碱性成纤维细胞生长因子对等骨移植血管生成和生长的影响:小鼠体内外定量分析。

M Leunig, F Yuan, L E Gerweck, R K Jain
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引用次数: 4

摘要

碱性成纤维细胞生长因子(bFGF)是骨和软骨基质的组成成分,已被证明是成骨细胞和软骨细胞的有效丝裂原,但在细胞培养中是软骨细胞终末分化的抑制剂。为了研究bFGF对骨形成的影响,我们在bFGF存在或不存在的情况下,用一种针对bFGF的中和抗体培养整个新生小鼠股骨。体外,股骨伸长仅由软骨生长提供;土霉素染色的干骺端钙化区未见增加。当培养基中添加bFGF时,近端和远端软骨的纵向生长呈剂量依赖性抑制(p < 0.05),生长板中肥厚软骨细胞数量减少。这种现象在存在中和抗体时不存在,当单独给予时显着促进股骨伸长。相比之下,在体内移植到具有背侧皮肤褶皱腔的成年小鼠后,股骨在血运重建后迅速钙化。这一观察结果支持了骨形成在很大程度上取决于血管生成介导事件的观点。为了验证这一假设,使用已知的血管生成刺激剂bFGF对血管生成和骨形成进行了量化。腹腔注射bFGF可加速移植股骨的钙化。中和抗体轻微抑制血管生成和股骨伸长(无统计学意义),而静脉注射这两种物质没有显示出显著的调节作用。在体内,全身给药bFGF的效果是不均匀的,但血管生成与软骨内钙化之间存在很强的相关性(p < 0.001)。这些结果表明,外源性bFGF通过抑制生长板中软骨细胞的终末分化来调节体外骨形成,血管生成和伴随的体内事件在促进骨快速形成中起关键作用。
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Effect of basic fibroblast growth factor on angiogenesis and growth of isografted bone: quantitative in vitro-in vivo analysis in mice.

Basic fibroblast growth factor (bFGF), a constituent of bone and cartilage matrix, has been shown to be a potent mitogen for osteoblasts and chondrocytes and yet an inhibitor of chondrocyte terminal differentiation in cell culture. To characterize the effect of bFGF on bone formation, whole neonatal murine femora were cultured in the presence or absence of bFGF and a neutralizing antibody against bFGF. In vitro, femoral elongation was provided by cartilage growth only; the calcified diaphyseal zone stained by oxytetracycline did not increase. When bFGF was added to the culture medium, longitudinal growth of the proximal and distal cartilage was inhibited in a dose-dependent manner (p < 0.05), and the number of hypertrophic chondrocytes in the growth plate was reduced. This phenomenon was absent in the presence of a neutralizing antibody, which when given alone significantly promoted femoral elongation. In contrast, in vivo after transplantation into adult mice bearing dorsal skin fold chambers, femora rapidly calcified after revascularization. This observation supports the notion that bone formation largely depends on angiogenesis-mediated events. To verify this hypothesis, angiogenesis and bone formation were quantified using bFGF known to be a stimulator of angiogenesis. Calcification of grafted femora was accelerated by bFGF given intraperitoneally. The neutralizing antibody slightly suppressed angiogenesis and femoral elongation (not statistically significant), whereas intravenous injections of both substances did not reveal a significant modulatory effect. In vivo the effect of systemically administered bFGF was inhomogeneous, but there was a strong correlation between angiogenesis and endochondral calcification (p < 0.001). These results suggest that exogenous bFGF modulates bone formation in vitro by inhibition of terminal differentiation of chondrocytes in the growth plate, and angiogenesis and concomitant in vivo events are pivotal in the promotion of rapid bone formation.

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