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Real time imaging of single extracellular vesicle pH regulation in a microfluidic cross-flow filtration platform

Vladimir Riazanski, Gerardo Mauleon, Kilean Lucas, Samuel N. Walker, Adriana M. Zimnicka, James L. McGrath, Deborah J. Nelson

2022Communications Biology19 citationsDOIOpen Access PDF

Abstract

Extracellular vesicles (EVs) are cell-derived membranous structures carrying transmembrane proteins and luminal cargo. Their complex cargo requires pH stability in EVs while traversing diverse body fluids. We used a filtration-based platform to capture and stabilize EVs based on their size and studied their pH regulation at the single EV level. Dead-end filtration facilitated EV capture in the pores of an ultrathin (100 nm thick) and nanoporous silicon nitride (NPN) membrane within a custom microfluidic device. Immobilized EVs were rapidly exposed to test solution changes driven across the backside of the membrane using tangential flow without exposing the EVs to fluid shear forces. The epithelial sodium-hydrogen exchanger, NHE1, is a ubiquitous plasma membrane protein tasked with the maintenance of cytoplasmic pH at neutrality. We show that NHE1 identified on the membrane of EVs is functional in the maintenance of pH neutrality within single vesicles. This is the first mechanistic description of EV function on the single vesicle level.

Topics & Concepts

VesicleMicrofluidicsBiophysicsMembraneExtracellular vesicleFiltration (mathematics)ChemistryMaterials scienceCell biologyNanotechnologyMicrovesiclesBiochemistryBiologyMathematicsGenemicroRNAStatisticsExtracellular vesicles in diseaseNanopore and Nanochannel Transport StudiesRNA Interference and Gene Delivery
Real time imaging of single extracellular vesicle pH regulation in a microfluidic cross-flow filtration platform | Litcius