, Francesca Mancuso¹, Claudio Nastruzzi³, Maria C. Fioretti¹, Ursula Grohmann¹, Ennio Becchetti¹, Anne Burgevin⁴, Roland Kratzer⁴^,5, Peter van Endert⁴^,5, Louis Boon⁶, Paolo Puccetti¹, and Riccardo Calafiore²

¹ Department of Experimental Medicine, ² Department of Internal Medicine, and ³ Department of Chemistry and Technology of Drugs, University of Perugia, Perugia 06126, Italy
⁴ Institut National de la Santé et de la Recherche Médicale, U580, Paris 75015, France
⁵ Université Paris Descartes, Paris 75015, France
⁶ Bioceros BV, Utrecht 3584 CM, Netherlands

CORRESPONDENCE Paolo Puccetti: plopcc{at}tin.it OR Riccardo Calafiore: islet{at}unipg.it

Type I diabetes mellitus is caused by autoimmune destructionof pancreatic β cells, and effective treatment of the diseasemight require rescuing β cell function in a context ofreinstalled immune tolerance. Sertoli cells (SCs) are foundin the testes, where their main task is to provide local immunologicalprotection and nourishment to developing germ cells. SCs engraft,self-protect, and coprotect allogeneic and xenogeneic graftsfrom immune destruction in different experimental settings.SCs have also been successfully implanted into the central nervoussystem to create a regulatory environment to the surroundingtissue which is trophic and counter-inflammatory. We reportthat isolated neonatal porcine SC, administered alone in highlybiocompatible microcapsules, led to diabetes prevention andreversion in the respective 88 and 81% of overtly diabetic (nonobesediabetic [NOD]) mice, with no need for additional β cellor insulin therapy. The effect was associated with restorationof systemic immune tolerance and detection of functional pancreaticislets that consisted of glucose-responsive and insulin-secretingcells. Curative effects by SC were strictly dependent on efficienttryptophan metabolism in the xenografts, leading to TGF-β–dependentemergence of autoantigen-specific regulatory T cells and recoveryof β cell function in the diabetic recipients.

F. Fallarino and G. Luca contributed equally to this paper.

Abbreviations used: EC, empty capsule; GAD, glutamic acid decarboxylase; GITR, glucocorticoid-inducible TNF receptor; IDO, indoleamine 2,3-dioxygenase; mRNA, messenger RNA; NOD, nonobese diabetic; PLN, pancreatic LN; SC, Sertoli cell.

© 2009 Fallarino et al.
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