ABSTRACT
Background & Aim: Due to its immunomodulatory potential, therapy based on the transfer of regulatory T cells (Tregs) has acquired great interest in the treatment of diseases in which it is necessary to restore immune homeostasis. Until now, autologous Treg cell therapy has proven to be safe, but the employment of blood as the source of Treg presents several limitations in terms of Treg recovery and the quality of the employed Tregs. Our group has developed a new technology to produce massive amounts of GMP Treg derived from the pediatric thymic tissue discarded in pediatric cardiac surgeries (thyTreg) that could overcome the main obstacles. Indeed, we are employing thyTreg cells with success in a clinical trial as autologous cell therapy in transplanted children. Given the large amounts of thyTreg that can be obtained from a single thymus, the main objective of this work is to evaluate the immunogenicity of thyTreg and confirm that its immature phenotype makes possible the allogeneic use of this cellular therapy in order to treat a range of immune diseases and patients. Methods, Results & Conclusion: The thyTreg obtained in the laboratory using the protocol developed by our group exhibit high viability (>90%) and high purity (>80%) in terms of CD25+FoxP3+ expression. ThyTreg have been observed to express low levels of immunogenicity markers (CD40L, CD80, CD86) by flow cytometry. Moreover, in vitro models of thyTreg co-culture with allogeneic peripheral blood mononuclear cells (PBMC) from healthy donors have been performed to i) determine if thyTreg generate an immunogenic response on PBMC, and ii) evaluate the capacity of thyTreg to suppress the proliferation of allogeneic PBMC. Even that the HLA disparity in the allogeneic cocultures between thyTreg and PBMC was high (13 of the 21 typed pairs had HLA <4/12 concordance), thyTreg did not induce the expression of activation markers (CD25, CD69) nor the proliferation or the production of pro-inflammatory cytokines (IFN-g) by allogeneic PBMCs. Moreover, thyTreg greatly inhibit the proliferation of allogeneic CD4 and CD8 T cells, reaching levels of around 70% inhibition of proliferation at a 1: 1 ratio. The results suggest that allogenic thyTreg are not immunogenic and are capable of exerting their suppressive function in an allogeneic context, indicating their possible off-the-shelf use as a treatment for transplant rejection, graft-versus- host disease, autoimmune diseases or the cytokine release syndrome characteristic of severe COVID-19 patients.