Distinguishing direct binding interactions from allosteric effects in the protease–HK97 prohead I δ domain complex by amide H/D exchange mass spectrometry

S. Krishnamurthy, D. Veesler, R. Khayat, J. Snijder, R. Huang, Ajr Heck, Jeremi Johnson, GS Anand
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引用次数: 6

Abstract

A major question in mapping protein-ligand or protein-protein interactions in solution is to distinguish direct-binding interactions from long-range conformational changes at allosteric sites. We describe here the applicability of amide hydrogen deuterium exchange mass spectrometry (HDXMS) in addressing this important question using the bacteriophage HK97 capsid proteins’ interactions with their processing protease. HK97 is a lambda-like dsDNA bacteriophage that is ideal for studies of particle assembly and maturation. Its capsid precursor protein is composed of two main regions, the scaffolding protein (δ-domain, residues 2-103), and the coat subunit (residues 104-385), which spontaneously forms a mixture of hexamers and pentamers upon association. Activation of the viral protease, which occurs after particle assembly, is initiated by the protease mediated digestion of the scaffolding domains to yield Prohead-2. This irreversible step is obligatory for activation of the virus maturation pathway. Here we provide an “addendum” to our previous study of Prohead I and Prohead I+pro (a transient complex of Prohead I and the protease) where we investigated the interactions between the δ domain and the packaged protease using HDXMS. Our results revealed two sites on the δ domain: one set of contiguous peptides that showed decreased exchange at the protease binding site at early time points of deuterium labeling and another separate set of continuous peptides that showed decreased exchange at later time points. Even though this cannot reveal the time scales of molecular processes governing binding and allostery, we believe this differential pattern of exchange across deuteration times can allow spatial distinction between binding sites and long range conformational changes with allosteric implications. This partitioning can be discerned from the lag between noncontiguous regions on a protein showing maximal changes in deuterium exchange and highlights a powerful application of HDXMS in distinguishing direct binding in transient protein-protein interactions from allosteric changes.
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用酰胺H/D交换质谱法区分蛋白酶- hk97前体I δ结构域复合物的直接结合作用和变构作用
在溶液中绘制蛋白质-配体或蛋白质-蛋白质相互作用的一个主要问题是区分直接结合相互作用和变构位点的远程构象变化。我们在这里描述了酰胺氢氘交换质谱(HDXMS)在利用噬菌体HK97衣壳蛋白与其加工蛋白酶相互作用来解决这一重要问题方面的适用性。HK97是一种λ样的dsDNA噬菌体,是研究粒子组装和成熟的理想材料。它的衣壳前体蛋白由两个主要区域组成,即支架蛋白(δ-结构域,残基2-103)和外壳亚基(残基104-385),它们在结合时自发形成六聚体和五聚体的混合物。病毒蛋白酶的激活发生在颗粒组装之后,由蛋白酶介导的支架结构域的消化启动,产生Prohead-2。这个不可逆的步骤是激活病毒成熟途径的必要步骤。在这里,我们提供了一个“附录”,以我们之前的研究Prohead I和Prohead I+pro (Prohead I和蛋白酶的瞬时复合体),我们研究了δ结构域和包装蛋白酶之间的相互作用,使用HDXMS。我们的结果揭示了δ结构域上的两个位点:一组连续肽在氘标记的早期时间点显示蛋白酶结合位点的交换减少,另一组独立的连续肽在后期时间点显示交换减少。尽管这不能揭示控制结合和变构的分子过程的时间尺度,但我们相信这种跨氘化时间的差异交换模式可以允许结合位点之间的空间区分和具有变构含义的长期构象变化。这种分配可以从蛋白质上显示最大氘交换变化的不连续区域之间的滞后中辨别出来,并突出了HDXMS在区分瞬时蛋白质相互作用和变弹性变化中的直接结合方面的强大应用。
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