Carbohydrates cover the surface of every living cell and are the means by which cells communicate with each other. They have, therefore, enormous impact both in the healthy body as well as in many disease processes, including cancer, diabetes, heart and lung disease, AIDS, and many more. In order to understand the language of carbohydrate-mediated cell-cell communication, it is vital to know the details of glycoprotein structure. However, due to the huge diversity of carbohydrate structures this is a daunting task, and presently only a handful of laboratories in the U.S. are capable of doing this research. Detailed glycoprotein structural analysis has to be able to identify the peptide sequence where the glycans are attached, as well as the structure of the glycan portion, including oligosaccharide isomers, sequence and glycosyl linkages. Currently, mass spectrometry (MS) experiments on both released glycans as well as on intact glycopeptides are needed to fully elucidate the structure of glycoproteins. Released glycan analysis depends on a derivatization procedure called ?permethylation?, in which every hydroxyl proton is replaced by a methyl group. Separate experiments on the intact glycopeptides are needed because glycan release abolishes all site-specific information. Additional workflows are also required to separate N- from O-linked glycans and to determine degree of glycosylation.
The first aim of the present proposal is to consolidate all the above workflows into one by carrying out the permethylation and MS on intact glycopeptides instead of on released glycans. This will allow all the necessary information pertaining to the glycoprotein, including glycan linkage, isomers, sequence, attachment site, and degree of glycosylation to be obtained in a one-pot experiment. The only way to expand the field of glycobiology is to make it more accessible to other scientists, and combining glycan structure elucidation with glycopeptide analysis in a single experiment is a step towards that goal. Fetuin will be used as the eukaryotic model glycoprotein and C. jejuni glycoprotein AcrA as the model for prokaryotic glycoproteins. The technology involving permethylation of glycopeptides and MSn analysis will be incorporated into the CCRC's hands-on training courses that are annually offered to the glyco-community. Hands-on training is one of the most efficient ways to make any technology assessable to the larger scientific community. In order to assist the interpretation of the complex data generated in the MS, the second aim of this project is expansion of the software generated previously in-house to include automatic annotation of permethylated glycopeptide mass spectra. The existing software was built in a modular fashion to enable the addition of further functionality through ?plugins?.
The third aim i s the development of a permethylation kit to facilitate the single sample preparation workflow to aid researchers who are not specialists in carbohydrate analysis.

Public Health Relevance

Carbohydrates cover the surface of every living cell and are the means by which cells communicate with each other. They have, therefore, enormous impact both in the healthy body as well as in many disease processes, including cancer, diabetes, heart disease, AIDS, and many more. The carbohydrates are attached to proteins, and this combination is called `glycoprotein'. In order to understand the language of carbohydrate-mediated cell-cell communication, it is vital to know the details of glycoprotein structure. This is a daunting task due to the huge diversity of carbohydrate structures, and presently only a handful of laboratories in the U.S. are capable of doing this research. This proposal seeks to develop a three-component analytical tool to enable any laboratory involved in regular protein science to analyze glycoproteins on their own in a straightforward manner.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Exploratory/Developmental Grants (R21)
Project #
1R21GM122633-01
Application #
9166719
Study Section
Special Emphasis Panel (ZRG1-IMST-L (50)R)
Program Officer
Sheeley, Douglas
Project Start
2016-09-01
Project End
2018-08-31
Budget Start
2016-09-01
Budget End
2017-08-31
Support Year
1
Fiscal Year
2016
Total Cost
$291,000
Indirect Cost
$97,000
Name
University of Georgia
Department
Type
Organized Research Units
DUNS #
004315578
City
Athens
State
GA
Country
United States
Zip Code
30602
Shajahan, Asif; Supekar, Nitin T; Heiss, Christian et al. (2017) Tool for Rapid Analysis of Glycopeptide by Permethylation via One-Pot Site Mapping and Glycan Analysis. Anal Chem 89:10734-10743