Nanoinjection of extracellular vesicles to single live cells by robotic fluidic force microscopy

Kinga Dóra Kovács; Tamás Visnovitz; Tamás Gerecsei; Beatrix Peter; Sándor Kurunczi; Anna Koncz; Krisztina Németh; Dorina Lenzinger; Krisztina V. Vukman; Anna Balogh; Imola Rajmon; Péter Lőrincz; Inna Székács; Edit I. Buzás; Robert Horvath

doi:10.1002/jev2.12388

Journal of Extracellular Vesicles (Dec 2023)

Nanoinjection of extracellular vesicles to single live cells by robotic fluidic force microscopy

Kinga Dóra Kovács,
Tamás Visnovitz,
Tamás Gerecsei,
Beatrix Peter,
Sándor Kurunczi,
Anna Koncz,
Krisztina Németh,
Dorina Lenzinger,
Krisztina V. Vukman,
Anna Balogh,
Imola Rajmon,
Péter Lőrincz,
Inna Székács,
Edit I. Buzás,
Robert Horvath

Affiliations

Kinga Dóra Kovács: Nanobiosensorics Laboratory Institute of Technical Physics and Materials Science, HUN‐REN Centre for Energy Research Budapest Hungary
Tamás Visnovitz: Department of Genetics, Cell‐ and Immunobiology Semmelweis University Budapest Hungary
Tamás Gerecsei: Nanobiosensorics Laboratory Institute of Technical Physics and Materials Science, HUN‐REN Centre for Energy Research Budapest Hungary
Beatrix Peter: Nanobiosensorics Laboratory Institute of Technical Physics and Materials Science, HUN‐REN Centre for Energy Research Budapest Hungary
Sándor Kurunczi: Nanobiosensorics Laboratory Institute of Technical Physics and Materials Science, HUN‐REN Centre for Energy Research Budapest Hungary
Anna Koncz: Department of Genetics, Cell‐ and Immunobiology Semmelweis University Budapest Hungary
Krisztina Németh: Department of Genetics, Cell‐ and Immunobiology Semmelweis University Budapest Hungary
Dorina Lenzinger: Department of Genetics, Cell‐ and Immunobiology Semmelweis University Budapest Hungary
Krisztina V. Vukman: Department of Genetics, Cell‐ and Immunobiology Semmelweis University Budapest Hungary
Anna Balogh: Nanobiosensorics Laboratory Institute of Technical Physics and Materials Science, HUN‐REN Centre for Energy Research Budapest Hungary
Imola Rajmon: Nanobiosensorics Laboratory Institute of Technical Physics and Materials Science, HUN‐REN Centre for Energy Research Budapest Hungary
Péter Lőrincz: Department of Anatomy, Cell and Developmental Biology Eötvös Loránd University Budapest Hungary
Inna Székács: Nanobiosensorics Laboratory Institute of Technical Physics and Materials Science, HUN‐REN Centre for Energy Research Budapest Hungary
Edit I. Buzás: Department of Genetics, Cell‐ and Immunobiology Semmelweis University Budapest Hungary
Robert Horvath: Nanobiosensorics Laboratory Institute of Technical Physics and Materials Science, HUN‐REN Centre for Energy Research Budapest Hungary

DOI: https://doi.org/10.1002/jev2.12388
Journal volume & issue: Vol. 12, no. 12
pp. n/a – n/a

Abstract

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Abstract In the past decade, extracellular vesicles (EVs) have attracted substantial interest in biomedicine. With progress in the field, we have an increasing understanding of cellular responses to EVs. In this Technical Report, we describe the direct nanoinjection of EVs into the cytoplasm of single cells of different cell lines. By using robotic fluidic force microscopy (robotic FluidFM), nanoinjection of GFP positive EVs and EV‐like particles into single live HeLa, H9c2, MDA‐MB‐231 and LCLC‐103H cells proved to be feasible. This injection platform offered the advantage of high cell selectivity and efficiency. The nanoinjected EVs were initially localized in concentrated spot‐like regions within the cytoplasm. Later, they were transported towards the periphery of the cells. Based on our proof‐of‐principle data, robotic FluidFM is suitable for targeting single living cells by EVs and may lead to information about intracellular EV cargo delivery at a single‐cell level.

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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