Wang Ying, Wan Chao, Deng Lianfu, Liu Ximeng, Cao Xuemei, Gilbert Shawn R, Bouxsein Mary L, Faugere Marie-Claude, Guldberg Robert E, Gerstenfeld Louis C, Haase Volker H, Johnson Randall S, Schipani Ernestina, Clemens Thomas L
Department of Pathology, University of Alabama at Birmingham, Birmingham, Alabama 35294-0019, USA.
J Clin Invest. 2007 Jun;117(6):1616-26. doi: 10.1172/JCI31581.
Skeletal development and turnover occur in close spatial and temporal association with angiogenesis. Osteoblasts are ideally situated in bone to sense oxygen tension and respond to hypoxia by activating the hypoxia-inducible factor alpha (HIF alpha) pathway. Here we provide evidence that HIF alpha promotes angiogenesis and osteogenesis by elevating VEGF levels in osteoblasts. Mice overexpressing HIF alpha in osteoblasts through selective deletion of the von Hippel-Lindau gene (Vhl) expressed high levels of Vegf and developed extremely dense, heavily vascularized long bones. By contrast, mice lacking Hif1a in osteoblasts had the reverse skeletal phenotype of that of the Vhl mutants: long bones were significantly thinner and less vascularized than those of controls. Loss of Vhl in osteoblasts increased endothelial sprouting from the embryonic metatarsals in vitro but had little effect on osteoblast function in the absence of blood vessels. Mice lacking both Vhl and Hif1a had a bone phenotype intermediate between those of the single mutants, suggesting overlapping functions of HIFs in bone. These studies suggest that activation of the HIF alpha pathway in developing bone increases bone modeling events through cell-nonautonomous mechanisms to coordinate the timing, direction, and degree of new blood vessel formation in bone.
骨骼发育和更新与血管生成在空间和时间上紧密相关。成骨细胞位于骨骼中,能够感知氧张力,并通过激活缺氧诱导因子α(HIFα)途径对缺氧作出反应。在此,我们提供证据表明,HIFα通过提高成骨细胞中的VEGF水平来促进血管生成和骨生成。通过选择性缺失冯·希佩尔-林道基因(Vhl),在成骨细胞中过表达HIFα的小鼠,Vegf表达水平很高,并且发育出极其致密、血管丰富的长骨。相比之下,成骨细胞中缺乏Hif1a的小鼠,其骨骼表型与Vhl突变体相反:长骨明显比对照组更细,血管化程度更低。成骨细胞中Vhl的缺失增加了体外胚胎跖骨的内皮细胞芽生,但在无血管的情况下对成骨细胞功能影响不大。同时缺乏Vhl和Hif1a的小鼠,其骨骼表型介于单突变体之间,表明HIF在骨骼中具有重叠功能。这些研究表明,发育中的骨骼中HIFα途径的激活通过细胞非自主机制增加骨塑形事件,以协调骨中新生血管形成的时间、方向和程度。