Comprehensive Glycomic Profiling of Respiratory Tract Tissues of Tree Shrews by TiO 2 -PGC Chip Mass Spectrometry

Due to its relatively small size, homology to humans, and susceptibility to human viruses, the tree shrew becomes an ideal alternative animal model for the study of human viral infectious diseases. However, there is still no report for the comprehensive glycan profile of the respiratory tract tissue...

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Bibliographic Details
Published in:Journal of proteome research 2020-04, Vol.19 (4), p.1470-1480
Main Authors: Yau, Lee-Fong, Chan, Ka-Man, Yang, Chun-Guang, Ip, Sun-Wai, Kang, Yue, Mai, Zhi-Tong, Tong, Tian-Tian, Jiang, Zhi-Hong, Yang, Zi-Feng, Wang, Jing-Rong
Format: Article
Language:English
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Summary:Due to its relatively small size, homology to humans, and susceptibility to human viruses, the tree shrew becomes an ideal alternative animal model for the study of human viral infectious diseases. However, there is still no report for the comprehensive glycan profile of the respiratory tract tissues in tree shrews. In this study, we characterized the structural diversity of N-glycans in the respiratory tract of tree shrews using our well-established TiO -PGC chip-Q-TOF-MS method. As a result, a total of 219 N-glycans were identified. Moreover, each identified N-glycan was quantitated by a high sensitivity and accurate MRM method, in which C-labeled internal standards were used to correct the inherent run-to-run variation in MS detection. Our results showed that the N-glycan composition in the turbinate and lung was significantly different from the soft palate, trachea, and bronchus. Meanwhile, 28 high-level N-glycans in turbinate were speculated to be correlated with the infection of H1N1 virus A/California/04/2009. This study is the first to reveal the comprehensive glycomic profile of the respiratory tract of tree shrews. Our results also help to better understand the role of glycan receptors in human influenza infection and pathogenesis.
ISSN:1535-3893
1535-3907
DOI:10.1021/acs.jproteome.9b00727