Aligning Post-Column ESI-MS, MALDI-MS, and Coagulation Bioassay Data of Naja spp., Ophiophagus hannah, and Pseudonaja textillis Venoms Chromatographically to Assess MALDI-MS and ESI-MS Complementarity with Correlation of Bioactive Toxins to Mass Spectrometric Data

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-08-29 DOI:10.3390/toxins16090379
Haifeng Xu, Susan El-Asal, Hafsa Zakri, Rama Mutlaq, Natascha T. B. Krikke, Nicholas R. Casewell, Julien Slagboom, Jeroen Kool
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Abstract

Snakebite is a serious health issue in tropical and subtropical areas of the world and results in various pathologies, such as hemotoxicity, neurotoxicity, and local swelling, blistering, and tissue necrosis around the bite site. These pathologies may ultimately lead to permanent morbidity and may even be fatal. Understanding the chemical and biological properties of individual snake venom toxins is of great importance when developing a newer generation of safer and more effective snakebite treatments. Two main approaches to ionizing toxins prior to mass spectrometry (MS) analysis are electrospray ionization (ESI) and matrix-assisted laser desorption ionization (MALDI). In the present study, we investigated the use of both ESI-MS and MALDI-MS as complementary techniques for toxin characterization in venom research. We applied nanofractionation analytics to separate crude elapid venoms using reversed-phase liquid chromatography (RPLC) and high-resolution fractionation of the eluting toxins into 384-well plates, followed by online LC-ESI-MS measurements. To acquire clear comparisons between the two ionization approaches, offline MALDI-MS measurements were performed on the nanofractionated toxins. For comparison to the LC-ESI-MS data, we created so-called MALDI-MS chromatograms of each toxin. We also applied plasma coagulation assaying on 384-well plates with nanofractionated toxins to demonstrate parallel biochemical profiling within the workflow. The plotting of post-column acquired MALDI-MS data as so-called plotted MALDI-MS chromatograms to directly align the MALDI-MS data with ESI-MS extracted ion chromatograms allows the efficient correlation of intact mass toxin results from the two MS-based soft ionization approaches with coagulation bioassay chromatograms. This facilitates the efficient correlation of chromatographic bioassay peaks with the MS data. The correlated toxin masses from ESI-MS and/or MALDI-MS were all around 6–8 or 13–14 kDa, with one mass around 20 kDa. Between 24 and 67% of the toxins were observed with good intensity from both ionization methods, depending on the venom analyzed. All Naja venoms analyzed presented anticoagulation activity, whereas pro-coagulation was only observed for the Pseudonaja textillis venom. The data of MALDI-MS can provide complementary identification and characterization power for toxin research on elapid venoms next to ESI-MS.
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对 Naja spp.、Ophiophagus hannah 和 Pseudonaja textillis 毒液的柱后 ESI-MS、MALDI-MS 和凝血生物测定数据进行色谱比对,以评估 MALDI-MS 和 ESI-MS 与生物活性毒素与质谱数据相关性的互补性
蛇咬伤是世界热带和亚热带地区的一个严重健康问题,会导致各种病症,如血液中毒、神经中毒以及咬伤部位周围的局部肿胀、水疱和组织坏死。这些病变最终可能导致永久性发病,甚至致命。在开发新一代更安全、更有效的蛇咬伤治疗方法时,了解各种蛇毒毒素的化学和生物特性非常重要。在质谱分析之前电离毒素的两种主要方法是电喷雾电离(ESI)和基质辅助激光解吸电离(MALDI)。在本研究中,我们调查了在毒液研究中使用 ESI-MS 和 MALDI-MS 作为毒素表征的互补技术的情况。我们采用纳米分馏分析法,使用反相液相色谱法(RPLC)分离粗伶仃毒液,并在 384 孔板中对洗脱出的毒素进行高分辨率分馏,然后进行在线 LC-ESI-MS 测量。为了明确比较两种电离方法,对纳米分馏毒素进行了离线 MALDI-MS 测量。为了与 LC-ESI-MS 数据进行比较,我们为每种毒素绘制了所谓的 MALDI-MS 图谱。我们还在 384 孔板上使用纳米分馏毒素进行血浆凝固测定,以展示工作流程中的并行生化分析。将柱后获得的 MALDI-MS 数据绘制成所谓的 MALDI-MS 色谱图,将 MALDI-MS 数据与 ESI-MS 提取的离子色谱图直接对齐,可将两种基于 MS 的软电离方法得出的完整质量毒素结果与凝血生物测定色谱图进行有效关联。这有助于将色谱生物测定峰与质谱数据有效地关联起来。从 ESI-MS 和/或 MALDI-MS 中得到的相关毒素质量都在 6-8 或 13-14 kDa 左右,其中一种质量在 20 kDa 左右。根据所分析毒液的不同,两种离子化方法都能观察到 24% 至 67% 的毒素具有良好的强度。分析的所有 Naja 毒液都具有抗凝活性,而只有 Pseudonaja textillis 毒液具有促凝活性。与 ESI-MS 相比,MALDI-MS 的数据可为麋鹿毒液毒素研究提供补充鉴定和表征能力。
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4.30%
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567
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