BACKGROUND: Mesenchymal stem cells (MSCs) and transforming growth factor-β1 (TGF-β1) molecules are well known for their immunomodulatory properties and their function in tissue regeneration and remodeling. OBJECTIVES: To evaluate the interaction of TGF-β1 engineered MSCs with T cells and dendritic cells (DCs) and their modulatory effect on the immune response. METHODS: MSCs and DCs were generated from bone marrow of Balb/c mice and T cells were generated from mice lymph nodes. TGF-β1 expressing lentiviruses were used for MSCs transduction, and then these engineered MSCs were co-cultured with T cells and DCs. T cells proliferation and cytokines release and also DCs maturation, TNF-α release, and stimulation of allogeneic T cells were evaluated. RESULTS: T cells proliferation and IFN-γ release were suppressed by TGF-β1/MSCs while IL-4 secretion was enhanced. Co-cultured DCs with TGF-β1/MSCs showed reduced expression of CD40, CD86, and MHC II and also lower level of TNF-α secretion. Co-cultured DCs could also induce lower levels of allogeneic T cells proliferation and IFN-γ release in comparison to control DCs. CONCLUSION: Engineered TGF-β1/MSC cells showed collaborative immune suppressive functions between TGF-β1 and MSCs to modulate T cells and DCs immune responses. We therefore suggest that TGF-β1/MSC cells could provide a promising tool for treatment of clinical conditions such as organ transplantation, GVHD, and autoimmune disorders.
BACKGROUND: Mesenchymal stem cells (MSCs) and transforming growth factor-β1 (TGF-β1) molecules are well known for their immunomodulatory properties and their function in tissue regeneration and remodeling. OBJECTIVES: To evaluate the interaction of TGF-β1 engineered MSCs with T cells and dendritic cells (DCs) and their modulatory effect on the immune response. METHODS: MSCs and DCs were generated from bone marrow of Balb/c mice and T cells were generated from mice lymph nodes. TGF-β1 expressing lentiviruses were used for MSCs transduction, and then these engineered MSCs were co-cultured with T cells and DCs. T cells proliferation and cytokines release and also DCs maturation, TNF-α release, and stimulation of allogeneic T cells were evaluated. RESULTS: T cells proliferation and IFN-γ release were suppressed by TGF-β1/MSCs while IL-4 secretion was enhanced. Co-cultured DCs with TGF-β1/MSCs showed reduced expression of CD40, CD86, and MHC II and also lower level of TNF-α secretion. Co-cultured DCs could also induce lower levels of allogeneic T cells proliferation and IFN-γ release in comparison to control DCs. CONCLUSION: Engineered TGF-β1/MSC cells showed collaborative immune suppressive functions between TGF-β1 and MSCs to modulate T cells and DCs immune responses. We therefore suggest that TGF-β1/MSC cells could provide a promising tool for treatment of clinical conditions such as organ transplantation, GVHD, and autoimmune disorders.
Authors: Daniela N Silva; Bruno S F Souza; Juliana F Vasconcelos; Carine M Azevedo; Clarissa X R Valim; Bruno D Paredes; Vinicius P C Rocha; Gisele B Carvalho; Pamela S Daltro; Simone G Macambira; Carolina K V Nonaka; Ricardo Ribeiro-Dos-Santos; Milena B P Soares Journal: Front Immunol Date: 2018-06-25 Impact factor: 7.561