Daniel Kronenberg , Melanie Brand , Jens Everding , Louisa Wendler , Eric Kieselhorst , Melanie Timmen , Michael D. Hülskamp , Richard Stange
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引用次数: 0
Abstract
Previous studies have shown that the absence of the collagen-binding integrin α2β1 confers protection against osteoporosis, primarily by enhancing osteoblast-mediated matrix formation, with a particular increase in collagen type I production. This study aimed to elucidate the mechanism underlying this increased matrix production. Our findings demonstrate that osteoblasts lacking integrin α2 secrete a pro-osteogenic factor that activates both TGF-β and BMP signaling pathways. Among these, BMP-2 was identified as the key signaling protein responsible for this effect, as its expression was significantly upregulated during osteoblast differentiation. Moreover, integrin α2 deficiency led to earlier and elevated BMP-2 secretion at the cell surface during osteogenesis, which promoted accelerated osteoblast differentiation. This phenomenon likely contributes to enhanced matrix production in aging animals, providing a protective effect against osteoporosis.
To explore the broader implications of this phenotype, we utilized a fracture healing model. In integrin α2-deficient 12 weeks old female mice, elevated serum levels of BMP-2 were detected during the early stages of fracture repair. This upregulation of BMP signaling within the fracture callus accelerated the healing process, resulting in faster formation and mineralization of the cartilaginous callus. Additionally, the elevated BMP-2 levels facilitated earlier differentiation of chondrocytic cells, evidenced by the premature appearance of collagen type II- and type X-positive cells during endochondral ossification. Despite the accelerated healing, the overall biomechanical integrity of the repaired fractures remained uncompromised.
Thus, the modulation of integrin α2β1 presents a promising therapeutic target for enhancing fracture repair by regulating BMP-2 signaling in a physiologically relevant manner.
先前的研究表明,胶原结合整合素α2β1的缺失可预防骨质疏松症,主要是通过增强成骨细胞介导的基质形成,尤其是I型胶原的生成。本研究旨在阐明这种基质生成增加的机制。我们的研究结果表明,缺乏整合素α2的成骨细胞会分泌一种促成骨细胞生成因子,这种因子会激活TGF-β和BMP信号通路。其中,BMP-2 被确定为产生这种效应的关键信号蛋白,因为它的表达在成骨细胞分化过程中显著上调。此外,整合素α2的缺乏导致成骨过程中细胞表面BMP-2的分泌提前和增加,从而促进了成骨细胞的加速分化。这一现象可能有助于增强衰老动物的基质生成,从而对骨质疏松症起到保护作用。为了探索这种表型的广泛影响,我们利用了骨折愈合模型。在整合素α2缺陷的12周龄雌性小鼠中,骨折修复的早期阶段检测到血清中BMP-2水平升高。骨折茧内 BMP 信号的上调加速了愈合过程,使软骨茧的形成和矿化速度加快。此外,BMP-2 水平的升高促进了软骨细胞的提前分化,软骨内骨化过程中胶原蛋白 II 型和 X 型阳性细胞的过早出现就证明了这一点。尽管愈合速度加快,但修复骨折的整体生物力学完整性仍未受损。因此,调节整合素α2β1是一个很有前景的治疗靶点,它能以生理相关的方式调节BMP-2信号,从而增强骨折修复。
期刊介绍:
BONE is an interdisciplinary forum for the rapid publication of original articles and reviews on basic, translational, and clinical aspects of bone and mineral metabolism. The Journal also encourages submissions related to interactions of bone with other organ systems, including cartilage, endocrine, muscle, fat, neural, vascular, gastrointestinal, hematopoietic, and immune systems. Particular attention is placed on the application of experimental studies to clinical practice.
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