软骨内骨化
血管生成
分泌物
医学
细胞生物学
癌症研究
骨重建
内生
骨形态发生蛋白
平衡
血管
新生血管
骨化
炎症
硫酸化
化学
进行性骨化性纤维发育不良
骨形态发生蛋白2
药理学
异位骨化
免疫学
内分泌学
信号转导
生长因子
病理
形态发生剂
内科学
内皮
肺血管系统
解剖
骨形态发生蛋白7
作者
Xicheng Zhang,Yu Liu,Shunshu Deng,Zehua Gao,Yì Wáng,Changli Liu
标识
DOI:10.1073/pnas.2520755123
摘要
Excessive administration of glucocorticoids leads to arterial involvement and induces osteonecrosis. Conventional biomaterial-based strategies aimed at direct vascularization have shown limited therapeutic efficacy, primarily due to pronounced heterogeneity of neovasculature and vascular mispatterning. Here, we report a semisynthetic sulfated chitosan (SCS) that, when combined with bone morphogenetic protein-2 (BMP-2), rapidly reconstructs arterialized vasculature (type H vessels and arterioles) within the deteriorated bone, thereby coupling active osteoprogenitor cells. SCS positively regulates BMP-2-induced hypertrophic chondrocytes, which in turn secrete endogenous vascular endothelial growth factor to mediate arterial neovascularization. Instead of directly enhancing the Smad1/5/8 signaling pathway, SCS mitigates the intrinsic chronic inflammatory process of bone deterioration, preventing inflammatory factors from disrupting cartilage-to-bone transformation. In an osteonecrosis model, the synergistic effect of SCS and BMP-2 sustainably improved the femoral head's internal circulation system, rather than merely delaying disease progression. Therefore, this bioactive polysaccharide combined with an osteogenic factor enables arterialized vascularization during endochondral ossification, representing a promising therapeutic strategy for the treatment of ischemia-associated bone homeostasis disruption.
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