Electromembrane extraction of human chorionic gonadotropin – A case study on mass transfer of intact protein versus signature peptide

IF 5.2 Q1 CHEMISTRY, ANALYTICAL Advances in Sample Preparation Pub Date : 2024-08-01 DOI:10.1016/j.sampre.2024.100126
Torstein Kige Rye , Frederik André Hansen , Trine Grønhaug Halvorsen , Stig Pedersen-Bjergaard
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Abstract

For the first time, we present targeted protein detection by tryptic digestion of human chorionic gonadotropin (hCG) followed by electromembrane extraction (EME). Operational parameters were optimized, and urine and serum samples spiked with hCG underwent tryptic digestion followed by EME of the βT5 signature peptide. The liquid membrane comprised nitrophenyl octyl ether (NPOE), carvacrol, and di(2-ethyl hexyl) phosphate (DEHP) at ratios of 49:49:2 (w/w/w). Extractions were performed in a conductive vial format for 45 min at 5 V. Even from highly complex digested samples of serum and urine, the signature peptide βT5 was extracted by EME and detected by LC-MS/MS. While attempts to extract intact hCG protein were unsuccessful, the extraction of the signature peptide was efficient. The extraction recovery from undigested and digested urine was 71 % (RSD = 17 %) and 116 % (RSD = 17 %), respectively. For serum, the extraction recoveries were 11 % (RSD = 23 %) for undigested samples and 110 % (RSD = 14 %) for digested samples. This study demonstrates both the potential and challenges of EME for protein analysis. Experiments regarding EME of intact proteins provided new insights into protein phase distribution. This fundamental case study underscores the potential of EME as a sample preparation technique for the targeted determination of protein biomarkers and drugs.

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人绒毛膜促性腺激素的电膜提取--完整蛋白质与特征肽的质量转移案例研究
我们首次提出了通过胰蛋白酶消化人绒毛膜促性腺激素(hCG),然后进行电解质萃取(EME)的靶向蛋白质检测方法。对操作参数进行了优化,对添加了 hCG 的尿液和血清样本进行了胰蛋白酶消化,然后对 βT5 标志性肽进行了 EME。液膜由硝基苯辛基醚 (NPOE)、香芹酚和磷酸二(2-乙基己基)酯 (DEHP)组成,三者的比例为 49:49:2(重量比/重量比)。萃取在导电小瓶中进行,在 5 V 电压下持续 45 分钟。即使是从高度复杂的消化血清和尿液样本中,也能通过 EME 提取出特征肽 βT5,并通过 LC-MS/MS 检测出来。虽然提取完整的 hCG 蛋白的尝试并不成功,但提取特征肽的效率很高。未消化尿液和消化尿液的提取回收率分别为 71%(RSD = 17%)和 116%(RSD = 17%)。对于血清,未消化样本的提取回收率为 11%(RSD = 23%),消化样本的提取回收率为 110%(RSD = 14%)。这项研究证明了 EME 在蛋白质分析中的潜力和挑战。完整蛋白质的 EME 实验为了解蛋白质的相分布提供了新的视角。这项基础性案例研究强调了 EME 作为一种样品制备技术在有针对性地测定蛋白质生物标记物和药物方面的潜力。
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