Microvesicles from human activated dendritic cells are released as a function of danger signals and fuse with resting dendritic cells allowing them to present allo-antigens
Details
Serval ID
serval:BIB_1BEDBAFCC173
Type
Inproceedings: an article in a conference proceedings.
Publication sub-type
Abstract (Abstract): shot summary in a article that contain essentials elements presented during a scientific conference, lecture or from a poster.
Collection
Publications
Institution
Title
Microvesicles from human activated dendritic cells are released as a function of danger signals and fuse with resting dendritic cells allowing them to present allo-antigens
Title of the conference
16th Annual Congress of the European Respiratory Society (ERS)
Address
Munich, Germany, September 2-6, 2006
ISBN
0903-1936
Publication state
Published
Issued date
2006
Peer-reviewed
Oui
Volume
28
Series
European Respiratory Journal
Pages
340S
Language
english
Notes
Dendritic cells (DCs) realize a surveillance network in tissues. Due to their location are influenced by the environment and transmit danger signals to cells from the adaptive immune system. It has been shown that they could release microvesicles, however quantitative measurements as well as functional studies are unclear. Thus we have investigated the microvesicles released from LPS stimulated DCs, and did look at their capacity to transfer of allo-antigens by fusing with plasma membrane of resting DCs in cocultures.
DCs labeled with a fluorescent lipophilic tracer and trapped in collagen matrix were visualized with laser scanning microscopy. Using a surpass algorithm we were able to identify and quantify per cell, secreted microvesicles after LPS stimulation. These microvesicles seem to originate from DCs plasma membrane, 90% of them having a diameter between 0.2µm to 0.4µm and are released as a function of the danger signal such as LPS. We then examined the interaction of plasmic membrane-vesicles labeled with a second lipophilic tracer, with DCs at distance not yet activated by danger signals. By a double vital staining we have been able to find that isolated microvesicles from activated DCs can fuse with the membrane of resting DCs raising its capacity to present allo-antigens to lymphocytes. We concluded that DCs are able to respond to danger signals by the release of microvesicles. They can fuse with resting DCs in a distance amplifying potentially the immunological response by DCs network after only few hours following stimulation
DCs labeled with a fluorescent lipophilic tracer and trapped in collagen matrix were visualized with laser scanning microscopy. Using a surpass algorithm we were able to identify and quantify per cell, secreted microvesicles after LPS stimulation. These microvesicles seem to originate from DCs plasma membrane, 90% of them having a diameter between 0.2µm to 0.4µm and are released as a function of the danger signal such as LPS. We then examined the interaction of plasmic membrane-vesicles labeled with a second lipophilic tracer, with DCs at distance not yet activated by danger signals. By a double vital staining we have been able to find that isolated microvesicles from activated DCs can fuse with the membrane of resting DCs raising its capacity to present allo-antigens to lymphocytes. We concluded that DCs are able to respond to danger signals by the release of microvesicles. They can fuse with resting DCs in a distance amplifying potentially the immunological response by DCs network after only few hours following stimulation
Create date
31/03/2010 11:57
Last modification date
20/08/2019 12:52