Patel Nayan G, Kumar Sudhesh, Eggo Margaret C
Division of Medical Sciences, University of Birmingham, Birmingham B15 2TT, UK.
J Clin Endocrinol Metab. 2005 Feb;90(2):1226-32. doi: 10.1210/jc.2004-1309. Epub 2004 Nov 2.
We have examined the expression and role of autocrine fibroblast growth factors (FGFs) in human preadipocytes through their differentiation in vitro. A high-molecular weight form of FGF-2 was initially strongly expressed, but 6-9 d after induction of differentiation, its expression decreased markedly. This coincided with the first appearance of visible lipid droplets within the cells. FGF-2 (18 kDa) was not found. FGF receptor (FGFR) 1 was detected as a single band of 125 kDa that also decreased with differentiation. Its decrease preceded that of FGF-2. Despite the decrease in cell-associated FGF-2 with differentiation, secreted FGF-2 was 2.5-fold higher in the differentiated preadipocytes. To determine whether FGF-2 had an autocrine role, FGFR signaling was inhibited using recombinant adenovirus expressing dominant negative FGFR1 (RAdDN-FGFR1) and a specific inhibitor of FGFR1 signaling, PD166866. Preadipocytes transduced with RAdDN-FGFR1 expressed a truncated, 79-kDa FGFR1. Differentiation, assessed by lipid droplet formation, was completely prevented by RAdDN-FGFR1 and by PD166866. The protein content in the cell layer and glucose uptake were significantly reduced by both agents. The insulin-sensitizing drug, rosiglitazone, did not prevent the actions of RAdDN-FGFR1 or PD166866. Controlling adipose tissue growth by limiting FGF actions may provide a means to combat obesity.
我们通过人前脂肪细胞的体外分化研究了自分泌成纤维细胞生长因子(FGFs)的表达及作用。FGF-2的高分子量形式最初表达强烈,但在诱导分化6 - 9天后,其表达显著下降。这与细胞内可见脂滴的首次出现相吻合。未检测到FGF-2(18 kDa)。FGF受体(FGFR)1被检测为一条125 kDa的单带,其也随分化而减少,且其减少先于FGF-2。尽管随着分化细胞相关FGF-2减少,但分化的前脂肪细胞中分泌的FGF-2高出2.5倍。为确定FGF-2是否具有自分泌作用,使用表达显性负性FGFR1的重组腺病毒(RAdDN-FGFR1)和FGFR1信号的特异性抑制剂PD166866抑制FGFR信号。用RAdDN-FGFR1转导的前脂肪细胞表达一种截短的79 kDa FGFR1。通过脂滴形成评估的分化被RAdDN-FGFR1和PD166866完全抑制。两种试剂均显著降低了细胞层中的蛋白质含量和葡萄糖摄取。胰岛素增敏药物罗格列酮不能阻止RAdDN-FGFR1或PD166866的作用。通过限制FGF作用来控制脂肪组织生长可能提供一种对抗肥胖的方法。
