CGRP-releasing PLGA/nHA/GO composite microspheres enhance distraction osteogenesis via activation of the cAMP/PKA/CREB pathway

微球 PLGA公司 复合数 牵张成骨 化学 奶油 分散注意力 材料科学 化学工程 复合材料 生物化学 神经科学 体外 生物 工程类 基因 转录因子
作者
Yimurang Hamiti,Kai Liu,Xin Yang,Sulong Wang,Xiriaili Kadier,Aihemaitijiang Yusufu
出处
期刊:Materials today bio [Elsevier BV]
卷期号:34: 102181-102181 被引量:3
标识
DOI:10.1016/j.mtbio.2025.102181
摘要

Large bone defects present significant clinical challenges, with distraction osteogenesis (DO) requiring prolonged treatment periods and yielding suboptimal outcomes. Calcitonin gene-related peptide (CGRP) demonstrates potent bone-forming activity but suffers from rapid degradation and a short half-life, limiting its therapeutic applications. This study engineered sustained-release CGRP microspheres using poly(D,L-lactide-co-glycolide)/nano-hydroxyapatite/graphene oxide (PLGA/nHA/GO) composite matrices via W/O/W double emulsion-solvent evaporation method to address these limitations. The fabricated microspheres exhibited uniform spherical morphology (51.15 ± 0.40 μm), high encapsulation efficiency (86.14 ± 2.5 %), and sustained CGRP release over 42 days. In vitro studies compared four groups: control (untreated), blank microspheres, free CGRP solution, and CGRP-loaded microspheres. CGRP microspheres significantly enhanced rat bone marrow mesenchymal stem cell proliferation, migration capacity, and osteogenic differentiation compared to all other treatment groups. Mechanistic investigations confirmed activation of the cAMP/PKA/CREB signaling pathway with upregulation of osteogenic transcription factors (Runx2, Osterix) and bone matrix proteins (osteopontin, osteocalcin). In a rat femoral distraction osteogenesis model, CGRP microspheres demonstrated superior bone regeneration compared to control, blank microspheres, and free CGRP groups: substantially increased bone mineral density, significantly improved biomechanical properties, and accelerated bone formation. Histological analysis confirmed enhanced bone maturation and integration This engineered sustained-release system represents a promising therapeutic platform for enhancing bone regeneration through targeted molecular pathway activation, offering significant potential for clinical translation in orthopedic applications. • Novel PLGA/nHA/GO microspheres engineered for sustained CGRP release (42 days). • W1/O/W double emulsion method achieved 86 % encapsulation with controlled kinetics. • CAMP/PKA/CREB pathway activation mechanism elucidated for bone regeneration. • Enhanced osteogenesis and significantly improved biomechanical properties. • Superior therapeutic efficacy demonstrated in distraction osteogenesis model.
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