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Engineering of extracellular vesicles for efficient intracellular delivery of multimodal therapeutics including genome editors.


ABSTRACT: Intracellular delivery of protein and RNA therapeutics represents a major challenge. Here, we develop highly potent engineered extracellular vesicles (EVs) by incorporating bio-inspired attributes required for effective delivery. These comprise an engineered mini-intein protein with self-cleavage activity for active cargo loading and release, and fusogenic VSV-G protein for endosomal escape. Combining these components allows high efficiency recombination and genome editing in vitro following EV-mediated delivery of Cre recombinase and Cas9/sgRNA RNP cargoes, respectively. In vivo, infusion of a single dose Cre loaded EVs into the lateral ventricle in brain of Cre-LoxP R26-LSL-tdTomato reporter mice results in greater than 40% and 30% recombined cells in hippocampus and cortex respectively. In addition, we demonstrate therapeutic potential of this platform by showing inhibition of LPS-induced systemic inflammation via delivery of a super-repressor of NF-ĸB activity. Our data establish these engineered EVs as a platform for effective delivery of multimodal therapeutic cargoes, including for efficient genome editing.

SUBMITTER: Liang X 

PROVIDER: S-EPMC12041237 | biostudies-literature | 2025 Apr

REPOSITORIES: biostudies-literature

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Engineering of extracellular vesicles for efficient intracellular delivery of multimodal therapeutics including genome editors.

Liang Xiuming X   Gupta Dhanu D   Xie Junhua J   Van Wonterghem Elien E   Van Hoecke Lien L   Hean Justin J   Niu Zheyu Z   Ghaeidamini Marziyeh M   Wiklander Oscar P B OPB   Zheng Wenyi W   Wiklander Rim Jawad RJ   He Rui R   Mamand Doste R DR   Bost Jeremy J   Zhou Guannan G   Zhou Houze H   Roudi Samantha S   Estupiñán H Yesid HY   Rädler Julia J   Zickler Antje M AM   Görgens André A   Hou Vicky W Q VWQ   Slovak Radka R   Hagey Daniel W DW   de Jong Olivier G OG   Uy Aileen Geobee AG   Zong Yuanyuan Y   Mäger Imre I   Perez Carla Martin CM   Roberts Thomas C TC   Carter Dave D   Vader Pieter P   Esbjörner Elin K EK   de Fougerolles Antonin A   Wood Matthew J A MJA   Vandenbroucke Roosmarijn E RE   Nordin Joel Z JZ   El Andaloussi Samir S  

Nature communications 20250429 1


Intracellular delivery of protein and RNA therapeutics represents a major challenge. Here, we develop highly potent engineered extracellular vesicles (EVs) by incorporating bio-inspired attributes required for effective delivery. These comprise an engineered mini-intein protein with self-cleavage activity for active cargo loading and release, and fusogenic VSV-G protein for endosomal escape. Combining these components allows high efficiency recombination and genome editing in vitro following EV-  ...[more]

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