Halfinger Bernhard, Hammerer-Lercher Angelika, Amplatz Benno, Sarg Bettina, Kremser Leopold, Lindner Herbert H
Division of Clinical Biochemistry and Protein Micro-Analysis Facility, Biocenter, Innsbruck Medical University, Innsbruck, Austria.
Institute of Laboratory Medicine, Kantonsspital Aarau AG, Aarau, Switzerland.
Clin Chem. 2017 Jan;63(1):359-368. doi: 10.1373/clinchem.2016.265397. Epub 2016 Nov 8.
Currently, N-terminal pro-B-type natriuretic peptide (NT-proBNP) and its physiologically active counterpart, BNP, are most frequently used as biomarkers for diagnosis, prognosis, and disease monitoring of heart failure (HF). Commercial NT-proBNP and BNP immunoassays cross-react to varying degrees with unprocessed proBNP, which is also found in the circulation. ProBNP processing and immunoassay response are related to O-linked glycosylation of NT-proBNP and proBNP. There is a clear and urgent need to identify the glycosylation sites in the endogenously circulating peptides requested by the community to gain further insights into the different naturally occurring forms.
The glycosylation sites of (NT-) proBNP (NT-proBNP and/or proBNP) were characterized in leftovers of heparinized plasma samples of severe HF patients (NT-proBNP: >10000 ng/L) by using tandem immunoaffinity purification, sequential exoglycosidase treatment for glycan trimming, β-elimination and Michael addition chemistry, as well as high-resolution nano-flow liquid chromatography electrospray multistage mass spectrometry.
We describe 9 distinct glycosylation sites on circulating (NT-) proBNP in HF patients. Differentially glycosylated variants were detected based on highly accurate mass determination and multistage mass spectrometry. Remarkably, for each of the identified proteolytic glycopeptides, a nonglycosylated form also was detectable.
Our results directly demonstrate for the first time a rather complex distribution of the endogenously circulating glycoforms by mass spectrometric analysis in HF patients, and show 9 glycosites in human (NT-) proBNP. This information may also have an impact on commercial immunoassays applying antibodies specific for the central region of (NT-) proBNP, which detect mostly nonglycosylated forms.
目前,N末端前B型利钠肽(NT-proBNP)及其生理活性对应物B型利钠肽(BNP)最常用于心力衰竭(HF)的诊断、预后评估和疾病监测。商业化的NT-proBNP和BNP免疫测定法与未加工的proBNP存在不同程度的交叉反应,而proBNP也存在于循环中。ProBNP的加工过程和免疫测定反应与NT-proBNP和proBNP的O-连接糖基化有关。明确且迫切需要确定社区所要求的内源性循环肽中的糖基化位点,以便进一步深入了解不同的天然存在形式。
通过串联免疫亲和纯化、用于聚糖修剪的外切糖苷酶顺序处理、β-消除和迈克尔加成化学方法,以及高分辨率纳流液相色谱电喷雾多级质谱法,对重度HF患者(NT-proBNP:>10000 ng/L)肝素化血浆样本的剩余物中(NT-)proBNP(NT-proBNP和/或proBNP)的糖基化位点进行了表征。
我们描述了HF患者循环中(NT-)proBNP上9个不同的糖基化位点。基于高精度质量测定和多级质谱法检测到了差异糖基化变体。值得注意的是,对于每个鉴定出的蛋白水解糖肽,也可检测到非糖基化形式。
我们的结果首次通过质谱分析直接证明了HF患者内源性循环糖型的相当复杂的分布,并显示了人(NT-)proBNP中的9个糖基化位点。这些信息也可能对应用针对(NT-)proBNP中心区域的特异性抗体的商业免疫测定产生影响,这些抗体大多检测非糖基化形式。
