HIF1α gates tendon response to overload and drives tendinopathy independently of vascular recruitment

肌腱病 肌腱 细胞外基质 机械转化 医学 血管型 结缔组织 缺氧(环境) 细胞生物学 跟腱 病理 病态的 新生血管 肌腱炎 基质金属蛋白酶 旁分泌信号 表型 信号转导 基质(化学分析) 多糖 血管生成 解剖 再生(生物学) 动脉发生 纤维化 伤口愈合 生物 肌腱炎 细胞外 转化生长因子 维斯坎
作者
G. Moschini,Archana G. Mohanan,Izabella Niewczas,Diane E. Taylor,Patrick K. Jaeger,Guillermo Turiel,Amro A. Hussien,Stefania L. Wunderli,Olivia Baumberger,Maja Wolleb,Florence Marti,Barbara Niederoest,Maja Bollhalder,Raphaela Ardicoglu,Nathalie Tisch,Evi Masschelein,Shauni Loopmans,Sarah Morice,Santiago Ardiles,Lieke Mous
出处
期刊:Science Translational Medicine [American Association for the Advancement of Science]
卷期号:18 (831): eadt1228-eadt1228 被引量:3
标识
DOI:10.1126/scitranslmed.adt1228
摘要

Tendons are sparsely vascularized connective tissues that link muscles to bones, withstanding some of the highest mechanical stresses in the body. Mechanical overloading and tissue hypervascularity are implicated in tendinopathy, a common musculoskeletal disorder, yet their mechanistic roles remain unclear. Here, we identify hypoxia-inducible factor 1α (HIF1α) as not only a marker but also a driver of tendinopathy. Histological and multiomics evaluation of human tendinopathic samples revealed extensive extracellular matrix remodeling, including pathological collagen cross-linking coinciding with active hypoxic signaling. Hypothesizing a causal contribution of hypoxia signaling, we generated mice with tenocyte-targeted deletions of the von Hippel–Lindau ( Vhl ) gene, which controls hypoxia signaling by regulating HIFα degradation. Vhl inactivation was sufficient to induce pathological hallmarks of tendinopathy, such as collagen matrix disorganization, cross-linking, altered mechanics, and neurovascular ingrowth. This phenotype was HIF1α dependent given that codeleting HIF1α rescued tendon morphology and mechanics. Moreover, deleting vascular endothelial growth factor A ( Vegfa ) alongside VHL effectively suppressed neovascularization but failed to rescue extracellular matrix abnormalities or restore mechanical function, emphasizing a direct role of HIF1α in driving tendon disease independently of angiogenesis. Mechanistically, we found that HIF1α activation was strain dependent in primary cultured human tendon cells and induced by mechanical overload in murine tendon explants. Furthermore, genetically removing Hif1 α from tenocytes prevented aberrant tendon remodeling in response to chronic overload. These findings position HIF1α signaling as a central driver of tendinopathy that acts through a maladaptive tissue response to chronic overload, providing mechanistic insights that could be leveraged for therapeutic approaches.
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