Proof of concept of using a membrane-sensing peptide for sEVs affinity-based isolation

Abstract: Background: One main limitation in biomarker studies using EVs is the lack of a suitable isolation method rendering high yield and purity samples in a quick and easily standardized procedure. Here we report an affinity isolation method with a membrane-sensing peptide (MSP) derived from bradykinin. Results: We designed a protocol based on agarose beads carrying cation chelates to specifically bind to the 6His-tagged membrane-sensing peptide. This approach presents several advantages: i) cation-carrying agaroses… Show more

“…We also demonstrate that surface functionalization strategies can be exploited to further improve the device performance. Thus we show that using a silane-based functionalization strategy, the microchip can achieve a LoD of 10 4 sEV/mL when captured by Membrane Sensing Peptide (MSP) probes [13][14][15]. The development is expected to take the sensing principle one step closer to clinical applications.…”

Design and optimization of silicon-based electrokinetic microchip for sensitive detection of small extracellular vesicles

“…We also demonstrate that surface functionalization strategies can be exploited to further improve the device performance. Thus we show that using a silane-based functionalization strategy, the microchip can achieve a LoD of 10 4 sEV/mL when captured by Membrane Sensing Peptide (MSP) probes [13][14][15]. The development is expected to take the sensing principle one step closer to clinical applications.…”

Design and optimization of silicon-based electrokinetic microchip for sensitive detection of small extracellular vesicles