Prostate cancer (PCa) is the second most prevalent cancer among men worldwide when assessing age-standardized incidence rates. The primary method for early PCa diagnosis involves measuring the... Show moreProstate cancer (PCa) is the second most prevalent cancer among men worldwide when assessing age-standardized incidence rates. The primary method for early PCa diagnosis involves measuring the serum concentration of prostate-specific antigen (PSA), with elevated levels (> 3 ng/mL in the Netherlands) indicating the potential presence of PCa. However, the conventional PSA test exhibits a low specificity. Thus, clinical challenges persist, including the differentiation between PCa and benign prostatic hyperplasia and distinguishing indolent PCa from aggressive forms. This underscores the need for a more specific biomarker for early PCa detection and stratification. Previous studies have reported altered glycosylation features in two prostate-secreted glycoproteins, PSA and prostatic acid phosphatase (PAP) in PCa patients, e.g. variation in sialylation, fucosylation and the level of LacdiNAc . The aim of this thesis was to identify PCa biomarkers for early detection and to improve patient stratification, focusing specifically on the glycomic profiles of PSA and PAP. In addition, as PSA plays an important role with regard to fertility, its glycosylation -in relation to male infertility- was also touched upon. For this purpose, mass spectrometry (MS) based glycoproteomic methods were established to map the glycoprofiles of PSA and PAP derived from various biofluids. Show less
The conserved region (Fc) of IgG antibodies dictates the interactions with designated receptors thus defining the immunological effector functions of IgG. Amino acid sequence variations in the Fc,... Show moreThe conserved region (Fc) of IgG antibodies dictates the interactions with designated receptors thus defining the immunological effector functions of IgG. Amino acid sequence variations in the Fc, recognized as subclasses and allotypes, as well as post-translational modifications (PTMs) modulate these interactions. Yet, the high similarity of Fc sequences hinders allotype-specific PTM analysis by state-of-the-art bottom-up methods and current subunit approaches lack sensitivity and face co-elution of near-isobaric allotypes.To circumvent these shortcomings, we present a nanoscale reversed-phase (RP) HPLC-MS workflow of intact Fc subunits for comprehensive characterization of Fc proteoforms in an allotype- and subclass-specific manner. Polyclonal IgGs were purified from individuals followed by enzymatic digestion releasing single chain Fc subunits (Fc/2) that were directly subjected to analysis. Chromatographic conditions were optimized to separate Fc/2 subunits of near-isobaric allotypes and subclasses allowing allotype and proteoform identification and quantification across all four IgG subclasses. The workflow was complemented by a semi-automated data analysis pipeline based on the open-source software Skyline followed by post-processing in R. The approach revealed pronounced differences in Fc glycosylation between donors, besides inter-subclass and inter-allotype variability within donors. Notably, partial occupancy of the N-glycosylation site in the CH3 domain of IgG3 was observed that is generally neglected by established approaches. The described method was benchmarked across several hundred runs and showed good precision and robustness.This methodology represents a first mature Fc subunit profiling approach allowing truly subclass- and allotype-specific Fc proteoform characterization beyond established approaches. The comprehensive information obtained paired with the high sensitivity provided by the miniaturization of the approach guarantees applicability to a broad range of research questions including clinically relevant (auto)antibody characterization or pharmacokinetics assessment of therapeutic IgGs. Show less
Coillie, J. van; Pongracz, T.; Rahmoller, J.; Chen, H.J.; Geyer, C.E.; Vught, L.A. van; ... ; UMC COVID-19 S HCW Study Grp 2022
Background: Afucosylated IgG1 responses have only been found against membrane-embedded epitopes, including anti-S in SARS-CoV-2 infections. These responses, intrinsically protective through... Show moreBackground: Afucosylated IgG1 responses have only been found against membrane-embedded epitopes, including anti-S in SARS-CoV-2 infections. These responses, intrinsically protective through enhanced Fc gamma RIIIa binding, can also trigger exacerbated pro-inflammatory responses in severe COVID-19. We investigated if the BNT162b2 SARS-CoV-2 mRNA also induced afucosylated IgG responses. Methods: Blood from vaccinees during the first vaccination wave was collected. Liquid chromatography-Mass spectrometry (LC-MS) was used to study anti-S IgG1 Fc glycoprofiles. Responsiveness of alveolar-like macrophages to produce proinflammatory cytokines in presence of sera and antigen was tested. Antigen-specific B cells were characterized and glycosyltransferase levels were investigated by Fluorescence-Activated Cell Sorting (FACS). Findings: Initial transient afucosylated anti-S IgG1 responses were found in naive vaccinees, but not in antigen -experienced ones. All vaccinees had increased galactosylated and sialylated anti-S IgG1. Both naive and antigen -experienced vaccinees showed relatively low macrophage activation potential, as expected, due to the low antibody levels for naive individuals with afucosylated IgG1, and low afucosylation levels for antigen-experienced individuals with high levels of anti-S. Afucosylation levels correlated with FUT8 expression in antigen-specific plasma cells in naive individuals. Interestingly, low fucosylation of anti-S IgG1 upon seroconversion correlated with high anti-S IgG levels after the second dose. Interpretation: Here, we show that BNT162b2 mRNA vaccination induces transient afucosylated anti-S IgG1 responses in naive individuals. This observation warrants further studies to elucidate the clinical context in which potent afucosylated responses would be preferred. Copyright (c) 2022 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). Show less
Immunoglobulin G (IgG) antibodies can exert their functions via both Fab-mediated neutralization and Fc-mediated effector functions, both of which are crucial for protective immunity in COVID-19.... Show moreImmunoglobulin G (IgG) antibodies can exert their functions via both Fab-mediated neutralization and Fc-mediated effector functions, both of which are crucial for protective immunity in COVID-19. Importantly, effector functions and resulting inflammatory responses are impacted by the structure of N-glycans linked to the Fc-tail of IgG. Studying antibody glycosylation in emerging infectious diseases such as SARS-CoV-2 allows to gain insight into specific glycan signatures at the early stages of infection, and to investigate whether these reflect how the disease would progress. For example, low fucosylation is a common glyco-phenotypic signature of IgG1 produced against the spike (S) protein of severely ill SARS-CoV-2 infected patients early on in their disease course, but has likewise been described in other disease settings, where the antigen is presented in the context of host-cell membranes (Chapter 2). In this thesis, antibody glycomics signatures of SARS-CoV-2 infection and vaccination have been explored using an established liquid chromatography – mass spectrometry-based method relying on affinity-isolation and proteolytic digestion of both total and anti-S IgG. In Chapter 3, the glycosylation of SARS-CoV-2 anti-S IgG antibodies were found to be vastly skewed relative to total IgG and to change in a highly dynamic fashion. Moreover, IgG glycosylation was shown to be an early severity marker and showed patient stratification potential, with predicting power for intensive care admission within a hospitalized patient population. Early detection of a pro-inflammatory glycosylation pattern may provide a broader intervention window and decrease the number of ICU-admissions. Furthermore, anti-S IgG1 glycosylation levels obtained with LC-MS show promise to supplement clinical parameters and biomarkers of inflammation, that have together been used for the severity score calculation of hospitalized COVID-19 patients. Similarly to SARS-CoV-2 infection, antibodies generated against the spike protein upon BNT162b2 mRNA vaccination also induced a transient afucosylated anti-S IgG1 response in antigen naïve individuals, albeit to a lower extent than in severely ill patients, exemplifying the influence of the type of immunization on antibody glycosylation (Chapter 4). Upon vaccination, the observed initial, mild afucosylated response was additionally accompanied by low fucosyltransferase (FUT8) expression in antigen-specific plasma cells. Furthermore, the observed initial anti-S IgG afucosylation signature may aided mounting a stronger immune response, as indicated by its correlation with antibody amounts following the second vaccination dose. Given the impact of glycosylation on antibody function, deciphering theunderlying regulatory mechanisms influencing IgG glycosylation will be of great importance to better understand the inflammatory potential, vaccine efficacy and protective capacity of vaccine- or pathogen-induced IgG in both body fluids and tissues in the future.In Chapter 5 and 6, the reaction steps of a previously developed linkage-specific sialic acid derivatization workflow were studied in more detail. Key players in such reactions are catalyst, of which novel types with different physico-chemical properties were introduced in Chapter 5. In Chapter 6, prior lactone formation was found to be a prerequisite for subsequent amidation of α2,3-linked sialic acids, which proceeds via direct aminolysis of the C2 lactone. Together, these new insights will be beneficial for the rational optimization of high-throughput (MALDI-)MS-based glycomics and glycoproteomics workflows relying on linkage-specific sialic acid derivatization. Show less
Het onderzoek beschreven in dit proefschrift is gericht op de identificatie en karakterisering van regulatoren en/of effectoren van TGF-β-signalering en TGF-β-geïnduceerde EMT in pancreas-, long-... Show moreHet onderzoek beschreven in dit proefschrift is gericht op de identificatie en karakterisering van regulatoren en/of effectoren van TGF-β-signalering en TGF-β-geïnduceerde EMT in pancreas-, long- en borstkankertypes. Deze nieuw geïdentificeerde componenten en mechanismen kunnen worden onderzocht voor de ontwikkeling van geneesmiddelen voor kankertherapie. Show less
Levink, I.J.M.; Klatte, D.C.F.; Hanna Sawires, R.G.; Vreeker, G.C.M.; Ibrahim, I.S.; Burgt, Y.E.M. van der; ... ; Mesker, W.E. 2022
Background: Surveillance of individuals at risk of developing pancreatic ductal adenocarcinoma (PDAC) has the potential to improve survival, yet early detection based on solely imaging modalities... Show moreBackground: Surveillance of individuals at risk of developing pancreatic ductal adenocarcinoma (PDAC) has the potential to improve survival, yet early detection based on solely imaging modalities is challenging. We aimed to identify changes in serum glycosylation levels over time to earlier detect PDAC in high-risk individuals. Methods: Individuals with a hereditary predisposition to develop PDAC were followed in two surveillance programs. Those, of which at least two consecutive serum samples were available, were included. Mass spectrometry analysis was performed to determine the total N-glycome for each consecutive sample. Potentially discriminating N-glycans were selected based on our previous cross-sectional analysis and relative abundances were calculated for each glycosylation feature. Results: 165 individuals ("FPC-cohort" N = 119; Leiden cohort N = 46) were included. In total, 97 (59%) individuals had a genetic predisposition (77 CDKN2A, 15 BRCA1/2, 5 STK11) and 68 (41%) a family history of PDAC without a known genetic predisposition (>10-fold increased risk of developing PDAC). From each individual, a median number of 3 serum samples (IQR 3) was collected. Ten individuals (6%) developed PDAC during 35 months of follow-up; nine (90%) of these patients carried a CDKN2A germline mutation. In PDAC cases, compared to all controls, glycosylation characteristics were increased (fucosylation, tri-and tetra-antennary structures, specific sialic linkage types), others decreased (complex-type diantennary and bisected glycans).The largest change over time was observed for tri-antennary fucosylated glycans, which were able to differentiate cases from controls with a specificity of 92%, sensitivity of 49% and accuracy of 90%. Conclusion: Serum N-glycan monitoring may support early detection in a pancreas surveillance program.(c) 2022 The Authors. Published by Elsevier B.V. on behalf of IAP and EPC. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). Show less
The surface of eukaryotic cells contains a very dense layer of oligosaccharides called glycans that are linked to protein and lipid carriers and play an important role in cell-cell and cell... Show moreThe surface of eukaryotic cells contains a very dense layer of oligosaccharides called glycans that are linked to protein and lipid carriers and play an important role in cell-cell and cell-extracellular matrix interactions. Cancer-induced changes in glycosylation have an impact on the function of major glycoproteins in the human colon, therefore studies focused on colorectal cancer (CRC)-specific glycosylation signatures can provide novel insights into onset and progression of this disease. The major focus of this thesis was to investigate mucin type O-glycosylation signatures of CRC. For this purpose, a protocol for in-depth analysis of N- and O-glycans obtained from cell lines was developed (Chapter 2) using nanoscale porous graphitized carbon liquid chromatography coupled to mass spectrometry (PGC-nano-LC-MS). In Chapter 3 additional conditions were optimized in the MS methodology by using polar protic dopant (methanol and isopropanol) enriched nitrogen gas to increase sensitivity on the MS and tandem MS level. In Chapter 4 we applied the methodology developed in Chapter 2 to the analysis of O-glycosylation signatures of 26 different CRC cell lines. This analysis resulted in the characterization of more than 150 O-glycan structures and increased our understanding of glycan expression in the analyzed cell lines. To gain further understanding in the mechanisms underlying glycomic changes with colon cell differentiation, we explored changes in the cell line glycome and proteome upon spontaneous and butyrate-stimulated differentiation in in vitro cell culture (Chapter 5). By performing an integrative approach, we generated hypotheses about glycosylation signatures of specific cell adhesion proteins, which may play an important role in cancer progression. The localization of glycans on the cell surface and their role in biological processes are important in cancer pathogenesis, making them potential candidates for glycan targeting immunotherapy. Therefore, we further optimized the methodology to enable comprehensive analysis of N- and O-glycans from specific regions of formalin-fixed, paraffin-embedded tissues using laser capture microdissections and applied it for the analysis of selected regions of CRC tissues and their patient-matched colon mucosa controls (Chapter 6). We identified specific tumor-associated carbohydrate antigens (TACAs) that show expression only in the tumor samples, with no or limited expression in the normal colon mucosa. Since TACAs are present in high abundance on the surface of cancer cells which are linked to many different proteins, these are very promising targets for the development of tumor-specific immunotherapy. Show less
Lippold, S.; Thavarajah, R.; Reusch, D.; Wuhrer, M.; Nicolardi, S. 2021
Recombinant human erythropoietin (EPO) is a complex therapeutic glycoprotein with three N- and one O-glycosylation sites. Glycosylation of EPO influences its safety and efficacy and is defined as a... Show moreRecombinant human erythropoietin (EPO) is a complex therapeutic glycoprotein with three N- and one O-glycosylation sites. Glycosylation of EPO influences its safety and efficacy and is defined as a critical quality attribute. Thus, analytical methods for profiling EPO glycosylation are highly demanded. Owing to the complexity of the intact protein, information about EPO glycosylation is commonly derived from released glycan and glycopeptide analysis using mass spectrometry (MS). Alternatively, comprehensive insights into the glycoform heterogeneity of intact EPO are obtained using ESI MS-based methods with or without upfront separation of EPO glycoforms. MALDI MS, typically performed with TOF mass analyzers, has been also used for the analysis of intact EPO but, due to the poor glycoform resolution, has only provided limited glycoform information. Here, we present a MALDI FT-ICR MS method for the glycosylation profiling of intact EPO with improved glycoform resolution and without loss of sialic acid residues commonly observed in MALDI analysis. Three EPO variants were characterized in-depth and up to 199 glycoform compositions were assigned from the evaluation of doubly-charged ions, without any deconvolution of the mass spectra. Key glycosylation features such as sialylation, acetylation, and N- acetyllactosamine repeats were determined and found to agree with previously reported data obtained from orthogonal analyses. The developed method allowed for a fast and straightforward data acquisition and evaluation and can be potentially used for the high-throughput comparison of EPO samples throughout its manufacturing process. (c) 2021 The Author(s). Published by Elsevier B.V. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). Show less
Biomarker molecules are analyzed in clinical tests to diagnose a disease, but often these test lack sensitivity or specificity. Also, for many diseases there is not even a blood based test... Show moreBiomarker molecules are analyzed in clinical tests to diagnose a disease, but often these test lack sensitivity or specificity. Also, for many diseases there is not even a blood based test available, while blood collection is relatively low invasive. For breast- and pancreatic cancer, there are several proteins that could potentially serve as biomarkers in blood, but these are not yet specific enough to use for diagnostic testing. Further research on other types of biomarkers may therefore be a valuable addition to eventually be able to develop a blood test. Methods for glycosylation profiling from serum and dried bloodspots with mass spectrometry were developed and applied to pancreatic- and breast cancer biomarker studies. Differences were found between profiles of healthy and sick persons for pancreatic cancer, but no clear differences were seen for breast cancer. This is probably due to the many different forms of breast cancer which result in different profiles. In the future, combining different types of markers from serum might ensure that differences between healthy and sick, between different diseases and between types of disease can be identified. This could lead to the development of a blood test for the early detection of cancer and other diseases. Show less
Wang, W.; Kaluza, A.; Nouta, J.; Nicolardi, S.; Ferens-Sieczkowska, M.; Wuhrer, M.; ... ; Haan, N. de 2021
An altered total seminal plasma glycosylation has been associated with male infertility, and the highly abundant seminal plasma glycoprotein prostate-specific antigen (PSA) plays an important role... Show moreAn altered total seminal plasma glycosylation has been associated with male infertility, and the highly abundant seminal plasma glycoprotein prostate-specific antigen (PSA) plays an important role in fertilization. However, the exact role of PSA glycosylation in male fertility is not clear. To understand the involvement of PSA glycosylation in the fertilization process, analytical methods are required to study the glycosylation of PSA from seminal plasma with a high glycoform resolution and in a protein-specific manner. In this study, we developed a novel, high-throughput PSA glycopeptide workflow, based on matrix-assisted laser desorption/ionization-mass spectrometry, allowing the discrimination of sialic acid linkage isomers via the derivatization of glycopeptides. The method was successfully applied on a cohort consisting of seminal plasma from infertile and fertile men (N = 102). Forty-four glycopeptides were quantified in all samples, showing mainly complex-type glycans with high levels of fucosylation and sialylation. In addition, N,N-diacetyllactosamine (LacdiNAc) motives were found as well as hybrid-type and high mannose-type structures. Our method showed a high intra- and interday repeatability and revealed no difference in PSA glycosylation between fertile and infertile men. Next to seminal plasma, the method is also expected to be of use for studying PSA glycopeptides derived from other biofluids and/or in other disease contexts. Show less
Rheumatoid arthritis (RA) is an auto-inflammatory disease, affecting ~1% of the world population. RA is hallmarked by the presence of autoantibodies, one of the well-known autoantibodies in RA are... Show moreRheumatoid arthritis (RA) is an auto-inflammatory disease, affecting ~1% of the world population. RA is hallmarked by the presence of autoantibodies, one of the well-known autoantibodies in RA are the anti-citrullinated protein antibodies (ACPA). ACPA is highly specific for RA and about 70-80% of the RA patients are positive for ACPA. Previously, we discovered that ACPA-IgG are extensively glycosylated in the variable (V) region. In this thesis, we determined that over 90% of the ACPA-IgG carries glycans in the v-domain were as only 17% of the conventional IgG carries additional glycans. Additionally, the glycans were highly sialylated. Intriguingly, we also showed that the glycans are introduced via somatic hyper mutations in the germinal center reaction. Furthermore, we discovered that ACPA-IgG v-domain glycosylation is a predictive marker for the development of ACPA positive RA. Lastly, we found that the binding strength is not influenced by the glycans but it influences the amount of available binding sites. Nevertheless, the ACPA-BCR still overcome negative selection which might suggest that the glycans can trigger an alternative way for positive selection in the germinal center. This will be subject for further studies regarding the role of ACPA-IgG v-domain glycosylation. Show less
Rheumatoid arthritis (RA) is a chronic autoimmune disease characterized by systemic and persistent inflammation of the joints. Around 50-80% of the RA patients harbour either one or multiple types... Show moreRheumatoid arthritis (RA) is a chronic autoimmune disease characterized by systemic and persistent inflammation of the joints. Around 50-80% of the RA patients harbour either one or multiple types of autoantibodies, under which also Anti-Citrullinated Protein Antibodies (ACPA). ACPA are highly specific for RA and are strongly associated with the severity of arthritis. The studies described in this thesis aim to explore the structure and biological function of ACPA and the B cells producing these ACPA.The studies highlight the importance of the synovial environment for the survival of ACPA B cells. Moreover, we demonstrate that the variable region of ACPA-IgG differs from that of ACPA-IgM by the introduction of glycans, and that glycans in the constant part of antibodies can be modulated by influences from the micro-environment. This may affect the biological functions of the antibodies. Furthermore, we show that ACPA can bind to so-called Fc gamma receptor I on immune cells which could be a potential effector mechanisms of ACPA. These findings demonstrate that the structure and environment of ACPA play an important role in the ACPA immune response and provide multiple arguments for the active contribution of ACPA in the chronic inflammation of RA. Show less
The aim of this thesis is to explore the glycosylation of PSA as well as to study if alterations can be observed between patients with indolent and malignant PCa. For this purpose the powerful... Show moreThe aim of this thesis is to explore the glycosylation of PSA as well as to study if alterations can be observed between patients with indolent and malignant PCa. For this purpose the powerful analytical platform CE-ESI-MS(/MS) was explored with a special focus on the analysis of glycans and glycopeptides (Chapter 1). The first section of the thesis describes the different method developments implemented for the analysis of PSA with CE-ESI-MS. Namely, Chapter 2 describes that CE-ESI-MS enables to separate glycopeptides with differently linked sialic acids without any additional sample treatment, Chapter 3 shows that an introduction of a dopant enriched nitrogen gas improves the limit of detection (sensitivity) of glycopeptides and Chapter 4 introduces a novel labeling procedure of total plasma N-glycome with the hydrazide Girard’s reagent P. Chapter 5 describes the development of a PSA Glycomics Assay which allows the capture of intact PSA from patients’ urine followed by analysis with the optimized CE-ESI-MS platform (Chapters 2 and 3). Finally, Chapter 6 offers a general discussion about future developments, the potential of PSA glycosylation in the clinical setting, showing the relevance of our results and how these may contribute to further clinical applications towards personalized medicine. Show less
Glycosylation of immunoglobulins is suspected to play a key role in the regulation of the immune system. In this thesis, mass spectrometry-based glycoproteomics methods were used to characterize... Show moreGlycosylation of immunoglobulins is suspected to play a key role in the regulation of the immune system. In this thesis, mass spectrometry-based glycoproteomics methods were used to characterize the glycosylation of various immunoglobulins. In Chapter 2 we describe the development of a glycoproteomics method to analyze IgE glycosylation. In Chapter 3 we reported partial O-glycosylation of IgG3. In addition to structural glycosylation research, we also analyzed antibody glycosylation in population cohorts. In Chapter 4 and Chapter 5, IgG Fc glycopeptide analysis was performed on blood samples using LC-MS(/MS). In a cohort of 76 ANCA vasculitis patients, low galactosylation and sialylation of IgG was associated with a higher chance of future relapse. Furthermore, in the approximately 1800 participants of the Leiden Longevity study (LLS), low galactosylation and sialylation of IgG, together with high fucosylation, showed association with markers of inflammation. We hope that the novel data presented in this thesis may contribute to the elucidation of the role of antibody glycosylation in the immune system, of which the understanding is currently still very limited. Show less
