Glycosylation profiling of immunoglobulin G (IgG) subclasses from human serum

All four subclasses of human serum IgG contain a single N-glycosylation site in the constant region of their heavy chain, which is occupied by biantennary, largely core-fucosylated and partially truncated oligosaccharides, that may carry a bisecting N-acetylglucosamine and sialic acid residues. IgG glycosylation has been shown to be altered under various physiological and pathological circumstances. IgG N-glycan profiles vary with age, and galactosylation for example is enhanced during pregnancy. Several diseases including rheumatoid arthritis are associated with a reduction in galactosylation of the IgG N-glycans. Here, we describe a robust method for the isolation of IgG subclasses using protein A (binds IgG1, IgG2, and IgG4) and protein G (binds additionally IgG3) at the 96-well plate level, which is suitable for automation. Isolated IgGs were digested with trypsin, and obtained glycopeptides were analyzed by nano-LC-MS. Glycopeptides were characterized by CID as well as electron transfer dissociation (ETD). The method provided glycosylation profiles for IgG1, IgG2, IgG3, and IgG4 and revealed distinct differences in N-glycosylation between the four IgG subclasses. The changes in galactosylation associated with rheumatoid arthritis could readily be monitored. This method is suitable for the subclass-specific analysis of IgG glycosylation from clinical samples.     

Glycoforms of serum α1-acid glycoprotein as markers of inflammation and cancer

1-acid glycoprotein (AGP) is a serum acute phase glycoprotein which possesses five N-linked complex type heteroglycan side chains which may be present as bi-, tri- and tetraantennary structures. Depending upon the content of biantennary structure on AGP, up to four glycoforms of AGP are present in serum. These glycoforms can be easily estimated in body fluids by means of crossed affinity-immunoelectrophoresis (CAIE) with the lectin, Concanavalin A (Con A). Con A selectively binds biantennary structures; the more biantennary structures on AGP, the stronger the binding. In acute inflammation, a relative increase of AGP glycoforms with biantennary units is observed - a type I glycosylation change. In some chronic inflammatory states there is an relative decrease of AGP glycoforms with biantennary heteroglycans — a type II glycosylation change. Moreover, in certain other states such as pregnancy, estrogen administration or liver damage, type II glycosylation changes are also seen. A detailed analysis of the clinical applications of the assessment of AGP glycoforms in sera of patients with rheumatic diseases, AIDS and various types of cancers is presented. Accumulated data shows that AGP glycoforms may be very useful in the detection of intercurrent infections in the course of rheumatoid arthritis, systemic lupus erythematosus, or myeloblastic leukaemia, and in the detection of secondary infections in human immunodeficiency virus infected individuals. AGP glycoforms are also very useful in differentiation between various forms of trophoblastic disease and are helpful in monitoring the treatment of these patients. Finally, AGP glycoforms provide valuable information for differentiation between primary and secondary liver cancer.     

Increased alpha3-fucosylation of alpha1-acid glycoprotein in Type I diabetic patients is related to vascular function

Diabetic mellitus is attended by the development of endothelial dysfunction which is suggested to be accompanied with a chronic low-degree of inflammation. During a chronic hepatic inflammatory response, specific changes in glycosylation of the acute phase protein ₁-acid glycoprotein (AGP) can be detected. In this report we studied the changes in glycosylation of AGP in more detail and evaluated the relation between a change in glycosylation of AGP and urinary albumin secretion in Type I diabetic patients. The glycosylation of AGP, studied by crossed affinity immunoelectrophoresis (CAIE) and high pH anion exchange chromatography with pulse amperometric detection (HPAEC-PAD), showed an increase in 3-fucosylation. Staining with an antibody against sialyl Lewis^x (sLe^x) implied that part of the 3-fucosylation was present in a sLe^x-conformation. In the group of Type I diabetic patients with increased urinary albumin excretion, a significant increase in 3-fucosylation of AGP (p[emsp4 ]<[emsp4 ]0.0005) could be detected. Therefore, the increased 3-fucosylation of AGP can be used as an additional marker for the development of vascular complications in Type I diabetic patients.     

Decreased Levels of Bisecting GlcNAc Glycoforms of IgG Are Associated with Human Longevity

Background

Markers for longevity that reflect the health condition and predict healthy aging are extremely scarce. Such markers are, however, valuable in aging research. It has been shown previously that the N-glycosylation pattern of human immunoglobulin G (IgG) is age-dependent. Here we investigate whether N-linked glycans reflect early features of human longevity.

Methodology/Principal Findings

The Leiden Longevity Study (LLS) consists of nonagenarian sibling pairs, their offspring, and partners of the offspring serving as control. IgG subclass specific glycosylation patterns were obtained from 1967 participants in the LLS by MALDI-TOF-MS analysis of tryptic IgG Fc glycopeptides. Several regression strategies were applied to evaluate the association of IgG glycosylation with age, sex, and longevity. The degree of galactosylation of IgG decreased with increasing age. For the galactosylated glycoforms the incidence of bisecting GlcNAc increased as a function of age. Sex-related differences were observed at ages below 60 years. Compared to males, younger females had higher galactosylation, which decreased stronger with increasing age, resulting in similar galactosylation for both sexes from 60 onwards. In younger participants (<60 years of age), but not in the older age group (>60 years), decreased levels of non-galactosylated glycoforms containing a bisecting GlcNAc reflected early features of longevity.

Conclusions/Significance

We here describe IgG glycoforms associated with calendar age at all ages and the propensity for longevity before middle age. As modulation of IgG effector functions has been described for various IgG glycosylation features, a modulatory effect may be expected for the longevity marker described in this study.     

Biosynthesis of mucin type <Emphasis Type="Italic">O</Emphasis>-glycans: Lack of correlation between glycosyltransferase and sulfotransferase activities and CFTR expression

Structural differences have been reported in the glycosylation patterns of cystic fibrosis glycoproteins. Although the gene mutated in cystic fibrosis (CFTR) has been cloned and characterized as a chloride channel, its relationship to the highly viscous mucus and structural glycoprotein and mucin abnormalities in cystic fibrosis still remains to be defined. We have evaluated O-glycan biosynthesis in CHO and BHK cells that express CFTR and F508 CFTR as in vitro models, and utilized the cftr knockout mouse as an in vivo model of CFTR dysfunction. Activities of glycosyltransferases and sulfotransferases synthesizing mucin type O-glycan chains were determined in these models. Differences in transferase activity levels were found between tissues and cell types and during mouse development. No specific patterns of activities were associated with the lack of CFTR or with F508CFTR expression. This suggests that it is not the presence or absence of normal CFTR, or the presence of mutant CFTR alone, but rather cell specific additional factors or pathophysiological consequences that determine the changes in mucin glycosylation in cystic fibrosis.     

Terminal glycosylation and disease: Influence on cancer and cystic fibrosis

Terminal glycosylation has been a recurring theme of the laboratory. In cystic fibrosis (CF), decreased sialic acid and increased fucosyl residues in 1,3 position to antennary N -acetyl glucosamine is the CF glycosylation phenotype. The glycosylation phenotype is reversed by transfection of CF airway cells with wtCFTR. In neuronal cells, polymers of 2,8sialyl residues are prominent in oligodendrocytes and human neuroblastoma. These findings are discussed in relationship to early studies in our laboratories and those of other investigators. The potential extension of these concepts to future clinical therapeutics is presented.     

Evidence from lectin-binding studies for abnormal glycosylation ofβ-hexosaminidase in the leukaemic cell-line CCRF/CEM

The lectin affinities of -N-acetyl-d-hexosaminidase (E.C.3.2.1.52) from an acute lymphoblastic leukaemic cell-line (CCRF/CEM), a non-malignant lymphoblastic cell-line (SM1) and normal human fibroblasts were studied for both mature and precursor forms of the enzyme. Four immobilised lectins concanavalin A-Sepharose wheat germ agglutinin-Agarose,Ricinus communis agglutinin I-Agarose,Phaseolus vulgaris erythroagglutinin-Agarose and a column of serotonin-Sepharose were used. The activities of -hexosaminidase from fibroblasts and SM1 cells generally behaved similarly while the CCRF/CEM enzyme exhibited different binding patterns. Differences were also noted between precursor and mature enzyme from each cell type consistent with changes in glycosylation between the precursor form and the mature form appearing in the lysosome. These results suggest that changes in the glycosylation of -hexosaminidase, and possibly other lysosomal enzymes, may be associated with malignancy.Abbreviations Con A concanavalin A-Sepharose - RCA-I Ricinus communis agglutinin I-Agarose - WGA wheat germ agglutinin-Agarose - PHA-E Phaseolus vulgaris erythroagglutinin-Agarose - SER serotonin-Sepharose: non-T - non-B ALL non-T, non-B cell acute lyphoblastic leukaemia - 4-MU-GLcNAc 4-methylumbelliferyl 2-acetamido-2-deoxy--D-glucopyranoside     

Effect of Environmental Parameters on Glycosylation of Recombinant Immunoglobulin G Produced from Recombinant CHO Cells

Site specific glycosylation of immunoglobulin G (IgG) occurs at Asn297 in the Fc region. The heterogeneous ensemble of glycoform occurs due to the degree of terminal galactosylation and sialylation, and these differences in glycosylation affect both the pharmacokinetic behavior and effector functions of the IgG, such as complementdependent cytotoxicity (CDC) and antibody-dependent cellular cytotoxicity (ADCC). In this study, the differential glycosylation of IgG was compared and environmental physical and chemical parameters were evaluated in an attempt to promote glycosylation of recombinant antibodies, thereby creating more humanized glycoform antibodies and increasing their in vivo efficacy as therapeutic drugs. It was shown that cells at late stationary growth phase in batch cultures, cells with increased passage number, and the culture conditions of lowered temperature and pH promoted galactosylation and sialylation of antibodies. Galactose, fructose and mannose were found to elicit galactosylation and sialylation when they were used alone as a substitute of glucose. Mannose showed synergistic effects on glycosylation when used with other sugars, such as glucose and galactose. However when fructose was used with other sugars, the degree of galactosylation mechanism appeared to be decreased. These results support understandings of the glycosylation mechanisms in glycoprotein, particularly recombinant antibodies for therapeutics.     

Do asparagine-linked carbohydrate chains in glycoproteins have a preference for β-bends?

X-ray structures of the conformation of carbohydrate moieties and connected regions of glycoproteins are summarized. Evidence is presented that there is some preference for carbohydrate attachment at -bends. Evolution may have favored glycosylation to occur at bends to ensure free mobility of the carbohydrate moieties.     

Fc-glycosylation of IgG1 is modulated by B-cell stimuli

We have recently shown that IgG1 directed against antigens thought to be involved in the pathogenesis of rheumatoid arthritis harbor different glycan moieties on their Fc-tail, as compared with total sera IgG1. Given the crucial roles of Fc-linked N-glycans for the structure and biological activity of IgG, Fc-glycosylation of antibodies is receiving considerable interest. However, so far little is known about the signals and factors that could influence the composition of these carbohydrate structures on secreted IgG produced by B lymphocytes. Here we show that both "environmental" factors, such as all-trans retinoic acid (a natural metabolite of vitamin A), as well as factors stimulating the innate immune system (i.e. CpG oligodeoxynucleotide, a ligand for toll-like receptor 9) or coming from the adaptive immune system (i.e. interleukin-21, a T-cell derived cytokine) can modulate IgG1 Fc-glycosylation. These factors affect Fc-glycan profiles in different ways. CpG oligodeoxynucleotide and interleukin-21 increase Fc-linked galactosylation and reduce bisecting N-acetylglucosamine levels, whereas all-trans retinoic acid significantly decreases galactosylation and sialylation levels. Moreover, these effects appeared to be stable and specific for secreted IgG1 as no parallel changes of the corresponding glycans in the cellular glycan pool were observed. Interestingly, several other cytokines and molecules known to affect B-cell biology and antibody production did not have an impact on IgG1 Fc-coupled glycan profiles. Together, these data indicate that different stimuli received by B cells during their activation and differentiation can modulate the Fc-linked glycosylation of secreted IgG1 without affecting the general cellular glycosylation machinery. Our study, therefore, furthers our understanding of the regulation of IgG1 glycosylation at the cellular level.