Li Sheng-Jian, Yen Ten-Yang, Endo Yoshimi, Klauzinska Malgorzata, Baljinnyam Bolormaa, Macher Bruce, Callahan Robert, Rubin Jeffrey S
Laboratory of Cellular and Molecular Biology, National Cancer Institute, 37 Convent Drive, Bethesda, MD 20892, USA.
Cell Signal. 2009 Jun;21(6):916-25. doi: 10.1016/j.cellsig.2009.02.001.
R-spondins (Rspos) potentiate Wnt/beta-catenin signaling, an important pathway in embryonic development that is constitutively active in many cancers. To analyze Rspo structure and function, we expressed full-length wild-type Rspo2 and Rspo2 point mutants corresponding to Rspo4 variants that have been linked to developmental defects. The Rspo2 mutants had markedly reduced potency relative to the wild-type protein,demonstrating for the first time specific amino acid residues in Rspos that are critical for beta-catenin signaling. The diminished activity of Rspo2/C78Y and Rspo2/C113R was attributable to a defect in their secretion, while Rspo2/Q70R exhibited a decrease in its intrinsic activity. Cysteine assignments in a Rspo2 derivative containing only the two furin-like domains (Rspo2-2F) provided the first information about the disulfide bonding pattern of this motif, which was characterized by multiple short loops and unpaired cysteine residues, and established that the loss-of-function cysteine mutants disrupted disulfide bond formation. Moreover, Rspo2-2F demonstrated potent activity and synergized strongly with Wnt-3a in a beta-catenin reporter assay. In contrast, an Rspo2-2F derivative containing the Q70R substitution showed significantly reduced activity, although it still synergized with Wnt-3a in the reporter assay. Rspo2-2F derivatives elicited an unusually sustained phosphorylation (20 h) of the Wnt co-receptor, low density lipoprotein receptor-related protein 6 (LRP6), as well as an increase in cell surface LRP6. Co-immunoprecipitation experiments involving LRP6 and Kremens suggested that these associations contribute to Rspo2 activity, although the lack of major differences between wild-type and Q70R derivatives implied that additional interactions may be important.
R- 应答蛋白(Rspos)增强 Wnt/β- 连环蛋白信号传导,这是胚胎发育中的一条重要途径,在许多癌症中持续活跃。为了分析 Rspo 的结构和功能,我们表达了全长野生型 Rspo2 以及与已与发育缺陷相关的 Rspo4 变体相对应的 Rspo2 点突变体。与野生型蛋白相比,Rspo2 突变体的效力明显降低,首次证明了 Rspos 中对 β- 连环蛋白信号传导至关重要的特定氨基酸残基。Rspo2/C78Y 和 Rspo2/C113R 的活性降低归因于其分泌缺陷,而 Rspo2/Q70R 表现出内在活性下降。在仅包含两个弗林蛋白酶样结构域的 Rspo2 衍生物(Rspo2-2F)中的半胱氨酸分配提供了有关该基序二硫键模式的首个信息,其特征是多个短环和未配对的半胱氨酸残基,并确定功能丧失的半胱氨酸突变体破坏了二硫键形成。此外,在 β- 连环蛋白报告基因测定中,Rspo2-2F 表现出强大的活性并与 Wnt-3a 强烈协同作用。相比之下,含有 Q70R 替代的 Rspo2-2F 衍生物显示活性显著降低,尽管它在报告基因测定中仍与 Wnt-3a 协同作用。Rspo2-2F 衍生物引起 Wnt 共受体低密度脂蛋白受体相关蛋白 6(LRP6)异常持续的磷酸化(20 小时)以及细胞表面 LRP6 的增加。涉及 LRP6 和 Kremens 的共免疫沉淀实验表明,这些相互作用有助于 Rspo2 的活性,尽管野生型和 Q70R 衍生物之间缺乏主要差异意味着其他相互作用可能也很重要。