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Enzymatic Noncovalent Synthesis for Mitochondrial Genetic Engineering of Cancer Cells

Hongjian He, Xinyi Lin, Difei Wu, Jiaqing Wang, Jiaqi Guo, Douglas R. Green, Hongwei Zhang, Bing Xu

2020Cell Reports Physical Science26 citationsDOIOpen Access PDF

Abstract

Since mitochondria contribute to tumorigenesis and drug resistance in cancer, mitochondrial genetic engineering promises a new direction for cancer therapy. Here, we report the use of the perimitochondrial enzymatic noncovalent synthesis (ENS) of peptides for delivering genes selectively into the mitochondria of cancer cells for mitochondrial genetic engineering. Specifically, the micelles of peptides bind to the voltage-dependent anion channel (VDAC) on mitochondria for the proteolysis by enterokinase (ENTK), generating perimitochondrial nanofibers in cancer cells. This process, facilitating selective delivery of nucleic acid or gene vectors into mitochondria of cancer cells, enables the mitochondrial transgene expression of CRISPR/Cas9, FUNDC1, p53, and fluorescent proteins. Mechanistic investigation indicates that the interaction of the peptide assemblies with the VDAC and mitochondrial membrane potential are necessary for mitochondria targeting. This local enzymatic control of intermolecular noncovalent interactions enables selective mitochondrial genetic engineering, thus providing a strategy for targeting cancer cells.

Topics & Concepts

MitochondrionVoltage-dependent anion channelCancer cellMitophagyBiologyCell biologyBiochemistryChemistryCancerGeneAutophagyGeneticsApoptosisBacterial outer membraneEscherichia coliSupramolecular Self-Assembly in MaterialsAdvanced biosensing and bioanalysis techniquesMitochondrial Function and Pathology