Martina Gattringer scite author profile

Allergy represents a hypersensitivity disease which affects more than 25% of the population in industrialized countries. The underlying type I allergic immune reaction occurs in predisposed atopic individuals in response to otherwise harmless antigens (i.e. allergens) and is characterized by the production of allergen-specific IgE, an allergen-specific T cell response and the release of biologically active mediators such as histamine from mast cells and basophils. Regimens permanently tolerizing an allergic immune response still need to be developed. We therefore retrovirally transduced murine hematopoietic stem cells (HSC) to express the major grass pollen allergen Phl p 5 on their cell membrane. Transplantation of these genetically modified HSC led to durable multi-lineage molecular chimerism and permanent immunological tolerance towards the introduced allergen at the B cell, T cell and effector cell levels. Notably, Phl p 5-specific serum IgE (and IgG) remained undetectable and T cell non-responsiveness persisted throughout follow-up (40 weeks). Besides, mediator release was specifically absent in in vitro and in vivo assays. B cell, T cell and effector cell responses to an unrelated control allergen (Bet v 1) were unperturbed demonstrating specificity of this tolerance protocol. We thus describe a novel cell-based strategy for the prevention of allergy.

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Rapamycin and CTLA4Ig Synergize to Induce Stable Mixed Chimerism Without the Need for CD40 Blockade

Pilat

Klaus

Schwarz

et al. 2015

American Journal of Transplantation

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y Both authors contributed equally.The mixed chimerism approach achieves donor-specific tolerance in organ transplantation, but clinical use is inhibited by the toxicities of current bone marrow (BM) transplantation (BMT) protocols. Blocking the CD40: CD154 pathway with anti-CD154 monoclonal antibodies (mAbs) is exceptionally potent in inducing mixed chimerism, but these mAbs are clinically not available. Defining the roles of donor and recipient CD40 in a murine allogeneic BMT model, we show that CD4 or CD8 activation through an intact direct or CD4 T cell activation through the indirect pathway is sufficient to trigger BM rejection despite CTLA4Ig treatment. In the absence of CD4 T cells, CD8 T cell activation via the direct pathway, in contrast, leads to a state of split tolerance. Interruption of the CD40 signals in both the direct and indirect pathway of allorecognition or lack of recipient CD154 is required for the induction of chimerism and tolerance. We developed a novel BMT protocol that induces mixed chimerism and donor-specific tolerance to fully mismatched cardiac allografts relying on CD28 costimulation blockade and mTOR inhibition without targeting the CD40 pathway. Notably, MHC-mismatched/minor antigen-matched skin grafts survive indefinitely whereas fully mismatched grafts are rejected, suggesting that non-MHC antigens cause graft rejection and split tolerance.

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Therapeutic Efficacy of Polyclonal Tregs Does Not Require Rapamycin in a Low-Dose Irradiation Bone Marrow Transplantation Model

Pilat

Klaus

Gattringer

et al. 2011

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Persistent molecular microchimerism induces long‐term tolerance towards a clinically relevant respiratory allergen

Baranyi

Pilat

Gattringer

et al. 2012

Clin Experimental Allergy

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Cell-Based Therapy in Allergy

Baranyi

Gattringer

Valenta

et al. 2011

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IgE-mediated allergy is an immunological disorder occurring in response to otherwise harmless environmental antigens (i.e., allergens). Development of effective therapeutic or preventive approaches inducing robust tolerance toward allergens remains an unmet goal. Several experimental tolerance approaches have been described. The therapeutic use of regulatory T cells (Tregs) and the establishment of molecular chimerism are two cell-based strategies that are of particular interest. Treg therapy is close to clinical application, but its efficacy remains to be fully defined. Recent proof-of-concept studies demonstrated that transplantation of syngeneic hematopoietic stem cells modified in vitro to express a major allergen leads to molecular chimerism and robust allergen-specific tolerance. Here we review cell-based tolerance strategies in allergy, discussing their potentials and limitations.

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