Advancing the Design of Artificial Nano-organelles for Targeted Cellular Detoxification of Reactive Oxygen Species

Overview

Journal Nano Lett

Publisher American Chemical Society

Specialty Biotechnology

Date 2024 Feb 26

PMID 38408754

Authors

Viviana Maffeis

Michal Skowicki

Konstantin M P Wolf

Mohamed Chami

Cora-Ann Schoenenberger

Viola Vogel

Cornelia G Palivan

Affiliations

Soon will be listed here.

Abstract

Artificial organelles (AnOs) are in the spotlight as systems to supplement biochemical pathways in cells. While polymersome-based artificial organelles containing enzymes to reduce reactive oxygen species (ROS) are known, applications requiring control of their enzymatic activity and cell-targeting to promote intracellular ROS detoxification are underexplored. Here, we introduce advanced AnOs where the chemical composition of the membrane supports the insertion of pore-forming melittin, enabling molecular exchange between the AnO cavity and the environment, while the encapsulated lactoperoxidase (LPO) maintains its catalytic function. We show that HO outside AnOs penetrates through the melittin pores and is rapidly degraded by the encapsulated enzyme. As surface attachment of cell-penetrating peptides facilitates AnOs uptake by cells, electron spin resonance revealed a remarkable enhancement in intracellular ROS detoxification by these cell-targeted AnOs compared to nontargeted AnOs, thereby opening new avenues for a significant reduction of oxidative stress in cells.

Citing Articles

Glycooligomer-Functionalized Catalytic Nanocompartments Co-Loaded with Enzymes Support Parallel Reactions and Promote Cell Internalization.

Korpidou M, Becker J, Tarvirdipour S, Dinu I, Becer C, Palivan C Biomacromolecules. 2024; 25(7):4492-4509.

PMID: 38910355 PMC: 11238334. DOI: 10.1021/acs.biomac.4c00526.

Tweaking the NRF2 signaling cascade in human myelogenous leukemia cells by artificial nano-organelles.

Wolf K, Maffeis V, Schoenenberger C, Zund T, Bar-Peled L, Palivan C Proc Natl Acad Sci U S A. 2024; 121(22):e2219470121.

PMID: 38776365 PMC: 11145192. DOI: 10.1073/pnas.2219470121.

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