Quantitative assessment of successive carbohydrate additions to the clustered O-glycosylation sites of IgA1 by glycosyltransferases

Author:

Stewart Tyler J12,Takahashi Kazuo31,Xu Nuo4,Prakash Amol5,Brown Rhubell1,Raska Milan6,Renfrow Matthew B2,Novak Jan1

Affiliation:

1. Department of Microbiology, University of Alabama at Birmingham, 845 19th Street South, BBRB 761A, Birmingham, AL 35294, USA

2. Department of Biochemistry and Molecular Genetics, University of Alabama at Birmingham, 720 20th Street South, KAUL 524, Birmingham, AL 35294, USA

3. Department of Biomedical Molecular Sciences, Fujita Health University School of Medicine, 1-98 Dengakugakubo, Kutsukake, Aichi, Toyoake 470-1192, Japan

4. Department of Management, Information Systems & Quantitative Methods, 710 13th Street South, University of Alabama at Birmingham, Birmingham, AL 35233, USA

5. Optys Tech Corporation, Shrewsbury, MA 01545, USA

6. Department of Immunology, Palacky University and University Hospital, Hnevotinska 3, Olomouc 775 15, Czech Republic

Abstract

Abstract Mucin-type O-glycosylation occurs on many proteins that transit the Golgi apparatus. These glycans impact structure and function of many proteins and have important roles in cellular biosynthetic processes, signaling and differentiation. Although recent technological advances have enhanced our ability to profile glycosylation of glycoproteins, limitations in the understanding of the biosynthesis of these glycan structures remain. Some of these limitations stem from the difficulty to track the biosynthetic process of mucin-type O-glycosylation, especially when glycans occur in dense clusters in repeat regions of proteins, such as the mucins or immunoglobulin A1 (IgA1). Here, we describe a series of nano-liquid chromatography (LC)–mass spectrometry (MS) analyses that demonstrate the range of glycosyltransferase enzymatic activities involved in the biosynthesis of clustered O-glycans on IgA1. By utilizing nano-LC–MS relative quantitation of in vitro reaction products, our results provide unique insights into the biosynthesis of clustered IgA1 O-glycans. We have developed a workflow to determine glycoform-specific apparent rates of a human UDP-N-acetylgalactosamine:polypeptide N-acetylgalactosaminyltrasnfersase (GalNAc-T EC 2.4.1.41) and demonstrated how pre-existing glycans affect subsequent activity of glycosyltransferases, such as core 1 galactosyltransferase and α2,3- and α2,6-specific sialyltransferases, in successive additions in the biosynthesis of clustered O-glycans. In the context of IgA1, these results have potential to provide insight into the molecular mechanisms implicated in the pathogenesis of IgA nephropathy, an autoimmune renal disease involving aberrant IgA1 O-glycosylation. In a broader sense, these methods and workflows are applicable to the studies of the concerted and competing functions of other glycosyltransferases that initiate and extend mucin-type core 1 clustered O-glycosylation.

Funder

National Institutes of Health

Ministry of Health, Czech Republic

Publisher

Oxford University Press (OUP)

Subject

Biochemistry

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