Zane LaCasse , Prajkta Chivte , Kari Kress , Venkata Devesh R. Seethi , Joshua Bland , Hamed Alhoori , Shrihari S. Kadkol , Elizabeth R. Gaillard
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引用次数: 0
摘要
导言人类唾液中含有大量可用于疾病诊断和进展监测的蛋白质。唾液易于采集,已被广泛用于诊断多种系统性和传染性疾病。然而,唾液中含量最高的蛋白质--淀粉酶的存在会影响基质辅助激光解吸/电离飞行时间质谱(MALDI-ToF MS)对低丰度蛋白质的检测,从而降低其诊断效用。结果淀粉酶的消耗导致各种峰值的信号强度增加,并在 MALDI-ToF MS 图谱中检测到以前未观察到的峰值。结论这种简单、快速、廉价的唾液淀粉酶消耗技术可以利用 MALDI-ToF MS 揭示唾液中光谱的多样性,揭示低丰度蛋白质,并有助于建立新型疾病生物标记物。
Enhancing saliva diagnostics: The impact of amylase depletion on MALDI-ToF MS profiles as applied to COVID-19
Introduction
Human saliva contains a wealth of proteins that can be monitored for disease diagnosis and progression. Saliva, which is easy to collect, has been extensively studied for the diagnosis of numerous systemic and infectious diseases. However, the presence of amylase, the most abundant protein in saliva, can obscure the detection of low-abundance proteins by matrix-assisted laser desorption/ionization-time of flight mass spectrometry (MALDI-ToF MS), thus reducing its diagnostic utility.
Objectives
In this study, we used a device to deplete salivary amylase from water-gargle samples by affinity adsorption. Following depletion, saliva proteome profiling was performed using MALDI-ToF MS on gargle samples from individuals confirmed to have COVID-19 based on nasopharyngeal (NP) swab reverse transcription quantitative polymerase chain reaction (RT-qPCR).
Results
The depletion of amylase led to increased signal intensities of various peaks and the detection of previously unobserved peaks in the MALDI-ToF MS spectra. The overall specificity and sensitivity after amylase depletion were 100% and 85.17%, respectively, for detecting COVID-19.
Conclusion
This simple, rapid, and inexpensive technique for depleting salivary amylase can reveal spectral diversity in saliva using MALDI-ToF MS, expose low-abundance proteins, and assist in establishing novel biomarkers for diseases.
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