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Nanoenzyme-Reinforced Multifunctional Scaffold Based on Ti<sub>3</sub>C<sub>2</sub>Tx MXene Nanosheets for Promoting Structure–Functional Skeletal Muscle Regeneration via Electroactivity and Microenvironment Management

Hua Zheng, Fang Cheng, Dong Guo, Xijing He, Li Zhou, Qiuyu Zhang

2023Nano Letters44 citationsDOI

Abstract

The completed volumetric muscle loss (VML) regeneration remains a challenge due to the limited myogenic differentiation as well as the oxidative, inflammatory, and hypoxic microenvironment. Herein, a 2D Ti 3 C 2 Tx MXene@MnO 2 nanocomposite with conductivity and microenvironment remodeling was fabricated and applied in developing a multifunctional hydrogel (FME) scaffold to simultaneously conquer these hurdles. Among them, Ti 3 C 2 Tx MXene with electroconductive ability remarkably promotes myogenic differentiation via enhancing the myotube formation and upregulating the relative expression of the myosin heavy chain (MHC) protein and myogenic genes (MyoD and MyoG) in myogenesis. The MnO 2 nanoenzyme-reinforced Ti 3 C 2 Tx MXene significantly reshapes the hostile microenvironment by eliminating reactive oxygen species (ROS), regulating macrophage polarization from M1 to M2 and continuously supplying O 2 . Together, the FME hydrogel as a bioactive multifunctional scaffold significantly accelerates structure–functional VML regeneration in vivo and represents a multipronged strategy for the VML regeneration via electroactivity and microenvironment management.

Topics & Concepts

MyoDMyogenesisChemistryScaffoldMyosinRegeneration (biology)Cell biologyReactive oxygen speciesBiophysicsBiochemistryIn vitroBiomedical engineeringBiologyMedicineAdvanced Sensor and Energy Harvesting MaterialsMuscle Physiology and DisordersGraphene and Nanomaterials Applications
Nanoenzyme-Reinforced Multifunctional Scaffold Based on Ti<sub>3</sub>C<sub>2</sub>Tx MXene Nanosheets for Promoting Structure–Functional Skeletal Muscle Regeneration via Electroactivity and Microenvironment Management | Litcius