Your search keyword '"Yonghong Mao"' showing total 2 results

1. In-depth characterization and comparison of the N-glycosylated proteome of two-dimensional- and three-dimensional-cultured breast cancer cells and xenografted tumors.

Author

Yonghong Mao, Yang Zhao, Yong Zhang, and Hao Yang

Subjects

Medicine, Science

Abstract

Native intact N-glycopeptide analysis can provide access to the comprehensive characteristics of N-glycan occupancy, including N-glycosites, N-glycan compositions, and N-glycoproteins for complex samples. The sample pre-processing method used for the analysis of intact N-glycopeptides usually depends on the enrichment of low abundance N-glycopeptides from a tryptic peptide mixture using hydrophilic substances before LC-MS/MS detection. However, the number of identified intact N-glycopeptides remains inadequate to achieve an in-depth profile of the N-glycosylation landscape. Here, we optimized the sample preparation workflow prior to LC-MS/MS analysis by systematically comparing different analytical methods, including the use of different sources of trypsin, combinations of different proteases, and different enrichment materials. Finally, we found that the combination of Trypsin (B)/Lys-C digestion and zwitterionic HILIC (Zic-HILIC) enrichment significantly improved the mass spectrometric characterization of intact N-glycopeptides, increasing the number of identified intact N-glycopeptides and offering better analytical reproducibility. Furthermore, the optimized workflow was applied to the analysis of intact N-glycopeptides in two-dimensional (2D) and three-dimensional (3D)-cultured breast cancer cells in vitro and xenografted tumors in mice. These results indicated that the same breast cancer cells, when cultured in different microenvironments, can show different N-glycosylation patterns. This study also provides an interesting comparison of the N-glycoproteome of breast cancer cells cultured in different growth conditions, indicating the important role of N-glycosylated proteins in cancer cell growth and the choice of the cell culture model for studies in tumor biology and drug evaluation.

Published

2020

2. In-depth characterization and comparison of the N-glycosylated proteome of two-dimensional- and three-dimensional-cultured breast cancer cells and xenografted tumors

Author

Yong Zhang, Yang Zhao, Hao Yang, and Yonghong Mao

Subjects

Proteomics, Glycosylation, Biochemistry, 01 natural sciences, Database and Informatics Methods, Mice, Breast Tumors, Medicine and Health Sciences, Urea, Sample preparation, Database Searching, 0303 health sciences, Multidisciplinary, Organic Compounds, Chemistry, Gene Ontologies, Hydrophilic interaction chromatography, Proteases, Genomics, Hep G2 Cells, Trypsin, Enzymes, Cell Transformation, Neoplastic, Oncology, Physical Sciences, Proteome, Amino Acid Analysis, Medicine, Female, Biological Cultures, Research Article, medicine.drug, Science, Breast Neoplasms, Research and Analysis Methods, 03 medical and health sciences, Breast cancer, Breast Cancer, Genetics, medicine, Animals, Humans, Molecular Biology Techniques, Molecular Biology, 030304 developmental biology, Molecular Biology Assays and Analysis Techniques, Organic Chemistry, 010401 analytical chemistry, Chemical Compounds, Cancers and Neoplasms, Biology and Life Sciences, Proteins, Computational Biology, Cell Cultures, Genome Analysis, medicine.disease, In vitro, 0104 chemical sciences, Cell culture, Cancer cell, Enzymology, Serine Proteases

Abstract

Native intact N-glycopeptide analysis can provide access to the comprehensive characteristics of N-glycan occupancy, including N-glycosites, N-glycan compositions, and N-glycoproteins for complex samples. The sample pre-processing method used for the analysis of intact N-glycopeptides usually depends on the enrichment of low abundance N-glycopeptides from a tryptic peptide mixture using hydrophilic substances before LC-MS/MS detection. However, the number of identified intact N-glycopeptides remains inadequate to achieve an in-depth profile of the N-glycosylation landscape. Here, we optimized the sample preparation workflow prior to LC-MS/MS analysis by systematically comparing different analytical methods, including the use of different sources of trypsin, combinations of different proteases, and different enrichment materials. Finally, we found that the combination of Trypsin (B)/Lys-C digestion and zwitterionic HILIC (Zic-HILIC) enrichment significantly improved the mass spectrometric characterization of intact N-glycopeptides, increasing the number of identified intact N-glycopeptides and offering better analytical reproducibility. Furthermore, the optimized workflow was applied to the analysis of intact N-glycopeptides in two-dimensional (2D) and three-dimensional (3D)-cultured breast cancer cells in vitro and xenografted tumors in mice. These results indicated that the same breast cancer cells, when cultured in different microenvironments, can show different N-glycosylation patterns. This study also provides an interesting comparison of the N-glycoproteome of breast cancer cells cultured in different growth conditions, indicating the important role of N-glycosylated proteins in cancer cell growth and the choice of the cell culture model for studies in tumor biology and drug evaluation.

Published

2020