Abstract
BackgroundAntigen processing by dendritic cells (DC) exposed to specific stimuli has been well characterized in biological studies. Nonetheless, the question of whether autologous whole tumor lysates (as used in clinical trials) are similarly processed by these cells has not yet been resolved.MethodsIn this study, we examined the transfer of peptides from whole tumor lysates to major histocompatibility complex class II molecules (MHC II) in mature dendritic cells (mDC) from a patient with advanced melanoma. Tumor antigenic peptides-MHC II proximity was revealed by Förster Resonance Energy Transfer (FRET) measurements, which effectively extends the application of fluorescence microscopy to the molecular level (<100Å). Tumor lysates were labelled with Alexa-488, as the donor, and mDC MHC II HLA-DR molecules were labelled with Alexa-546-conjugated IgG, as the acceptor.ResultsWe detected significant energy transfer between donor and acceptor-labelled antibodies against HLA-DR at the membrane surface of mDC. FRET data indicated that fluorescent peptide-loaded MHC II molecules start to accumulate on mDC membranes at 16 hr from the maturation stimulus, steeply increasing at 22 hr with sustained higher FRET detected up to 46 hr.ConclusionsThe results obtained imply that the patient mDC correctly processed the tumor specific antigens and their display on the mDC surface may be effective for several days. These observations support the rationale for immunogenic efficacy of autologous tumor lysates.
Highlights
Antigen processing by dendritic cells (DC) exposed to specific stimuli has been well characterized in biological studies
Here we have investigated the molecular traits of the MHC II complexes of Dendritic cells (DC) from a melanoma patient pulsed with autologous whole tumor lysate (ATL)
It has been shown that effective presentation of peptide-MHC II complexes requires DC maturation and that this final differentiation is a major control in priming T cells in vivo
Summary
Antigen processing by dendritic cells (DC) exposed to specific stimuli has been well characterized in biological studies. The question of whether autologous whole tumor lysates (as used in clinical trials) are processed by these cells has not yet been resolved. Dendritic cells (DC) are the most potent leukocyte populations which control the primary immune response [1]. Antigens are very efficiently internalized and processed by immature DC (iDC), but to achieve a productive T-cell response iDC must differentiate to mature DC (mDC), which express high levels of the cell-surface antigen-bearing major histocompatibility complex, class II (MHC II). In vivo DC migration was investigated within the context of a clinical trial of anti-tumor vaccination [7]. Here we have investigated the molecular traits of the MHC II complexes of DC from a melanoma patient pulsed with autologous whole tumor lysate (ATL)
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