Anton Gruber scite author profile

Gene gun-mediated DNA immunization is a powerful mode of vaccination against infectious diseases and tumors. Many studies have identified dendritic cells (DC) as the central players in inducing immunity upon biolistic DNA vaccination; however, none of these studies directly quantify DC-mediated responses in comparison with immunity triggered by all Ag- and MHC-expressing cells. In this study we use two different approaches to decipher the relative role of DC vs other cell types in gene gun-induced immunity. First, we directly compared the immunization efficacy of different DNA constructs, which allow Ag expression ubiquitously (CMV promoter) or specifically in DC (CD11c promoter) and would encode either for soluble or membrane bound forms of Ag. Second, we immunized transgenic mice in which only DC can present MHC-restricted Ag, and directly compared the magnitudes of CTL activation with those obtained in wild-type mice. Surprisingly, our combined data suggest that, although DC-specific Ag expression is sufficient to induce humoral responses, DC alone cannot trigger optimal CD4 and CD8 T cell responses upon gene gun vaccination. Therefore, we conclude that DC alone are insufficient to mediate optimal induction of T cell immunity upon gene gun DNA vaccination and that broad Ag expression rather than DC-restricted approaches are necessary for induction of complete immune responses.

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MHC Class I-Positive Dendritic Cells (DC) Control CD8 T Cell Homeostasis In Vivo: T Cell Lymphopenia as a Prerequisite for DC-Mediated Homeostatic Proliferation of Naive CD8 T Cells

Gruber

Brocker

2005

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The sizes of peripheral T cell pools are regulated by competition for environmental signals within a given ecological T cell niche. Cytokines and MHC molecules have been identified as resources for which naive T cells compete to proliferate homeostatically in lymphopenic hosts to fill up their respective compartments. However, it still remains unclear to what extent CD4 and CD8 T cells intercompete for these resources and which role dendritic cells (DC) play in this scenario. Using transgenic mice in which only DC express MHC class I, we demonstrate that this type of APC is sufficient to trigger complete homeostatic proliferation of CD8 T cells in vivo. However, normal numbers of endogenous naive CD4 T cells, but not CD25(+)CD4(+) T regulatory cells, efficiently suppress this expansion in vivo. These findings identify DC as a major resource and a possible target for homeostatic competition between naive CD4 and CD8 T cells.

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Improved survival time in dogs with suspected GME treated with ciclosporin

Pákozdy¹,

Leschnik²,

Kneissl³

et al. 2009

Veterinary Record

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Anton Gruber

Structural Model of MD-2 and Functional Role of Its Basic Amino Acid Clusters Involved in Cellular Lipopolysaccharide Recognition

Insufficient APC Capacities of Dendritic Cells in Gene Gun-Mediated DNA Vaccination

MHC Class I-Positive Dendritic Cells (DC) Control CD8 T Cell Homeostasis In Vivo: T Cell Lymphopenia as a Prerequisite for DC-Mediated Homeostatic Proliferation of Naive CD8 T Cells

Improved survival time in dogs with suspected GME treated with ciclosporin

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