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48. Jun Li, Li Jia, Zhifang Hao, Yintai Xu, Jiechen Shen, Chen Ma, Jingyu Wu, Ting Zhao, Yuan Zhi, Pengfei Li, Jing Li, Bojing Zhu, Shisheng Sun*. Site-specific N-glycoproteme Analysis Reveals Up-regulated Sialylation and Core Fucosylation during Transient Regeneration Loss in Neonatal Mouse Hearts. Journal of Proteome Research. 2020. 19 (8): 3191–3200.
点击次数:
影响因子:4.466
DOI码:10.1021/acs
关键字:glycoproteomics; intact glycopeptide; neonatal mouse heart; regeneration; site-specific glycosylation.
摘要:Myocardial infarction (MI) is one of the leading causes of deaths worldwide. Because of the incapability of regeneration, the cardiomyocyte loss with MI is replaced by fibrotic scar tissue, which eventually leads to heart failure. Reconstructing regeneration of an adult human heart has been recognized as a promising strategy for cardiac therapeutics. A neonatal mouse heart, which possesses transient regenerative capacity at the first week after birth, represents an ideal model to investigate processes associated with cardiac regeneration. In this work, an integrated glycoproteomic and proteomic analysis was performed to investigate the differences in glycoprotein abundances and site-specific glycosylation between postneonatal day 1 (P1) and day 7 (P7) of mouse hearts. By large-scale profiling and quantifying more than 2900 intact N-glycopeptides in neonatal mouse hearts, we identified 227 altered N-glycopeptides between P1 and P7 hearts. By extracting protein changes from the global proteome data, the normalized glycosylation changes for site-specific glycans were obtained, which showed heterogeneity on glycosites and glycoproteins. Systematic analysis of the glycosylation changes demonstrated an overall upregulation of sialylation and core fucosylation in P7 mice. Notably, the upregulated sialylation was a comprehensive result of increased sialylated glycans with Neu5Gc, with both Neu5Gc and core fucose, and decreased sialylated glycans with Neu5Ac. The upregulated core fucosylation resulted from the increase of glycans containing both core fucose and Neu5Gc but not glycans containing sole core fucose. These data provide a valuable resource for future functional and mechanism studies on heart regeneration and discovery of novel therapeutic targets. All mass spectrometry proteomic data have been deposited to the ProteomeXchange Consortium via the PRIDE partner repository with the data set identifier PXD017139.
论文类型:期刊论文
学科门类:理学
一级学科:生物学
是否译文:否
收录刊物:SCI
上一条:49. Jianbo Pan#, Yingwei Hu#, Shisheng Sun#, Lijun Chen, Michael Schnaubelt, David Clark, Minghui Ao, Zhen Zhang, Daniel Chan, Jiang Qian, Hui Zhang*. Glycoproteomics-based signatures for tumor subtyping and clinical outcome prediction of high-grade serous ovarian cancer. Nature communications. 2020, 11 (1): 6139.
下一条:47. Ting Zhao, Li Jia, Jun Li, Chen Ma, Jingyu Wu, Jiechen Shen, Liuyi Dang, Bojing Zhu, Pengfei Li, Yuan Zhi, Rongxia Lan, Yintai Xu, Zhifang Hao, Yichao Chai, Qingshan Li, Liangshuo Hu, Shisheng Sun*. Heterogeneities of site-specific N-glycosylation in HCC tumors with low and high AFP concentrations. Frontiers in Oncology. 2020, 10: 496.