Potential of transfected muscle cells to contribute to DNA vaccine immunogenicity
H Shirota, L Petrenko, C Hong… - The Journal of …, 2007 - journals.aai.org
H Shirota, L Petrenko, C Hong, DM Klinman
The Journal of Immunology, 2007•journals.aai.orgThe mechanism (s) by which DNA vaccines trigger the activation of Ag-specific T cells is
incompletely understood. A series of in vivo and in vitro experiments indicates plasmid
transfection stimulates muscle cells to up-regulate expression of MHC class I and
costimulatory molecules and to produce multiple cytokines and chemokines. Transfected
muscle cells gain the ability to directly present Ag to CD8 T cells through an IFN-regulatory
factor 3-dependent process. These findings suggest that transfected muscle cells at the site …
incompletely understood. A series of in vivo and in vitro experiments indicates plasmid
transfection stimulates muscle cells to up-regulate expression of MHC class I and
costimulatory molecules and to produce multiple cytokines and chemokines. Transfected
muscle cells gain the ability to directly present Ag to CD8 T cells through an IFN-regulatory
factor 3-dependent process. These findings suggest that transfected muscle cells at the site …
Abstract
The mechanism (s) by which DNA vaccines trigger the activation of Ag-specific T cells is incompletely understood. A series of in vivo and in vitro experiments indicates plasmid transfection stimulates muscle cells to up-regulate expression of MHC class I and costimulatory molecules and to produce multiple cytokines and chemokines. Transfected muscle cells gain the ability to directly present Ag to CD8 T cells through an IFN-regulatory factor 3-dependent process. These findings suggest that transfected muscle cells at the site of DNA vaccination may contribute to the magnitude and/or duration of the immune response initiated by professional APCs.
journals.aai.org
