Osquel Barroso Herrera scite author profile

In the context of transplantation, dendritic cells (DCs) can sensitize alloreactive T cells via two pathways. The direct pathway is initiated by donor DCs presenting intact donor MHC molecules. The indirect pathway results from recipient DCs processing and presenting donor MHC as peptide. This simple dichotomy suggests that T cells with direct and indirect allospecificity cannot cross-regulate each other because distinct APCs are involved. In this study we describe a third, semidirect pathway of MHC alloantigen presentation by DCs that challenges this conclusion. Mouse DCs, when cocultured with allogeneic DCs or endothelial cells, acquired substantial levels of class I and class II MHC:peptide complexes in a temperature- and energy-dependent manner. Most importantly, DCs acquired allogeneic MHC in vivo upon migration to regional lymph nodes. The acquired MHC molecules were detected by Ab staining and induced proliferation of Ag-specific T cells in vitro. These data suggest that recipient DCs, due to acquisition of donor MHC molecules, may link T cells with direct and indirect allospecificity.

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New spectrum of allorecognition pathways: implications for graft rejection and transplantation tolerance

Jiang

Herrera

Lechler

2004

Current Opinion in Immunology

170

125

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A Novel Pathway of Antigen Presentation by Dendritic and Endothelial Cells: Implications for Allorecognition and Infectious Diseases

Smyth

Herrera

Golshayan

et al. 2006

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Dendritic cells (DCs) are the major antigen presenting cells capable of stimulating T cell responses following either organ transplantation or a viral infection. In the context of allorecognition, T cells can be activated following presentation of alloantigens by donor DCs (direct), as well as by recipient DCs presenting processed donor major histocompatibility complex (MHC) as peptides (indirect). We have recently described another mechanism by which alloreactive T cells are activated. Recipient DCs can acquire donor MHC through cell-to-cell contact and this acquired MHC can stimulate a T cell response (the semidirect pathway). Similarly, during a viral infection, DCs are capable of stimulating T cells directly, as occurs when infected DCs present processed viral antigens, or indirectly by a process known as cross-presentation. Although cross-presentation of exogenous antigen is an important mechanism for controlling infectious diseases, it is possible that peptide:MHC acquisition (the semidirect pathway) may also play a part in immunity against pathogens. In this review, we discuss the possible contributions of the semidirect pathway/MHC transfer in infectious disease.

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