Native and compactly folded in-solution conformers of pepsin are revealed and distinguished by mass spectrometric ITEM-TWO analyses of gas-phase pepstatin A - pepsin complex binding strength differences.

IF 1.1 4区 化学 Q4 PHYSICS, ATOMIC, MOLECULAR & CHEMICAL
European Journal of Mass Spectrometry Pub Date : 2023-10-01 Epub Date: 2023-05-31 DOI:10.1177/14690667231178999
Cornelia Koy, Ursula M Glocker, Bright D Danquah, Michael O Glocker
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引用次数: 0

Abstract

Pepsin, because of its optimal activity at low acidic pH, has gained importance in mass spectrometric proteome research as a readily available and easy-to-handle protease. Pepsin has also been study object of protein higher-order structure analyses, but questions about how to best investigate pepsin in-solution conformers still remain. We first determined dependencies of pepsin ion charge structures on solvent pH which indicated the in-solution existence of (a) natively folded pepsin (N) which by nanoESI-MS analysis gave rise to a narrow charge state distribution with an 11-fold protonated most intense ion signal, (b) unfolded pepsin (U) with a rather broad ion charge state distribution whose highest ion signal carried 25 protons, and (c) a compactly folded pepsin conformer (C) with a narrow charge structure and a 12-fold protonated ion signal in the center of its charge state envelope. Because pepsin is a protease, unfolded pepsin became its own substrate in solution at pH 6.6 since at this pH some portion of pepsin maintained a compact/native fold which displayed enzymatic activity. Subsequent mass spectrometric ITEM-TWO analyses of pepstatin A - pepsin complex dissociation reactions in the gas phase confirmed a very strong binding of pepstatin A by natively folded pepsin (N). ITEM-TWO further revealed the existence of two compactly folded in-solution pepsin conformers (Ca and Cb) which also were able to bind pepstatin A. Binding strengths of the respective compactly folded pepsin conformer-containing complexes could be determined and apparent gas phase complex dissociation constants and reaction enthalpies differentiated these from each other and from the pepstatin A - pepsin complex which had been formed from natively folded pepsin. Thus, ITEM-TWO turned out to be well suited to pinpoint in-solution pepsin conformers by interrogating quantitative traits of pepstatin A - pepsin complexes in the gas phase.

通过质谱ITEM-TWO分析气相胃蛋白酶A -胃蛋白酶复合物结合强度差异,揭示和区分了胃蛋白酶的天然和紧密折叠的溶液构象。
由于胃蛋白酶在低酸性pH下具有最佳活性,因此作为一种易于获取和处理的蛋白酶,在质谱分析蛋白质组学研究中具有重要意义。胃蛋白酶也是蛋白质高阶结构分析的研究对象,但如何更好地研究胃蛋白酶在溶液中的构象仍然是一个问题。我们首先确定了胃蛋白酶离子电荷结构与溶剂pH的关系,结果表明:(a)天然折叠的胃蛋白酶(N)在溶液中存在,通过纳米esi - ms分析,它产生了一个狭窄的电荷态分布,具有11倍质子化最强烈的离子信号;(b)未折叠的胃蛋白酶(U)具有相当宽的离子电荷态分布,其最高离子信号携带25个质子。(c)紧凑折叠的胃蛋白酶构象(c),其电荷态包络的中心具有窄电荷结构和12倍质子化离子信号。由于胃蛋白酶是一种蛋白酶,未折叠的胃蛋白酶在pH为6.6的溶液中成为其自身的底物,因为在该pH下,胃蛋白酶的某些部分保持紧密/天然折叠,显示出酶活性。随后的质谱分析ITEM-TWO证实了天然折叠的胃蛋白酶(N)与胃抑素A的很强的结合。ITEM-TWO进一步揭示了溶液中存在两种紧密折叠的胃蛋白酶构象(Ca和Cb),它们也能够与胃抑素A结合。这两种紧密折叠的胃蛋白酶构象复合物的结合强度可以被确定,并且气相复合物的明显解离常数和反应焓将它们区分开来,并与由天然折叠的胃蛋白酶形成的胃蛋白酶A -胃蛋白酶复合物区分开来。因此,ITEM-TWO被证明非常适合通过询问胃抑素A -胃蛋白酶复合物在气相中的数量特征来确定溶液中的胃蛋白酶构象。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
2.40
自引率
7.70%
发文量
16
审稿时长
>12 weeks
期刊介绍: JMS - European Journal of Mass Spectrometry, is a peer-reviewed journal, devoted to the publication of innovative research in mass spectrometry. Articles in the journal come from proteomics, metabolomics, petroleomics and other areas developing under the umbrella of the “omic revolution”.
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