Intact glycopeptide-based N-glycoproteomic analysis reveals disease signatures of altered glycoforms and site-specific glycan modifications in hepatocellular carcinoma tissues

聚糖 糖基化 肝细胞癌 化学 生物化学 糖组学 生物标志物 癌症研究 糖组 N-连接糖基化 生物 糖蛋白 生物标志物发现 信号转导 癌症 细胞生物学 受体 蛋白质组学 分子生物学 亚细胞定位 癌细胞 肝癌 发病机制
作者
Yannan Wu,Zhonghan Hu,Jiaqian Yang,Rong Liu,Haiyang Li,Xiao Long,Meng Zhang,Hao Si,Keqi Tang,Ting Xiao,Hongxia Wang
出处
期刊:International Journal of Biological Macromolecules [Elsevier BV]
卷期号:332 (Pt 1): 148442-148442 被引量:1
标识
DOI:10.1016/j.ijbiomac.2025.148442
摘要

Abnormal glycosylation has been regarded as a hallmark of cancer. Although glycoproteomic analysis on hepatocellular carcinoma (HCC) have been performed using patient serum, tissues and cell lines, systematic studies of the global changes in the N-glycosylated proteins, especially their site-specific glycan alterations in HCC tissues remain limited. In this study, we carried out an intact glycopeptide-based quantitative N-glycoproteomic study using tumor and non-tumor liver tissues of HCC patients via a liquid chromatography mass spectrometry approach. In total, we identified 5375 intact N-glycopeptides, corresponding to 5118 N-glycoforms with 258 distinct N-glycan compositions at 985 N-glycosites in 575 N-glycoproteins. Our data provided previously unknown disease signatures of altered glycoforms and site-specific glycan modifications in HCC tumor tissue, including increased sialylation, paucimannosylation, tri-antennary, tetra-antennary and highly branched or elongated glycans and reduced mono-antennary or hybrid glycans. Importantly, the overall glycosylation was revealed to be significantly reduced in HCC tumor tissues and we uncovered previously unknown glycan features of key subunits of oligosaccharyltransferase (OST), such as STT3A, STT3B and RPN1 in HCC. Furthermore, our data showed the prominent dysregulated glycan modification-affected processes and pathways, including ECM receptor interaction, focal adhesion, PI3K-Akt signaling pathway, and lysosome, which have been known to play important roles in cancer pathophysiology. Overall, our study provided a proteome-wide landscape of N-glycoproteome alterations in HCC, including the overall glycan features, site-specific glycan signatures and various pathways affected by glycosylation. Importantly, the identified disease-associated key glycoforms and pathways provide attractive targets for HCC biomarker and therapeutic target discovery.
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