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ROS-responsive MnO2 mesoporous hydrogel to modulate liver-muscle crosstalk and mitigate NAFLD-associated sarcopenia via exosomal miR-582-5p delivery

Songling Jiang, Tae Min Kim, Sung Young Park, Eun‐Jung Jin

2025Theranostics13 citationsDOIOpen Access PDF

Abstract

Background:The interrelation between non-alcoholic fatty liver disease (NAFLD) and sarcopenia has emerged as a significant concern due to its systemic impact on metabolic health.However, therapeutic approaches targeting the liver-muscle axis remain underdeveloped.Oxidative stress and inflammatory pathways are key mediators of this crosstalk, exacerbating disease progression.This study aims to develop a reactive oxygen species (ROS)-responsive MnO2 mesoporous PD (HA) hydrogel to modulate this axis and investigate its therapeutic efficacy in NAFLD-associated sarcopenia.Methods: MnO2 mesoporous PD (HA) hydrogels were synthesized with ROS-sensitive properties and characterized for rheological, fluorescence, and conductivity responses.A HepG2-C2C12 co-culture model mimicked the NAFLD-muscle wasting interplay, while high-fat diet (HFD)-induced NAFLD mouse models were used for in vivo evaluations.Cellular stress markers, exosomal miR-582-5p signaling, and atrogenic pathways were assessed using immunofluorescence, qRT-PCR, and histological analyses.Results: Pathway analysis of HFD-induced NAFLD showed upregulation of lipid metabolism and inflammatory signaling, promoting muscle atrophy via exosomal miR-582-5p.The MnO2 mesoporous hydrogel significantly reduced oxidative stress and inflammation in the HepG2-C2C12 co-culture.In vivo, hydrogel implantation in HFD mice mitigated hepatic fibrosis, reduced ROS accumulation, preserved muscle fiber integrity, and downregulated atrogenic markers.Conclusions: The MnO2 mesoporous PD (HA) hydrogel presents a dual-targeting therapeutic strategy for NAFLD and sarcopenia by attenuating oxidative stress and modulating liver-muscle axis signaling.These findings provide a foundation for innovative interventions targeting metabolic comorbidities.

Topics & Concepts

SarcopeniaCrosstalkMesoporous materialChemistryMedicineCell biologyInternal medicineBiologyBiochemistryCatalysisPhysicsOpticsNutrition and Health in AgingLiver Disease Diagnosis and TreatmentClinical Nutrition and Gastroenterology
ROS-responsive MnO2 mesoporous hydrogel to modulate liver-muscle crosstalk and mitigate NAFLD-associated sarcopenia via exosomal miR-582-5p delivery | Litcius