Mitochondria-targeting materials and therapies for regenerative engineering

Biomaterials. 2024 Dec 15:316:123023. doi: 10.1016/j.biomaterials.2024.123023. Online ahead of print.

Abstract

The hemostatic, inflammatory, proliferative, and remodeling phases of healing require precise spatiotemporal coordination and orchestration of numerous biological processes. As the primary energy generators in the cell, mitochondria play multifunctional roles in regulating metabolism, stress reactions, immunity, and cell density during the process of tissue regeneration. Mitochondrial dynamics involves numerous crucial processes, fusion, fission, autophagy, and translocation, which are all necessary for preserving mitochondrial function, distributing energy throughout cells, and facilitating cellular signaling. Tissue regeneration is specifically associated with mitochondrial dynamics due to perturbations of Ca2+, H2O2 and ROS levels, which can result in mitochondrial malfunction. Increasing evidence from multiple models suggests that clinical interventions or medicinal drugs targeting mitochondrial dynamics could be a promising approach. This review highlights significant advances in the understanding of mitochondrial dynamics in tissue regeneration, with specific attention on mitochondria-targeting biomaterials that accelerate multiple tissues' regeneration by regulating mitochondrial metabolism. The innovations in nanomaterials and nanosystems enhance mitochondrial-targeting therapies are critically examined with the prospects of modulating mitochondrial dynamics for new therapies in regenerative engineering.

Keywords: Mitochondria-targeting materials; Mitochondrial dynamics; Mitochondrial transfer; Regenerative engineering.

Publication types

  • Review