McLellan Jason S, Yao Shenqin, Zheng Xiaoyan, Geisbrecht Brian V, Ghirlando Rodolfo, Beachy Philip A, Leahy Daniel J
Department of Biophysics and Biophysical Chemistry, Johns Hopkins University School of Medicine, Baltimore, MD 21205, USA.
Proc Natl Acad Sci U S A. 2006 Nov 14;103(46):17208-13. doi: 10.1073/pnas.0606738103. Epub 2006 Oct 31.
Hedgehog (Hh) signaling molecules mediate key tissue-patterning events during animal development, and inappropriate activation of Hh signaling in adults has been associated with human cancers. Recently, a conserved family of type I integral membrane proteins required for normal response to the Hh signal was discovered. One member of this family, Ihog (interference hedgehog), functions upstream or at the level of Patched (Ptc), but how Ihog participates in Hh signaling remains unclear. Here, we show that heparin binding induces Ihog dimerization and is required to mediate high-affinity interactions between Ihog and Hh. We also present crystal structures of a Hh-binding fragment of Ihog, both alone and complexed with Hh. Heparin is not well ordered in these structures, but a basic cleft in the first FNIII domain of Ihog (IhogFn1) is shown by mutagenesis to mediate heparin binding. These results establish that Hh directly binds Ihog and provide the first demonstration of a specific role for heparin in Hh responsiveness.
刺猬信号(Hh)分子在动物发育过程中介导关键的组织模式形成事件,而在成体中Hh信号的不适当激活与人类癌症相关。最近,发现了一个对Hh信号正常应答所必需的保守的I型整合膜蛋白家族。该家族的一个成员,Ihog(干扰刺猬信号),在patched(Ptc)的上游或其水平发挥作用,但Ihog如何参与Hh信号传导仍不清楚。在这里,我们表明肝素结合诱导Ihog二聚化,并且是介导Ihog与Hh之间高亲和力相互作用所必需的。我们还展示了Ihog的Hh结合片段单独以及与Hh复合时的晶体结构。肝素在这些结构中无序,但通过诱变表明Ihog的第一个纤连蛋白III结构域(IhogFn1)中的一个碱性裂隙介导肝素结合。这些结果证实Hh直接结合Ihog,并首次证明了肝素在Hh应答中的特定作用。