Carmen Daniela Sosa-Miranda scite author profile

One of the functions of small extracellular vesicles (sEVs) which has received the most attention is their capacity to deliver RNA into the cytoplasm of target cells. These studies have often been performed by transfecting RNAs into sEV‐producing cells, to later purify and study sEV delivery of RNA. Transfection complexes and other delivery vehicles accumulate in late endosomes where sEV are formed and over 50% of transfection complexes or delivery vehicles administered to cells are released again to the extracellular space by exocytosis. This raises the possibility that transfection complexes could alter sEVs and contaminate sEV preparations. We found that widely used transfection reagents including RNAiMax and INTERFERin accumulated in late endosomes. These transfection complexes had a size similar to sEV and were purified by ultracentrifugation like sEV. Focusing on the lipid‐based transfection reagent RNAiMax, we found that preparations of sEV from transfected cells contained lipids from transfection complexes and transfected siRNA was predominantly in particles with the density of transfection complexes, rather than sEV. This suggests that transfection complexes, such as lipid‐based RNAiMax, may frequently contaminate sEV preparations and could account for some reports of sEV‐mediated delivery of nucleic acids. Transfection of cells also impaired the capacity of sEVs to deliver stably‐expressed siRNAs, suggesting that transfection of cells may alter sEVs and prevent the study of their endogenous capacity to deliver RNA to target cells.

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Self-Cutting and Integrating CRISPR Plasmids Enable Targeted Genomic Integration of Genetic Payloads for Rapid Cell Engineering

Bloemberg

Sosa-Miranda

Nguyen

et al. 2021

The CRISPR Journal

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Cell culture metabolomics and lipidomics

Alecu

Sosa-Miranda

Sandhu

et al. 2022

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List of contributors

Alecu¹,

Amoresano²,

Bennett³

et al. 2022

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