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Details	EV-TRACK ID	Experiment nr.	Species	Sample type	Separation protocol	First author	Year	EV-METRIC
	EV120027	1/1	Homo sapiens	NAY	(d)(U)C DC Filtration	Bastos-Amador P	2012	22%
Study summary Full title Capture of cell-derived microvesicles (exosomes and apoptotic bodies) by human plasmacytoid dendritic cells All authors Bastos-Amador P, Pérez-Cabezas B, Izquierdo-Useros N, Puertas MC, Martinez-Picado J, Pujol-Borrell R, Naranjo-Gómez M, Borràs FE Journal J Leukoc Biol Abstract cDCs and pDCs differ in multiple aspects. Among those, antigen capture is a recognized feature of cD (show more...)cDCs and pDCs differ in multiple aspects. Among those, antigen capture is a recognized feature of cDCs, whereas pDCs display poor capacity to capture cell-derived antigens. However, animal models of organ transplantation suggested a role for pDCs in tolerance induction via phagocytosis of donor antigens. In a transplantation setting, microvesicles, such as apoptotic bodies and exosomes secreted by the graft, may be potential sources of alloantigen. Here, we tested the capacity of human pDCs to capture exosomes and apoptotic bodies from Jurkat T cells. Exosomes and apoptotic bodies were indeed captured by pDCs, although required longer times of incubation when compared with the highly endocytic cDCs. In cDCs and pDCs, exosome capture was more efficient than apoptotic bodies. Endocytosis inhibitors clearly impaired exosome capture by cDCs, although this could not be verified in pDCs as a result of cellular toxicity. Functionally, capture of Jurkat-derived exosomes did not induce nor prevent pDC maturation, and exosome-loaded pDCs induced T cell proliferation, suggesting a link between capture and presentation. Thus, exosomes and apoptotic bodies may be sources of antigen for human pDCs. (hide) EV-METRIC 22% (59th percentile of all experiments on the same sample type) Reported Not reported Not applicable EV-enriched proteins Protein analysis: analysis of three or more EV-enriched proteins non EV-enriched protein Protein analysis: assessment of a non-EV-enriched protein qualitative and quantitative analysis Particle analysis: implementation of both qualitative and quantitative methods. For the quantitative method, the reporting of measured EV concentration is expected. electron microscopy images Particle analysis: inclusion of a widefield and close-up electron microscopy image density gradient Separation method: density gradient, at least as validation of results attributed to EVs EV density Separation method: reporting of obtained EV density ultracentrifugation specifics Separation method: reporting of g-forces, duration and rotor type of ultracentrifugation steps antibody specifics Protein analysis: antibody clone/reference number and dilution lysate preparation Protein analysis: lysis buffer composition Study data Sample type Cell culture supernatant Sample origin NAY Focus vesicles exosomes / microvesicles / "Apoptotic bodies Separation protocol Separation protocol Gives a short, non-chronological overview of the different steps of the separation protocol. dUC = (Differential) (ultra)centrifugation DG = density gradient UF = ultrafiltration SEC = size-exclusion chromatography IAF = immuno-affinity capture (d)(U)C DC Filtration Protein markers EV: CD81/ Flotilin1/ CD63 non-EV: Cell organelle protein Proteomics no Show all info Study aim Function Sample Species Homo sapiens Sample Type Cell culture supernatant EV-harvesting Medium EV Depleted Separation Method (Differential) (ultra)centrifugation dUC: centrifugation steps Below or equal to 800 g Between 100,000 g and 150,000 g Pelleting performed Yes Pelleting: time(min) 75 Filtration steps 0.22µm or 0.2µm Characterization: Protein analysis Western Blot Antibody details provided? No Detected EV-associated proteins CD63/ CD81/ Flotilin1 Detected contaminants Cell organelle protein

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EV-TRACK ID	EV120027
species	Homo sapiens
sample type	Cell culture
cell type	NAY
condition	NAY
separation protocol	(d)(U)C DC Filtration
Exp. nr.	1
EV-METRIC %	22