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Magnetogenetics with Piezo1 Mechanosensitive Ion Channel for CRISPR Gene Editing

Wookjin Shin, Sumin Jeong, Jung-uk Lee, Jung-uk Lee, Soo Yeun Jeong, Jeonghong Shin, Seokjoong Kim, Jinwoo Cheon, Jae‐Hyun Lee, Jae‐Hyun Lee

2022Nano Letters23 citationsDOIOpen Access PDF

Abstract

Regulation of genetic activity in single cells and tissues is pivotal to determine key cellular functions in current biomedicine, yet the conventional biochemical activators lack spatiotemporal precision due to the diffusion-mediated slow kinetics and nonselectivity. Here, we describe a magnetogenetic method for target-specific activation of a clustered regularly interspaced short palindromic repeats (CRISPR) system for the regulation of intracellular proteins. We used magnetomechanical force generated by the magnetic nanostructure to activate pre-encoded Piezo1, the mechanosensitive ion channel, on the target cell. The activated Piezo1 further triggers the intracellular Ca2+ signaling pathway, inducing the pre-encoded genes to express genes of interest (GOIs), which is Cas9 protein for the CRISPR regulation of the target proteins. We demonstrated that this magnetogenetic CRISPR system successfully edits the target genome for both in vitro and pseudo-in vivo environments, providing a versatile magnetic platform for remote gene editing of animals with various size scales.

Topics & Concepts

CRISPRMechanosensitive channelsGenome editingPIEZO1Cas9Ion channelCell biologyGeneBiologyIntracellularComputational biologyGeneticsReceptorErythrocyte Function and PathophysiologyMicrofluidic and Bio-sensing TechnologiesIon channel regulation and function
Magnetogenetics with Piezo1 Mechanosensitive Ion Channel for CRISPR Gene Editing | Litcius