Morimoto Eri, Li Meng, Khalid Aysha B, Krum Susan A, Chimge Nyam-Osor, Frenkel Baruch
Departments of Biochemistry and Molecular Biology, Institute for Genetic Medicine, Keck School of Medicine, University of Southern California, Los Angeles, California.
Bioinformatics Service Program, Norris Medical Library, University of Southern California, Los Angeles, California.
J Cell Physiol. 2017 Jan;232(1):145-53. doi: 10.1002/jcp.25399. Epub 2016 Apr 26.
Inhibition of Runx2 is one of many mechanisms that suppress bone formation in glucocorticoid (GC)-induced osteoporosis (GIO). We profiled mRNA expression in ST2/Rx2(dox) cells after treatment with doxycycline (dox; to induce Runx2) and/or the synthetic GC dexamethasone (dex). As expected, dex typically antagonized Runx2-driven transcription. Select genes, however, were synergistic stimulated and this was confirmed by RT-qPCR. Among the genes synergistically stimulated by GCs and Runx2 was Wnt inhibitory Factor 1 (Wif1), and Wif1 protein was readily detectable in medium conditioned by cultures co-treated with dox and dex, but neither alone. Cooperation between Runx2 and GCs in stimulating Wif1 was also observed in primary preosteoblast cultures. GCs strongly inhibited dox-driven alkaline phosphatase (ALP) activity in control ST2/Rx2(dox) cells, but not in cells in which Wif1 was silenced. Unlike its anti-mitogenic activity in committed osteoblasts, induction of Runx2 transiently increased the percentage of cells in S-phase and accelerated proliferation in the ST2 mesenchymal pluripotent cell culture model. Furthermore, like the inhibition of Runx2-driven ALP activity, dex antagonized the transient mitogenic effect of Runx2 in ST2/Rx2(dox) cultures, and this inhibition eased upon Wif1 silencing. Plausibly, homeostatic feedback loops that rely on Runx2 activation to compensate for bone loss in GIO are thwarted, exacerbating disease progression through stimulation of Wif1. J. Cell. Physiol. 232: 145-153, 2017. © 2016 Wiley Periodicals, Inc.
抑制Runx2是糖皮质激素(GC)诱导的骨质疏松症(GIO)中抑制骨形成的众多机制之一。我们在用强力霉素(dox;诱导Runx2)和/或合成GC地塞米松(dex)处理后的ST2/Rx2(dox)细胞中分析了mRNA表达。如预期的那样,dex通常拮抗Runx2驱动的转录。然而,某些基因受到协同刺激,这通过RT-qPCR得到了证实。在受GCs和Runx2协同刺激的基因中,有Wnt抑制因子1(Wif1),并且在同时用dox和dex处理的培养物所条件化的培养基中很容易检测到Wif1蛋白,但单独使用dox或dex时均未检测到。在原代前成骨细胞培养物中也观察到Runx2与GCs在刺激Wif1方面的协同作用。GCs强烈抑制对照ST2/Rx2(dox)细胞中dox驱动的碱性磷酸酶(ALP)活性,但在Wif1沉默的细胞中则不然。与它在成熟成骨细胞中的抗有丝分裂活性不同,Runx2的诱导在ST2间充质多能细胞培养模型中短暂增加了S期细胞的百分比并加速了增殖。此外,与抑制Runx2驱动的ALP活性一样,dex拮抗了Runx2在ST2/Rx2(dox)培养物中的短暂有丝分裂作用,并且这种抑制在Wif1沉默后减轻。合理地推测,依赖Runx2激活来补偿GIO中骨质流失的稳态反馈回路受到阻碍,通过刺激Wif1加剧了疾病进展。《细胞生理学杂志》232: 145 - 153, 2017。© 2016威利期刊公司