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Details	EV-TRACK ID	Experiment nr.	Species	Sample type	Separation protocol	First author	Year	EV-METRIC
	EV100016	1/1	Mus musculus	NAY	(d)(U)C	Bulloj A	2010	33%
Study summary Full title Insulin-degrading enzyme sorting in exosomes: a secretory pathway for a key brain amyloid-beta degrading protease All authors Bulloj A, Leal MC, Xu H, Castaño EM, Morelli L Journal J Alzheimers Dis Abstract The accumulation of amyloid-beta (Abeta) peptides in senile plaques is one of the hallmarks of Alzhe (show more...)The accumulation of amyloid-beta (Abeta) peptides in senile plaques is one of the hallmarks of Alzheimer's disease (AD) progression. The endocytic pathway has been proposed as a major subcellular site for Abeta generation while the compartments in which Abeta-degrading proteases interact with Abeta are still elusive. It was suggested that extracellular Abeta degradation may take place by plasma-membrane associated proteases or by extracellular proteases, among which insulin-degrading enzyme (IDE) is the most relevant. However, the mechanisms of IDE secretion are poorly understood. In the present study we used N2a cells to explore if IDE is indeed released through exosomes and the effect of exosomes release on extracellular levels of Abeta. We demonstrated that proteolytically-active plasma membrane associated-IDE is routed in living N2a cells to multivesicular bodies and subsequently, a major fraction is sorted to exosomes. We described that extracellular IDE levels decrease if the generation of multivesicular bodies is interfered and may be positively modulated by exosomes release under stress-induced conditions. Our results reinforce the relevance of functional IDE in the catabolism of extracellular Abeta. (hide) EV-METRIC 33% (75th 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 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 Protein markers EV: HSP70/ IDE/ Flotilin1 non-EV: Cell organelle protein Proteomics no Show all info Study aim Function Sample Species Mus musculus Sample Type Cell culture supernatant Separation Method (Differential) (ultra)centrifugation dUC: centrifugation steps Below or equal to 800 g Between 10,000 g and 50,000 g Between 100,000 g and 150,000 g Pelleting performed Yes Pelleting: time(min) 120 Characterization: Protein analysis Western Blot Antibody details provided? No Detected EV-associated proteins Flotilin1/ HSP70/ IDE Detected contaminants Cell organelle protein ELISA Antibody details provided? No Detected EV-associated proteins IDE Characterization: Particle analysis EM EM-type transmission EM/ immune EM EM protein IDE; Tf-receptor Image type Close-up, Wide-field

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EV-TRACK ID	EV100016
species	Mus musculus
sample type	Cell culture
cell type	NAY
condition	NAY
separation protocol	(d)(U)C
Exp. nr.	1
EV-METRIC %	33