Litcius/Paper detail

Microenvironment-responsive multifunctional enzyme-linked hydrogel for diabetic bone defect regeneration

Xiaoxue Fu, Zhenyu Luo, Yuqi Guo, Weikun Meng, Shue Jin, Junyu Chen, Yongrui Cai, Zeyu Luo, Chao Huang, Anjing Chen, Siqin Guo, Maojia Chen, Zongke Zhou, Weinan Zeng

2025Nature Communications14 citationsDOIOpen Access PDF

Abstract

Diabetes mellitus (DM) bone defects face impaired healing due to hyperglycemia, chronic inflammation, and dysregulated bone remodeling, yet existing therapies lack comprehensive strategies targeting these interconnected issues. Herein, a glucose/ROS-responsive multifunctional hydrogel (AAT-ZCG) is designed, integrating tannic acid (TA)-mediated dynamic borate ester bonds and a cascade nanozyme comprising cerium-zoledronic acid-glucose oxidase (ZCG). The hydrogel enables stimuli-responsive release of TA and ZCG within DM microenvironments, depleting glucose via glucose oxidase-mediated catalysis and mitigating inflammation through cerium-mediated ROS scavenging. Moreover, ZCG modulates macrophage polarization, stimulates angiogenesis and enhances osteogenesis. Acidic byproducts trigger ZCG degradation, releasing zoledronic acid to inhibit excessive osteoclast activation. Transcriptomic analysis reveals upregulated forkhead box O1 transcription factor, a key regulator of bone metabolism and inflammation. This platform concurrently addresses pivotal mediators in DM bone defects, overcoming limitations of single-target approaches. By consolidating multifunctional responses, AAT-ZCG provides a concise yet effective strategy for DM bone defect regeneration. Diabetes impairs bone healing through high blood sugar, inflammation, and disrupted bone remodelling. Here, Fu et al. develops a multifunctional hydrogel (AAT-ZCG) that responds to diabetic conditions to lower glucose, scavenge ROS, reduce inflammation, and promote bone repair.

Topics & Concepts

OsteoclastChemistryInflammationDownregulation and upregulationBone remodelingZoledronic acidCell biologyBone healingOsteoblastRegulatorScaffoldAngiogenesisBiochemistryMacrophageDiabetes mellitusCarbohydrate metabolismDiphosphonatesBone resorptionGlucose oxidasePharmacologyTranscription factorRegeneration (biology)Bone Density Conservation AgentsOxidative stressCancer researchmicroRNAGlucose uptakeSignal transductionReactive oxygen speciesOsteocyteBone tissueAdvanced Nanomaterials in CatalysisSupramolecular Self-Assembly in MaterialsNanoplatforms for cancer theranostics