Department of Biochemistry and Molecular Biology, The University of Chicago, Chicago, IL 60637, United States.
Department of Biochemistry and Molecular Biology, The University of Chicago, Chicago, IL 60637, United States; Perlmutter Cancer Center, New York University Langone Health, New York, NY 10016, United States.
J Mol Biol. 2023 Apr 15;435(8):168010. doi: 10.1016/j.jmb.2023.168010. Epub 2023 Feb 16.
SHP2 is a phosphatase/adaptor protein that plays an important role in various signaling pathways. Its mutations are associated with cancers and developmental diseases. SHP2 contains a protein tyrosine phosphatase (PTP) and two SH2 domains. Selective inhibition of these domains has been challenging due to the multitude of homologous proteins in the proteome. Here, we developed a monobody, synthetic binding protein, that bound to and inhibited the SHP2 PTP domain. It was selective to SHP2 PTP over close homologs. A crystal structure of the monobody-PTP complex revealed that the monobody bound both highly conserved residues in the active site and less conserved residues in the periphery, rationalizing its high selectivity. Its epitope overlapped with the interface between the PTP and N-terminal SH2 domains that is formed in auto-inhibited SHP2. By using the monobody as a probe for the accessibility of the PTP active site, we developed a simple, nonenzymatic assay for the allosteric regulation of SHP2. The assay showed that, in the absence of an activating phospho-Tyr ligand, wild-type SHP2 and the "PTP-dead" C459E mutant were predominantly in the closed state in which the PTP active site is inaccessible, whereas the E76K and C459S mutants were in the open, active state. It also revealed that previously developed monobodies to the SH2 domains, ligands lacking a phospho-Tyr, weakly favored the open state. These results provide corroboration for a conformational equilibrium underlying allosteric regulation of SHP2, provide powerful tools for characterizing and controlling SHP2 functions, and inform drug discovery against SHP2.
SHP2 是一种磷酸酶/衔接蛋白,在各种信号通路中发挥重要作用。其突变与癌症和发育性疾病有关。SHP2 包含一个蛋白酪氨酸磷酸酶(PTP)和两个 SH2 结构域。由于蛋白质组中同源蛋白众多,因此选择性抑制这些结构域具有挑战性。在这里,我们开发了一种单域结合蛋白(monobody),它可以与 SHP2 PTP 结构域结合并抑制其活性。它对 SHP2 PTP 的选择性高于其密切同源物。单域结合蛋白-PTP 复合物的晶体结构表明,单域结合蛋白与活性位点中的高度保守残基和周围不太保守的残基结合,这解释了其高选择性。其表位与 PTP 和 N 端 SH2 结构域之间的界面重叠,该界面在自身抑制的 SHP2 中形成。通过将单域结合蛋白用作 PTP 活性位点可及性的探针,我们开发了一种简单的、非酶促的 SHP2 变构调节测定法。该测定法表明,在没有激活的磷酸化 Tyr 配体的情况下,野生型 SHP2 和“PTP 失活”的 C459E 突变体主要处于封闭状态,此时 PTP 活性位点不可用,而 E76K 和 C459S 突变体处于开放、活性状态。它还表明,以前开发的针对 SH2 结构域的单域结合蛋白和缺乏磷酸化 Tyr 的配体,微弱地有利于开放状态。这些结果为 SHP2 变构调节的构象平衡提供了佐证,为表征和控制 SHP2 功能提供了有力工具,并为针对 SHP2 的药物发现提供了信息。
