Link to bioRxiv paper:
http://biorxiv.org/cgi/content/short/2023.07.06.547926v1?rss=1
Authors: Pauwels, J., Van de Steene, T., Van de Velde, J., Eyckerman, S., Gevaert, K.
Abstract:
Extracellular vesicles (EVs), membrane-delimited nanovesicles that are secreted by cells into the extracellular environment, are gaining substantial interest due to their involvement in cellular homeostasis and their contribution to disease pathology. The latter in particular has led to an exponential increase in interest in EVs as they are considered to be circulating packages containing potential biomarkers and are also a possible biological means to deliver drugs in a cell-specific manner. However, several challenges hamper straightforward analysis of EVs as they are generally low abundant and reside in complex biological matrices. These matrices typically contain protein concentrations that vastly exceed those of the EV proteome and contain particles in the same size and density range (e.g. protein aggregates and apolipoprotein particles). Therefore, extensive EV isolation and purification protocols are imperative and many have been developed, including (density) ultracentrifugation, size-exclusion and precipitation methods. Here, we describe an approach based on 300 kDa MWCO filtration, which allows processing of multiple samples in parallel within a reasonable timeframe and at moderate cost. We demonstrate that our strategy is capable of quantitatively retaining EV particles on filters, whilst allowing extensive washing with relatively high percentages of the mild detergent TWEEN-20. In addition, we provide evidence that the retained EVs can be recuperated from the filter for qualitative studies or can be directly lysed on the filter for the recovery of the EV protein cargo for proteome analysis. Applying this strategy on MCF7 conditioned medium using different percentages of serum, we observed dramatic changes in the EV proteome.
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