Center for Experimental and Molecular Medicine, Academic Medical Center, Amsterdam, The Netherlands.
Department of Cell Biology, University Medical Center Groningen, University of Groningen, Groningen, The Netherlands.
J Cell Mol Med. 2009 Aug;13(8B):2053-2060. doi: 10.1111/j.1582-4934.2008.00491.x.
Recently, it has become clear that the developmental hedgehog pathway is activated in ischaemic adult tissue where it aids in salvaging damaged tissue. The exact driving force for the initial hedgehog response is unclear and as most physiological and cellular processes are disturbed in ischaemic tissue, hedgehog-activating signals are hard to dissect. Here, we demonstrate that hypoxia per se is able to induce a rapid systemic hedgehog response in adult mice, as evident from expression of the pathway ligand, Sonic hedgehog, as well as the pathway activity marker Patched1 in various organs. Using in vitro models of hypoxia, we showed that the hedgehog response was transient and preceded by the accumulation of HIF-1alpha, which we hypothesized to communicate between hypoxia and hedgehog expression. Indeed, pharmacological inhibition, knockdown or genetic ablation of HIF-1alpha abolished hedgehog pathway activation. In conclusion, we have established that hypoxia is translated into a hedgehog response through HIF-1alpha and this mechanism is likely to be responsible for the hedgehog response observed in various ischaemia models.
最近,人们已经清楚地认识到,发育中的 hedgehog 通路在缺血的成年组织中被激活,从而帮助挽救受损组织。最初 hedgehog 反应的确切驱动力尚不清楚,而且由于缺血组织中大多数生理和细胞过程都受到干扰,因此很难分析 hedgehog 激活信号。在这里,我们证明了缺氧本身能够诱导成年小鼠体内快速的系统性 hedgehog 反应,这可以从 Sonic hedgehog 等通路配体以及各种器官中 Patched1 等通路活性标志物的表达中明显看出。通过缺氧的体外模型,我们表明 hedgehog 反应是短暂的,并以前馈方式积累 HIF-1alpha,我们推测这两者之间存在信号传递。事实上,通过药理学抑制、敲低或 HIF-1alpha 基因敲除,都可以消除 hedgehog 通路的激活。总之,我们已经证实,缺氧通过 HIF-1alpha 转化为 hedgehog 反应,而这种机制可能是各种缺血模型中观察到的 hedgehog 反应的原因。