Convection and extracellular matrix binding control interstitial transport of extracellular vesicles

Peter A. Sariano; Rachel R. Mizenko; Venktesh S. Shirure; Abigail K. Brandt; Bryan B. Nguyen; Cem Nesiri; Bhupinder S. Shergill; Terza Brostoff; David M. Rocke; Alexander D. Borowsky; Randy P. Carney; Steven C. George

doi:10.1002/jev2.12323

Journal of Extracellular Vesicles (Apr 2023)

Convection and extracellular matrix binding control interstitial transport of extracellular vesicles

Peter A. Sariano,
Rachel R. Mizenko,
Venktesh S. Shirure,
Abigail K. Brandt,
Bryan B. Nguyen,
Cem Nesiri,
Bhupinder S. Shergill,
Terza Brostoff,
David M. Rocke,
Alexander D. Borowsky,
Randy P. Carney,
Steven C. George

Affiliations

Peter A. Sariano: Department of Biomedical Engineering University of California Davis California USA
Rachel R. Mizenko: Department of Biomedical Engineering University of California Davis California USA
Venktesh S. Shirure: Department of Biomedical Engineering University of California Davis California USA
Abigail K. Brandt: Department of Biomedical Engineering University of California Davis California USA
Bryan B. Nguyen: Department of Biomedical Engineering University of California Davis California USA
Cem Nesiri: Department of Biomedical Engineering University of California Davis California USA
Bhupinder S. Shergill: Department of Biomedical Engineering University of California Davis California USA
Terza Brostoff: Department of Biomedical Engineering University of California Davis California USA
David M. Rocke: Department of Biomedical Engineering University of California Davis California USA
Alexander D. Borowsky: Department of Pathology and Laboratory Medicine University of California Davis, Sacramento California USA
Randy P. Carney: Department of Biomedical Engineering University of California Davis California USA
Steven C. George: Department of Biomedical Engineering University of California Davis California USA

DOI: https://doi.org/10.1002/jev2.12323
Journal volume & issue: Vol. 12, no. 4
pp. n/a – n/a

Abstract

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Abstract Extracellular vesicles (EVs) influence a host of normal and pathophysiological processes in vivo. Compared to soluble mediators, EVs can traffic a wide range of proteins on their surface including extracellular matrix (ECM) binding proteins, and their large size (∼30‐150 nm) limits diffusion. We isolated EVs from the MCF10 series—a model human cell line of breast cancer progression—and demonstrated increasing presence of laminin‐binding integrins α3β1 and α6β1 on the EVs as the malignant potential of the MCF10 cells increased. Transport of the EVs within a microfluidic device under controlled physiological interstitial flow (0.15‐0.75 μm/s) demonstrated that convection was the dominant mechanism of transport. Binding of the EVs to the ECM enhanced the spatial concentration and gradient, which was mitigated by blocking integrins α3β1 and α6β1. Our studies demonstrate that convection and ECM binding are the dominant mechanisms controlling EV interstitial transport and should be leveraged in nanotherapeutic design.

Published in Journal of Extracellular Vesicles

ISSN: 2001-3078 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Biology (General): Cytology
Website: https://isevjournals.onlinelibrary.wiley.com/journal/20013078

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Abstract

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