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10. Distribution of laminin and fibronectin isoforms in oral mucosa and oral squamous cell carcinoma.

Author

Kosmehl, H, Berndt, A, Strassburger, S, Borsi, L, Rousselle, P, Mandel, U, Hyckel, P, Zardi, L, and Katenkamp, D

Subjects
FIBRONECTINS, ORAL mucosa
Abstract

The expression of laminin and fibronectin isoforms varies with cellular maturation and differentiation and these differences may well influence cellular processes such as adhesion and motility. The basement membrane (BM) of fetal oral squamous epithelium contains the laminin chains, α2, α3, α5, β1, β2, β3, γ1 and &gamma2. The BM of adult normal oral squamous epithelium comprises the laminin chains, α3, α5, β1, β3, γ1 and γ2. A re-expression of the laminin α2 and β2 chains could be shown in adult hyperproliferative, dysplastic and carcinomatous lesions. In dysplasia and oral squamous cell carcinoma (OSCC), multifocal breaks of the BM are present as indicated by laminin chain antibodies. These breaks correlate to malignancy grade in their extent. Moreover, in the invasion front the α3 and γ2 chain of laminin-5 can immunohistochemically be found outside the BM within the cytoplasm of budding carcinoma cells and in the adjacent stroma. The correlation between the morphological pattern of invasive tumour clusters and a laminin-5 immunostaining in the adjacent stroma may suggest, first, that a laminin-5 deposition outside the BM is an immunohistochemical marker for invasion and second, that OSCC invasion is guided by the laminin-5 matrix. Expression of oncofetal fibronectins (IIICS de novo glycosylated fibronectin and ED-B fibronectin) could be demonstrated throughout the stromal compartment. However, the ED-B fibronectin synthesizing cells (RNA/RNA in situ hybridization) are confined to small stroma areas and to single stroma and inflammatory cells in the invasion front. A correlation of the number of ED-B fibronectin synthesizing cells to malignancy grade could not be seen. ED-B fibronectin mRNA-positive cells seem to be concentrated in areas of fibrous stroma recruitment with a linear alignment of stromal fibro-/myofibroblasts (desmoplasia). Double staining experiments... [ABSTRACT FROM AUTHOR]

Published
1999
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11. Sequential expression of carbohydrate antigens with precursor-product relation characterizes cellular maturation in stratified squamous epithelium.

Author

Mandel, U., Clausen, H., Vedtofte, P., Sørensen, H., and Dabelsteen, E.

Subjects
*CELL growth, *EPITHELIAL cells, *CARBOHYDRATES, *ANTIGENS
Abstract

Cell surface carbohydrates are excellent markers for cellular differentiation and maturation due to great structural and antigenic diversity and to known precursor/product relations. Several blood group related carbohydrate antigens were analyzed in human labial stratified non-keratinized epithelium from 16 healthy individuals by immunohistology using monoclonal antibodies. The expression of these antigens was correlated with erythrocyte phenotype and saliva secretor status. Three distinct compartments of the epithelium were found and defined by the sequential expression of derivatives of Type 2 chain structures: lower, confined to basal cell layers (N-acetyllactosamine), middle, to parabasal cell layers (H) and upper, to spinous cell layers (Le y]Lex]). Although the antigens are related to blood group antigens they are largely expressed independently of the ABO, Lewis and secretor types, and may therefore serve as "universal" markers in differentiation studies of normal and pathological epithelium. [ABSTRACT FROM AUTHOR]

Published
1988
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12. Radiographic assessment of simulated root resorption cavities.

Author

Andreasen, F. M., Sewerin, I., Mandel, U., and Andreasen, J. O.

Subjects
DENTAL caries, MANDIBLE, BICUSPIDS, DENTAL pathology, JAWS, RADIOGRAPHY
Abstract

A study into the sensitivity and accuracy of a standardized radiographic technique for the disclosure of root re- sorption cavities was performed in a cadaver material. Film contrast and horizontal angulation were varied in order to identify factors in radiographic exposure which resulted in the greatest diagnostic reliability. In an autopsy material of 5 jaw blocks containing both mandibular premolars, "small, medium and large" cavities simulating root resorptions of 0.6, 1.2 and 1.8 mm in diameter and 0.3, 0.6 and 0.9 mm in depth, respectively, were drilled at the cervical, middle and apical thirds of the proximal and oral root surfaces of the premolars. Cavity locations were distributed to ensure an equal number of locations with and without cavities and an equal number of cavities of each size. Results of the investigation indicated that the small cavities were never visualized, nor were 6 out of 13 medium cavities nor 1 out of 13 large cavities; that cavities located proximally were more readily seen than those located orally and that there was no difference in cavity visualization between cavities on the apical, middle or cervical thirds of the roots; high density (contrast) films allowed the best cavity visualization. Finally, radiographs from the time of injury (i.e. pre-resorption radiographs) as well as radiographs taken at various horizontal angulations were found to be of importance in order to increase the possibility of cavity visualization. [ABSTRACT FROM AUTHOR]

Published
1987
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13. Matrix remodelling in dilated cardiomyopathy entails the occurrence of oncofetal fibronectin molecular variants.

Author

Gabler, U., Berndt, A., Kosmehl, H., Mandel, U., Zardi, L., Müller, S., Stelzner, A., and Katenkamp, D.

Abstract

OBJECTIVES: To investigate whether disturbance of the cellular homoeostasis and integrity of cardiomyocytes in dilated cardiomyopathy (DCM) is accompanied by alterations in cell-matrix relations as indicated by changes in the deposition of fibronectin (FN) isoforms. DESIGN: Tissue from a case series of patients with DCM was investigated by immunohistochemistry with antibodies against FN (all variants, clone IST4), ED-A+ FN (clone IST9), ED-B+ FN (clone BC1), and oncofetal glycosylated FN (clone 5C10). The sites of de novo synthesis of FN were demonstrated by means of non-radioactive RNA in situ hybridisation (ISH) with biotinylated FN cDNA fragments as the probe. SETTING: University hospital. PATIENTS: Samples from 10 patients with clinical criteria and histological diagnosis of DCM and from 3 individuals with normal hearts. INTERVENTIONS: Samples were obtained by right ventricular endomyocardial biopsy. MAIN OUTCOME MEASURE: Distribution of oncofetal FN variants in DCM hearts. RESULTS: Immunostaining of FN (IST4, all variants) showed a coarse interstitial network in normal and diseased myocardium. ED-A+ FN was deposited as fine interstitial spots in normal myocardium and in DCM samples. Immunostaining for oncofetal glycosylated FN and ED-B+ FN was not seen in normal adult myocardium, whereas myocardium from DCM patients showed focal and delicate staining in the interstitium. RNA ISH showed that these deposits resulted from local FN synthesis. CONCLUSION: The results accord with de novo expression of oncofetal FN variants in hearts from patients with DCM. The oncofetal FN variants may serve as disease markers in myocardium affected by DCM. [ABSTRACT FROM PUBLISHER]

Published
1996

14. Aberrant glycosylation in oral malignant and premalignant lesions.

Author

Dabelsteen, E, Clausen, H, and Mandel, U

Subjects
CARBOHYDRATE metabolism, CELL membranes, COMPARATIVE studies, GLYCOSYLATION, RESEARCH methodology, MEDICAL cooperation, MOUTH tumors, PRECANCEROUS conditions, RESEARCH, EVALUATION research
Abstract

Cell surface carbohydrates serve as differentiation and developmental markers characteristic of different cell and tissue types. The expression of these carbohydrate antigens is often significantly altered in tumors, particularly in those arising from epithelial tissues. Analysis of cell surface carbohydrates in oral epithelium have shown that in normal epithelium they are expressed in a way that shorter carbohydrates are found on basal cells and that these carbohydrate structures are elongated parallel to terminal differentiation. The carbohydrate expression is altered in oral carcinomas and in some oral premalignant lesions. The change in carbohydrate expression can at present be explained by the lack of synthesis of specific glycosyltransferases. We have found mosaicism in the expression of carbohydrate antigens in all tumors and have found that the expression of a specific carbohydrate in the deep invasive parts of the tumor correlates with tumor prognosis. [ABSTRACT FROM AUTHOR]

Published
1991
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15. Aberrant glycosylation in oral malignant and premalignant lesions.

Author

Dabeisteen, E., Clausen, H., and Mandel, U.

Subjects
GLYCOSYLATION, ORAL cancer, BLOOD group antigens, ESTERIFICATION
Abstract

Cell surface carbohydrates serve as differentiation and developmental markers characteristic of different cell and tissue types. The expression of these carbohydrate antigens is often significantly altered in tumors, particularly in those arising from epithelial tissues. Analysis of cell surface carbohydrates in oral epithelium have shown that in normal epithelium they are expressed in a way that shorter carbohydrates are found on basal cells and that these carbohydrate structures are elongated parallel to terminal differention. The carbohydrate expression is altered in oral carcinomas and in some oral premalignant lesions. The change in carbohydrate expression can at present be explained by the lack of synthesis of specific glycosyltransferases. We have found mosaism in the expression of carbohydrate antigens in all tumors and have found that the expression of a specific carbohydrate in the deep invasive parts of the tumor correlates with tumor prognosis. [ABSTRACT FROM AUTHOR]

Published
1991
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16. Expression of mucin type carbohydrates may supplement histologic diagnosis in oral premalignant lesions.

Author

Bryne, Magne, Reibel, Jesper, Mandel, Ulla, Dabelsteen, Erik, Bryne, M, Reibel, J, Mandel, U, and Dabelsteen, E

Subjects
PRECANCEROUS conditions, MUCINS, CARBOHYDRATES, HISTOLOGY, MOUTH tumors
Abstract

Recent studies have shown that changes within membrane bound carbohydrates may be essential for cellular differentiation and malignant transformation. We have therefore, by means of immunohistochemistry, studied the expression of T/Tn related (Thomsen-Friedenrich) carbohydrates in 13 oral lesions with squamous cell dysplasia. The epithelial grade of dysplasia was graded as mild, moderate or severe. The following carbohydrate structures were studied: Tn, T, mucintype 3 chain H, and the sialylated derivates, sialosyl-Tn and sialosyl-T. In general, short structures were detected on the basal cells and longer structures on the more mature spinous cells. In many cases, this sequential expression was more disturbed with increasing grade of epithelial dysplasia. However, our results also showed that some lesions with the same grade of epithelial dysplasia showed different carbohydrate expression. These findings indicate that expression of carbohydrates may supplement histologic diagnosis in the evaluation of the prognosis of premalignant lesions. [ABSTRACT FROM AUTHOR]

Published
1991
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17. Expression of the histo-blood group ABO gene defined glycosyltransferases in epithelial tissues.

Author

Mandel, Ulla, White, Thayer, Karkov, Jens, Hakomori, Sen-Itlroh, Clausen, Henrik, Dabeisteen, Erik, Mandel, U, White, T, Karkov, J, Hakomori, S, Clausen, H, and Dabelsteen, E

Subjects
ABO blood group system, CARBOHYDRATES, ANTIGENS, GLYCOSYLTRANSFERASES
Abstract

The histo-blood group ABO carbohydrate antigens are differentially expressed in epithelia in close correlation with cellular differentiation. In order to gain insight into the biosynthetic regulation of these carbohydrate antigens, we correlated the expression of A carbohydrate antigens with that of the A gene defined glycosyltransferase by immunohistology of' human oral epithelia using monoclonal anti- bodies. In glandular epithelium the A transferase was found in mucous cells similar to that of the A carbohydrate antigens. In stratified non-keratinized squamous epithelium the A transferase was expressed only in spinous cell layers, which is in accordance with the appearance of the A carbohydrate antigens in these more mature cell layers. This simultaneous acquisition of the primary and secondary gene product of a glycosyltransferase gene, provides evidence that the well-defined sequential expression of histo-blood group carbohydrate antigens in stratified squamous epithelium may be directly regulated at the transcriptional level of the glycosyltransferase. Future studies will address the nwchanism behind loss of A antigens in premalignant lesions and carcinomas. [ABSTRACT FROM AUTHOR]

Published
1990
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19. Differential Expression of Human High-molecular-weight Salivary Mucin (MG1) and Low-molecular-weight Salivary Mucin (MG2).

Author

Nielsen, P.A., Mandel, U., Therkildsen, M. H., and Clausen, H.

Subjects
MUCINS, SALIVA microbiology, IMMUNOFLUORESCENCE, MONOCLONAL antibodies, SALIVARY glands, PEPTIDES, SALIVARY proteins, MOLECULAR weights
Abstract

Two distinct mucin components of saliva, MG1 and MG2, have been identified based on chemical composition and molecular weights (high and low, respectively) in saliva. With the aim of characterizing the expression pattern of salivary mucins, we have prepared monoclonal antibodies (MAbs) directed against the peptide core of MG1 and against a synthetic peptide derived from the MG2 (MUC7) sequence. MAb PANH2 raised against partially deglycosylated MG1 stained a high-molecular-weight smear in Western blots of partially purified MG1. PANH2 binding was increased by deglycosylation with trifluoromethanesulfonic acid as well as with subsequent periodate treatment, and was eliminated by pronase treatment, strongly suggesting that MAb PANH2 was directed to a peptide epitope of MG1. MAb PANH3 raised against a synthetic peptide derived from the MG2 (MUC7) sequence reacted with the native molecule and stained a narrow smear of ca. 200,000 to 210,000 in Western blots of concentrated saliva and a lower-molecular-weight smear of trifluoromethanesulfonic-acid-treated MG2. Immunohistology on frozen sections of human salivary glands showed that MAb PANH2 selectively labeled mucous cells, whereas MAb PANH3 labeled subpopulations of serous cells. Double-direct immunofluorescence staining with PANH2 and PANH3 demonstrated that the staining pattems were non-overlapping. The development of these antibody probes will facilitate studies of mucin expression in diseases of salivary glands. [ABSTRACT FROM AUTHOR]

Published
1996
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20. Expression of blood group antigen-related carbohydrates by human gingival epithelia.

Author

Mackenzie, I. C., Dabelsteen, E., and Mandel, U.

Subjects
ANTIGENS, IMMUNOGLOBULINS, CARBOHYDRATES, EPITHELIAL cells, EPITOPES, GINGIVA
Abstract

A panel of monoclonal antibodies was used to examine differentiation-related carbohydrate structures on the surfaces of gingival epithelial cells. The patterns of binding observed indicate distinct differences in the expression of the epitopes examined for three regions of the gingival epithelia corresponding approximately to the regions defined anatomically as the junctional, oral sulcular and oral epithelia. However, epitheium with the staining pattern of oral sulcular epithelium consistently extended beyond the sulcular region to cover the gingival crest and often the uppermost pan of the oral aspect of the gingiva. Differential staining of basal and suprabasal cells indicated an unusual pattern of differentiation of the junctional epithelium. The phenotype of this epithelium appears to differ from patterns reported for any other oral epithelium and the possible functional significance of this difference is discussed. [ABSTRACT FROM AUTHOR]

Published
1989
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24. A universal GlycoDesign for lysosomal replacement enzymes to improve circulation time and biodistribution.

Author

Chen YH, Tian W, Yasuda M, Ye Z, Song M, Mandel U, Kristensen C, Povolo L, Marques ARA, Čaval T, Heck AJR, Sampaio JL, Johannes L, Tsukimura T, Desnick R, Vakhrushev SY, Yang Z, and Clausen H

Abstract

Currently available enzyme replacement therapies for lysosomal storage diseases are limited in their effectiveness due in part to short circulation times and suboptimal biodistribution of the therapeutic enzymes. We previously engineered Chinese hamster ovary (CHO) cells to produce α-galactosidase A (GLA) with various N-glycan structures and demonstrated that elimination of mannose-6-phosphate (M6P) and conversion to homogeneous sialylated N-glycans prolonged circulation time and improved biodistribution of the enzyme following a single-dose infusion into Fabry mice. Here, we confirmed these findings using repeated infusions of the glycoengineered GLA into Fabry mice and further tested whether this glycoengineering approach, Long-Acting-GlycoDesign (LAGD), could be implemented on other lysosomal enzymes. LAGD-engineered CHO cells stably expressing a panel of lysosomal enzymes [aspartylglucosamine (AGA), beta-glucuronidase (GUSB), cathepsin D (CTSD), tripeptidyl peptidase (TPP1), alpha-glucosidase (GAA) or iduronate 2-sulfatase (IDS)] successfully converted all M6P-containing N-glycans to complex sialylated N-glycans. The resulting homogenous glycodesigns enabled glycoprotein profiling by native mass spectrometry. Notably, LAGD extended the plasma half-life of all three enzymes tested (GLA, GUSB, AGA) in wildtype mice. LAGD may be widely applicable to lysosomal replacement enzymes to improve their circulatory stability and therapeutic efficacy., Competing Interests: A patent application has been filed by the University of Copenhagen. GlycoDisplay ApS has license rights to the patent application. ZY, WT, CK, and HC are named co-inventors, and ZY, CK, and HC have financial interests in GlycoDisplay ApS. Y-HC is an employee of GlycoDisplay ApS. RD is a Consultant to Genzyme-Sanofi and Sangamo Therapeutics, Inc. He owns founder stock in Amicus Therapeutics and options for Sangmo Therapeutics, Inc. and receives royalities from Genzyme-Sanofi. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Chen, Tian, Yasuda, Ye, Song, Mandel, Kristensen, Povolo, Marques, Čaval, Heck, Sampaio, Johannes, Tsukimura, Desnick, Vakhrushev, Yang and Clausen.)

Published
2023
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25. Display of the human mucinome with defined O-glycans by gene engineered cells.

Author

Nason R, Büll C, Konstantinidi A, Sun L, Ye Z, Halim A, Du W, Sørensen DM, Durbesson F, Furukawa S, Mandel U, Joshi HJ, Dworkin LA, Hansen L, David L, Iverson TM, Bensing BA, Sullam PM, Varki A, Vries E, de Haan CAM, Vincentelli R, Henrissat B, Vakhrushev SY, Clausen H, and Narimatsu Y

Subjects
Genetic Engineering, Glycosylation, HEK293 Cells, Humans, Microbiota, Mucin-1 genetics, Mucin-1 metabolism, Mucins metabolism, Mucous Membrane metabolism, Polysaccharides genetics, Polysaccharides metabolism
Abstract

Mucins are a large family of heavily O-glycosylated proteins that cover all mucosal surfaces and constitute the major macromolecules in most body fluids. Mucins are primarily defined by their variable tandem repeat (TR) domains that are densely decorated with different O-glycan structures in distinct patterns, and these arguably convey much of the informational content of mucins. Here, we develop a cell-based platform for the display and production of human TR O-glycodomains (~200 amino acids) with tunable structures and patterns of O-glycans using membrane-bound and secreted reporters expressed in glycoengineered HEK293 cells. Availability of defined mucin TR O-glycodomains advances experimental studies into the versatile role of mucins at the interface with pathogenic microorganisms and the microbiome, and sparks new strategies for molecular dissection of specific roles of adhesins, glycoside hydrolases, glycopeptidases, viruses and other interactions with mucin TRs as highlighted by examples.

Published
2021
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26. Golgi maturation-dependent glycoenzyme recycling controls glycosphingolipid biosynthesis and cell growth via GOLPH3.

Author

Rizzo R, Russo D, Kurokawa K, Sahu P, Lombardi B, Supino D, Zhukovsky MA, Vocat A, Pothukuchi P, Kunnathully V, Capolupo L, Boncompain G, Vitagliano C, Zito Marino F, Aquino G, Montariello D, Henklein P, Mandrich L, Botti G, Clausen H, Mandel U, Yamaji T, Hanada K, Budillon A, Perez F, Parashuraman S, Hannun YA, Nakano A, Corda D, D'Angelo G, and Luini A

Subjects
Cells, Cultured, HeLa Cells, Humans, Lysosomes metabolism, Membrane Proteins genetics, Oncogene Proteins genetics, Oncogene Proteins metabolism, Signal Transduction, Cell Proliferation, Glycosphingolipids biosynthesis, Golgi Apparatus metabolism, Membrane Proteins metabolism
Abstract

Glycosphingolipids are important components of the plasma membrane where they modulate the activities of membrane proteins including signalling receptors. Glycosphingolipid synthesis relies on competing reactions catalysed by Golgi-resident enzymes during the passage of substrates through the Golgi cisternae. The glycosphingolipid metabolic output is determined by the position and levels of the enzymes within the Golgi stack, but the mechanisms that coordinate the intra-Golgi localisation of the enzymes are poorly understood. Here, we show that a group of sequentially-acting enzymes operating at the branchpoint among glycosphingolipid synthetic pathways binds the Golgi-localised oncoprotein GOLPH3. GOLPH3 sorts these enzymes into vesicles for intra-Golgi retro-transport, acting as a component of the cisternal maturation mechanism. Through these effects, GOLPH3 controls the sub-Golgi localisation and the lysosomal degradation rate of specific enzymes. Increased GOLPH3 levels, as those observed in tumours, alter glycosphingolipid synthesis and plasma membrane composition thereby promoting mitogenic signalling and cell proliferation. These data have medical implications as they outline a novel oncogenic mechanism of action for GOLPH3 based on glycosphingolipid metabolism., (© 2021 The Authors.)

Published
2021
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27. Isoforms of MUC16 activate oncogenic signaling through EGF receptors to enhance the progression of pancreatic cancer.

Author

Thomas D, Sagar S, Liu X, Lee HR, Grunkemeyer JA, Grandgenett PM, Caffrey T, O'Connell KA, Swanson B, Marcos-Silva L, Steentoft C, Wandall HH, Maurer HC, Peng XL, Yeh JJ, Qiu F, Yu F, Madiyalakan R, Olive KP, Mandel U, Clausen H, Hollingsworth MA, and Radhakrishnan P

Subjects
Adenocarcinoma genetics, Adenocarcinoma immunology, Adenocarcinoma pathology, Animals, Antibodies, Monoclonal pharmacology, CA-125 Antigen immunology, Carcinogenesis immunology, Carcinoma, Pancreatic Ductal genetics, Carcinoma, Pancreatic Ductal immunology, Carcinoma, Pancreatic Ductal pathology, Cell Line, Tumor, Cell Proliferation genetics, Disease Progression, ErbB Receptors antagonists & inhibitors, ErbB Receptors immunology, Gene Expression Regulation, Neoplastic drug effects, Humans, Membrane Proteins antagonists & inhibitors, Membrane Proteins immunology, Mice, Neoplasm Metastasis, Protein Isoforms genetics, Protein Isoforms immunology, Signal Transduction, Adenocarcinoma drug therapy, CA-125 Antigen genetics, Carcinogenesis genetics, Carcinoma, Pancreatic Ductal drug therapy, ErbB Receptors genetics, Membrane Proteins genetics
Abstract

Aberrant expression of CA125/MUC16 is associated with pancreatic ductal adenocarcinoma (PDAC) progression and metastasis. However, knowledge of the contribution of MUC16 to pancreatic tumorigenesis is limited. Here, we show that MUC16 expression is associated with disease progression, basal-like and squamous tumor subtypes, increased tumor metastasis, and short-term survival of PDAC patients. MUC16 enhanced tumor malignancy through the activation of AKT and GSK3β oncogenic signaling pathways. Activation of these oncogenic signaling pathways resulted in part from increased interactions between MUC16 and epidermal growth factor (EGF)-type receptors, which were enhanced for aberrant glycoforms of MUC16. Treatment of PDAC cells with monoclonal antibody (mAb) AR9.6 significantly reduced MUC16-induced oncogenic signaling. mAb AR9.6 binds to a unique conformational epitope on MUC16, which is influenced by O-glycosylation. Additionally, treatment of PDAC tumor-bearing mice with either mAb AR9.6 alone or in combination with gemcitabine significantly reduced tumor growth and metastasis. We conclude that the aberrant expression of MUC16 enhances PDAC progression to an aggressive phenotype by modulating oncogenic signaling through ErbB receptors. Anti-MUC16 mAb AR9.6 blocks oncogenic activities and tumor growth and could be a novel immunotherapeutic agent against MUC16-mediated PDAC tumor malignancy., Competing Interests: Declaration of interests M.A.H. and P.R. have an equity interest in OncoCare Therapeutics. R.M. is employed by Quest PharmaTech and has an equity interest in this company. All other authors declare no competing interests., (Copyright © 2020 The American Society of Gene and Cell Therapy. Published by Elsevier Inc. All rights reserved.)

Published
2021
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28. Cancer-associated hypersialylated MUC1 drives the differentiation of human monocytes into macrophages with a pathogenic phenotype.

Author

Beatson R, Graham R, Grundland Freile F, Cozzetto D, Kannambath S, Pfeifer E, Woodman N, Owen J, Nuamah R, Mandel U, Pinder S, Gillett C, Noll T, Bouybayoune I, Taylor-Papadimitriou J, and Burchell JM

Subjects
Breast Neoplasms genetics, Breast Neoplasms metabolism, Cell Differentiation, Cell Line, Tumor, Female, Gene Expression Regulation, Neoplastic, Humans, Mucin-1 genetics, Macrophages physiology, Monocytes physiology, Mucin-1 metabolism
Abstract

The tumour microenvironment plays a crucial role in the growth and progression of cancer, and the presence of tumour-associated macrophages (TAMs) is associated with poor prognosis. Recent studies have demonstrated that TAMs display transcriptomic, phenotypic, functional and geographical diversity. Here we show that a sialylated tumour-associated glycoform of the mucin MUC1, MUC1-ST, through the engagement of Siglec-9 can specifically and independently induce the differentiation of monocytes into TAMs with a unique phenotype that to the best of our knowledge has not previously been described. These TAMs can recruit and prolong the lifespan of neutrophils, inhibit the function of T cells, degrade basement membrane allowing for invasion, are inefficient at phagocytosis, and can induce plasma clotting. This macrophage phenotype is enriched in the stroma at the edge of breast cancer nests and their presence is associated with poor prognosis in breast cancer patients.

Published
2020
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30. A validated collection of mouse monoclonal antibodies to human glycosyltransferases functioning in mucin-type O-glycosylation.

Author

Steentoft C, Yang Z, Wang S, Ju T, Vester-Christensen MB, Festari MF, King SL, Moremen K, Larsen ISB, Goth CK, Schjoldager KT, Hansen L, Bennett EP, Mandel U, and Narimatsu Y

Subjects
Animals, Glycosylation, Glycosyltransferases deficiency, Glycosyltransferases genetics, HEK293 Cells, Humans, Mice, Reproducibility of Results, Antibodies, Monoclonal immunology, Antibody Specificity, Glycosyltransferases immunology, Glycosyltransferases metabolism, Mucins metabolism
Abstract

Complex carbohydrates serve a wide range of biological functions in cells and tissues, and their biosynthesis involves more than 200 distinct glycosyltransferases (GTfs) in human cells. The kinetic properties, cellular expression patterns and subcellular topology of the GTfs direct the glycosylation capacity of a cell. Most GTfs are ER or Golgi resident enzymes, and their specific subcellular localization is believed to be distributed in the secretory pathway according to their sequential role in the glycosylation process, although detailed knowledge for individual enzymes is still highly fragmented. Progress in quantitative transcriptome and proteome analyses has greatly advanced our understanding of the cellular expression of this class of enzymes, but availability of appropriate antibodies for in situ monitoring of expression and subcellular topology have generally been limited. We have previously used catalytically active GTfs produced as recombinant truncated secreted proteins in insect cells for generation of mouse monoclonal antibodies (mAbs) to human enzymes primarily involved in mucin-type O-glycosylation. These mAbs can be used to probe subcellular topology of active GTfs in cells and tissues as well as their presence in body fluids. Here, we present several new mAbs to human GTfs and provide a summary of our entire collection of mAbs, available to the community. Moreover, we present validation of specificity for many of our mAbs using human cell lines with CRISPR/Cas9 or zinc finger nuclease (ZFN) knockout and knockin of relevant GTfs., (© The Author(s) 2019. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2019
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31. An Atlas of Human Glycosylation Pathways Enables Display of the Human Glycome by Gene Engineered Cells.

Author

Narimatsu Y, Joshi HJ, Nason R, Van Coillie J, Karlsson R, Sun L, Ye Z, Chen YH, Schjoldager KT, Steentoft C, Furukawa S, Bensing BA, Sullam PM, Thompson AJ, Paulson JC, Büll C, Adema GJ, Mandel U, Hansen L, Bennett EP, Varki A, Vakhrushev SY, Yang Z, and Clausen H

Subjects
Epitopes genetics, Epitopes immunology, Glycosylation, Glycosyltransferases genetics, HEK293 Cells, Humans, Oligosaccharides genetics, Polysaccharides classification, Polysaccharides genetics, Polysaccharides immunology, Proteins immunology, Genetic Engineering, Metabolic Networks and Pathways genetics, Polysaccharides chemistry, Proteins genetics
Abstract

The structural diversity of glycans on cells-the glycome-is vast and complex to decipher. Glycan arrays display oligosaccharides and are used to report glycan hapten binding epitopes. Glycan arrays are limited resources and present saccharides without the context of other glycans and glycoconjugates. We used maps of glycosylation pathways to generate a library of isogenic HEK293 cells with combinatorially engineered glycosylation capacities designed to display and dissect the genetic, biosynthetic, and structural basis for glycan binding in a natural context. The cell-based glycan array is self-renewable and reports glycosyltransferase genes required (or blocking) for interactions through logical sequential biosynthetic steps, which is predictive of structural glycan features involved and provides instructions for synthesis, recombinant production, and genetic dissection strategies. Broad utility of the cell-based glycan array is demonstrated, and we uncover higher order binding of microbial adhesins to clustered patches of O-glycans organized by their presentation on proteins., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published
2019
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32. Exploring Regulation of Protein O-Glycosylation in Isogenic Human HEK293 Cells by Differential O-Glycoproteomics.

Author

Narimatsu Y, Joshi HJ, Schjoldager KT, Hintze J, Halim A, Steentoft C, Nason R, Mandel U, Bennett EP, Clausen H, and Vakhrushev SY

Subjects
Glycopeptides metabolism, Glycosylation, HEK293 Cells, Hep G2 Cells, Humans, Proteome metabolism, Glycomics, Proteomics
Abstract

Most proteins trafficking the secretory pathway of metazoan cells will acquire GalNAc-type O-glycosylation. GalNAc-type O-glycosylation is differentially regulated in cells by the expression of a repertoire of up to twenty genes encoding polypeptide GalNAc-transferase isoforms (GalNAc-Ts) that initiate O-glycosylation. These GalNAc-Ts orchestrate the positions and patterns of O-glycans on proteins in coordinated, but poorly understood ways - guided partly by the kinetic properties and substrate specificities of their catalytic domains, as well as by modulatory effects of their unique GalNAc-binding lectin domains. Here, we provide the hereto most comprehensive characterization of nonredundant contributions of individual GalNAc-T isoforms to the O-glycoproteome of the human HEK293 cell using quantitative differential O-glycoproteomics on a panel of isogenic HEK293 cells with knockout of GalNAc-T genes ( GALNT1 , T2 , T3 , T7 , T10 , or T11 ). We confirm that a major part of the O-glycoproteome is covered by redundancy, whereas distinct O-glycosite subsets are covered by nonredundant GalNAc-T isoform-specific functions. We demonstrate that the GalNAc-T7 and T10 isoforms function in follow-up of high-density O-glycosylated regions, and that GalNAc-T11 has highly restricted functions and essentially only serves the low-density lipoprotein-related receptors in linker regions (C 6 XXXTC 1 ) between the ligand-binding repeats., (© 2019 Narimatsu et al.)

Published
2019
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33. The glycosylation design space for recombinant lysosomal replacement enzymes produced in CHO cells.

Author

Tian W, Ye Z, Wang S, Schulz MA, Van Coillie J, Sun L, Chen YH, Narimatsu Y, Hansen L, Kristensen C, Mandel U, Bennett EP, Jabbarzadeh-Tabrizi S, Schiffmann R, Shen JS, Vakhrushev SY, Clausen H, and Yang Z

Subjects
Animals, CHO Cells, Cricetinae, Cricetulus, Disease Models, Animal, Fabry Disease drug therapy, Fabry Disease enzymology, Fabry Disease metabolism, Glycosylation, Male, Mice, Mice, Knockout, Recombinant Proteins therapeutic use, alpha-Galactosidase therapeutic use, Lysosomes enzymology
Abstract

Lysosomal replacement enzymes are essential therapeutic options for rare congenital lysosomal enzyme deficiencies, but enzymes in clinical use are only partially effective due to short circulatory half-life and inefficient biodistribution. Replacement enzymes are primarily taken up by cell surface glycan receptors, and glycan structures influence uptake, biodistribution, and circulation time. It has not been possible to design and systematically study effects of different glycan features. Here we present a comprehensive gene engineering screen in Chinese hamster ovary cells that enables production of lysosomal enzymes with N-glycans custom designed to affect key glycan features guiding cellular uptake and circulation. We demonstrate distinct circulation time and organ distribution of selected glycoforms of α-galactosidase A in a Fabry disease mouse model, and find that an α2-3 sialylated glycoform designed to eliminate uptake by the mannose 6-phosphate and mannose receptors exhibits improved circulation time and targeting to hard-to-reach organs such as heart. The developed design matrix and engineered CHO cell lines enables systematic studies towards improving enzyme replacement therapeutics.

Published
2019
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34. A strategy for generating cancer-specific monoclonal antibodies to aberrant O-glycoproteins: identification of a novel dysadherin-Tn antibody.

Author

Steentoft C, Fuhrmann M, Battisti F, Van Coillie J, Madsen TD, Campos D, Halim A, Vakhrushev SY, Joshi HJ, Schreiber H, Mandel U, and Narimatsu Y

Subjects
Animals, Antibodies, Monoclonal immunology, Cell Line, Tumor, Epitopes immunology, Epitopes metabolism, Glycoproteins immunology, Humans, Mice, Neoplasms immunology, Neoplasms pathology, Antibodies, Monoclonal analysis, Antibodies, Monoclonal biosynthesis, Glycoproteins metabolism, Neoplasms metabolism
Abstract

Successful application of potent antibody-based T-cell engaging immunotherapeutic strategies is currently limited mainly to hematological cancers. One major reason is the lack of well-characterized antigens on solid tumors with sufficient cancer specific expression. Aberrantly O-glycosylated proteins contain promising cancer-specific O-glycopeptide epitopes suitable for immunotherapeutic applications, but currently only few examples of such antibody epitopes have been identified. We previously showed that chimeric antigen receptor T-cells directed towards aberrantly O-glycosylated MUC1 can control malignant growth in a mouse model. Here, we present a discovery platform for the generation of cancer-specific monoclonal antibodies targeting aberrant O-glycoproteins. The strategy is based on cancer cell lines engineered to homogeneously express the truncated Tn O-glycoform, the so-called SimpleCells. We used SimpleCells of different cancer origin to elicit monoclonal antibodies with selectivity for aberrant O-glycoproteins. For validation we selected and characterized one monoclonal antibody (6C5) directed to a Tn-glycopeptide in dysadherin (FXYD5), known to be upregulated in cancer and promote metastasis. While dysadherin is widely expressed also in normal cells, we demonstrated that the 6C5 epitope is specifically expressed in cancer., (© The Author(s) 2019. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2019
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35. Probing the contribution of individual polypeptide GalNAc-transferase isoforms to the O -glycoproteome by inducible expression in isogenic cell lines.

Author

Hintze J, Ye Z, Narimatsu Y, Madsen TD, Joshi HJ, Goth CK, Linstedt A, Bachert C, Mandel U, Bennett EP, Vakhrushev SY, and Schjoldager KT

Subjects
Amino Acid Sequence, Glycosylation, HEK293 Cells, Humans, Isoenzymes metabolism, Proteomics methods, Polypeptide N-acetylgalactosaminyltransferase, N-Acetylgalactosaminyltransferases metabolism, Proteome metabolism
Abstract

The GalNAc-type O -glycoproteome is orchestrated by a large family of polypeptide GalNAc-transferase isoenzymes (GalNAc-Ts) with partially overlapping contributions to the O -glycoproteome besides distinct nonredundant functions. Increasing evidence indicates that individual GalNAc-Ts co-regulate and fine-tune specific protein functions in health and disease, and deficiencies in individual GALNT genes underlie congenital diseases with distinct phenotypes. Studies of GalNAc-T specificities have mainly been performed with in vitro enzyme assays using short peptide substrates, but recently quantitative differential O -glycoproteomics of isogenic cells with and without GALNT genes has enabled a more unbiased exploration of the nonredundant contributions of individual GalNAc-Ts. Both approaches suggest that fairly small subsets of O -glycosites are nonredundantly regulated by specific GalNAc-Ts, but how these isoenzymes orchestrate regulation among competing redundant substrates is unclear. To explore this, here we developed isogenic cell model systems with Tet-On inducible expression of two GalNAc-T genes, GALNT2 and GALNT11 , in a knockout background in HEK293 cells. Using quantitative O -glycoproteomics with tandem-mass-tag (TMT) labeling, we found that isoform-specific glycosites are glycosylated in a dose-dependent manner and that induction of GalNAc-T2 or -T11 produces discrete glycosylation effects without affecting the major part of the O -glycoproteome. These results support previous findings indicating that individual GalNAc-T isoenzymes can serve in fine-tuned regulation of distinct protein functions., (© 2018 Hintze et al.)

Published
2018
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36. Expression of the O -Glycosylation Enzyme GalNAc-T3 in the Equatorial Segment Correlates with the Quality of Spermatozoa.

Author

Nygaard MB, Herlihy AS, Jeanneau C, Nielsen JE, Bennett EP, Jørgensen N, Clausen H, Mandel U, Rajpert-De Meyts E, and Almstrup K

Subjects
Adult, Asthenozoospermia genetics, Humans, Male, N-Acetylgalactosaminyltransferases genetics, Spermatozoa cytology, Spermatozoa physiology, Polypeptide N-acetylgalactosaminyltransferase, Asthenozoospermia metabolism, N-Acetylgalactosaminyltransferases metabolism, Sperm Motility, Spermatozoa metabolism
Abstract

We question whether the expression of GalNAc-T3, the only known O -GalNAc-transferase present in germ cells, is correlated with qualitative and functional parameters of spermatozoa. We investigated the expression of GalNAc-T3 in ejaculated spermatozoa with immunocytochemistry in swim-up purified and acrosome-reacted spermatozoa from quality-control semen donors and in semen samples from 206 randomly selected men representing a broad spectrum of semen quality. Using donor ejaculates and immunofluorescence detection we found that expression of GalNAc-T3 and the presence of the immature O -glycans Tn and T localized to the equatorial segment of spermatozoa. The proportion of GalNAc-T3-positive spermatozoa in the ejaculate increased after swim-up and appeared unaffected by induction of acrosomal exocytosis. The fraction of spermatozoa with equatorial expression of GalNAc-T3 correlated with classical semen parameters (concentration p = 9 × 10 -6 , morphology p = 7 × 10 -8 , and motility p = 1.8 × 10 -5 ) and was significantly lower in men with oligoteratoasthenozoospermia ( p = 0.0048). In conclusion, GalNAc-T3 was highly expressed by motile spermatozoa and the expression correlated positively with the classical semen parameters. Therefore, GalNAc-T3 expression seems related to the quality of the spermatozoa, and we propose that reduced expression of GalNAc-T3 may lead to impaired O -glycosylation of proteins and thereby abnormal maturation and reduced functionality of the spermatozoa.

Published
2018
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37. Glycan-directed CAR-T cells.

Author

Steentoft C, Migliorini D, King TR, Mandel U, June CH, and Posey AD Jr

Subjects
Animals, Humans, Immunotherapy, Neoplasms therapy, Neoplasms immunology, Polysaccharides immunology, Receptors, Antigen, T-Cell immunology
Abstract

Cancer immunotherapy is rapidly advancing in the treatment of a variety of hematopoietic cancers, including pediatric acute lymphoblastic leukemia and diffuse large B cell lymphoma, with chimeric antigen receptor (CAR)-T cells. CARs are genetically encoded artificial T cell receptors that combine the antigen specificity of an antibody with the machinery of T cell activation. However, implementation of CAR technology in the treatment of solid tumors has been progressing much slower. Solid tumors are characterized by a number of challenges that need to be overcome, including cellular heterogeneity, immunosuppressive tumor microenvironment (TME), and, in particular, few known cancer-specific targets. Post-translational modifications that differentially occur in malignant cells generate valid cell surface, cancer-specific targets for CAR-T cells. We previously demonstrated that CAR-T cells targeting an aberrant O-glycosylation of MUC1, a common cancer marker associated with changes in cell adhesion, tumor growth and poor prognosis, could control malignant growth in mouse models. Here, we discuss the field of glycan-directed CAR-T cells and review the different classes of antibodies specific for glycan-targeting, including the generation of high affinity O-glycopeptide antibodies. Finally, we discuss historic and recently investigated glycan targets for CAR-T cells and provide our perspective on how targeting the tumor glycoproteome and/or glycome will improve CAR-T immunotherapy.

Published
2018
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38. Mucins and Truncated O -Glycans Unveil Phenotypic Discrepancies between Serous Ovarian Cancer Cell Lines and Primary Tumours.

Author

Coelho R, Marcos-Silva L, Mendes N, Pereira D, Brito C, Jacob F, Steentoft C, Mandel U, Clausen H, David L, and Ricardo S

Subjects
Animals, Biomarkers, Tumor genetics, Biomarkers, Tumor metabolism, CA-125 Antigen genetics, Cell Line, Tumor, Cystadenocarcinoma, Serous genetics, Cystadenocarcinoma, Serous pathology, Female, Gene Expression Profiling, Glycosylation, Humans, Membrane Proteins genetics, Mice, Nude, Molecular Chaperones genetics, Molecular Chaperones metabolism, Mucin-1 genetics, Ovarian Neoplasms genetics, Ovarian Neoplasms pathology, Phenotype, Transplantation, Heterologous, CA-125 Antigen metabolism, Cystadenocarcinoma, Serous metabolism, Membrane Proteins metabolism, Mucin-1 metabolism, Ovarian Neoplasms metabolism, Polysaccharides metabolism
Abstract

Optimal research results rely on the selection of cellular models capable of recapitulating the characteristics of primary tumours from which they originate. The expression of mucins (MUC16 and MUC1) and truncated O -glycans (Tn, STn and T) represents a characteristic footprint of serous ovarian carcinomas (SOCs). Therefore, selecting ovarian cancer (OVCA) cell lines that reflect this phenotype is crucial to explore the putative biological role of these biomarkers in the SOC setting. Here, we investigated a panel of OVCA cell lines commonly used as SOC models, and tested whether, when cultured in 2D and 3D conditions, these recapitulate the mucin and O -glycan expression profiles of SOCs. We further explored the role of truncating the O -glycosylation capacity in OVCAR3 cells through knockout of the COSMC chaperone, using in vitro and in vivo assays. We found that the majority of OVCA cell lines of serous origin do not share the mucin and truncated O -glycan footprint of SOCs, although 3D cultures showed a higher resemblance. We also found that genetic truncation of the O -glycosylation capacity of OVCAR3 cells did not enhance oncogenic features either in vitro or in vivo. This study underscores the importance of well-characterized cellular models to study specific features of ovarian cancer.

Published
2018
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39. De novo expression of human polypeptide N -acetylgalactosaminyltransferase 6 (GalNAc-T6) in colon adenocarcinoma inhibits the differentiation of colonic epithelium.

Author

Lavrsen K, Dabelsteen S, Vakhrushev SY, Levann AMR, Haue AD, Dylander A, Mandel U, Hansen L, Frödin M, Bennett EP, and Wandall HH

Subjects
Adenocarcinoma genetics, Adenocarcinoma pathology, Cell Line, Tumor, Colon pathology, Colonic Neoplasms genetics, Colonic Neoplasms pathology, Glycosylation, Humans, Intestinal Mucosa pathology, N-Acetylgalactosaminyltransferases genetics, Neoplasm Proteins genetics, Adenocarcinoma enzymology, Cell Differentiation, Colon enzymology, Colonic Neoplasms enzymology, Gene Expression Regulation, Enzymologic, Gene Expression Regulation, Neoplastic, Intestinal Mucosa enzymology, N-Acetylgalactosaminyltransferases biosynthesis, Neoplasm Proteins biosynthesis
Abstract

Aberrant expression of O -glycans is a hallmark of epithelial cancers. Mucin-type O- glycosylation is initiated by a large family of UDP-GalNAc:polypeptide N -acetylgalactosaminyltransferases (GalNAc-Ts) that target different proteins and are differentially expressed in cells and organs. Here, we investigated the expression patterns of all of the GalNAc-Ts in colon cancer by analyzing transcriptomic data. We found that GalNAc-T6 was highly up-regulated in colon adenocarcinomas but absent in normal-appearing adjacent colon tissue. These results were verified by immunohistochemistry, suggesting that GalNAc-T6 plays a role in colon carcinogenesis. To investigate the function of GalNAc-T6 in colon cancer, we used precise gene targeting to produce isogenic colon cancer cell lines with a knockout/rescue system for GALNT6 GalNAc-T6 expression was associated with a cancer-like, dysplastic growth pattern, whereas GALNT6 knockout cells showed a more normal differentiation pattern, reduced proliferation, normalized cell-cell adhesion, and formation of crypts in tissue cultures. O- Glycoproteomic analysis of the engineered cell lines identified a small set of GalNAc-T6-specific targets, suggesting that this isoform has unique cellular functions. In support of this notion, the genetically and functionally closely related GalNAc-T3 homolog did not show compensatory functionality for effects observed for GalNAc-T6. Taken together, these data strongly suggest that aberrant GalNAc-T6 expression and site-specific glycosylation is involved in oncogenic transformation., (© 2018 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published
2018
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40. Generation and characterization of a monoclonal antibody to the cytoplasmic tail of MUC16.

Author

Gipson IK, Mandel U, Menon B, Michaud S, Tisdale A, Campos D, and Clausen H

Subjects
Animals, CA-125 Antigen chemistry, Female, HeLa Cells, Humans, Membrane Proteins chemistry, Mice, Mice, Inbred BALB C, Protein Domains, Antibodies, Monoclonal immunology, Biomarkers, Tumor immunology, CA-125 Antigen immunology, Membrane Proteins immunology
Abstract

MUC16 is a large transmembrane mucin expressed on the apical surfaces of the epithelium covering the ocular surface, respiratory system and female reproductive tract. The transmembrane mucin is overexpressed by ovarian carcinomas, it is one of the most frequently used diagnostic markers for the disease and it is considered a promising target for immunotherapeutic intervention. Immunodetection of the mucin has to date been through antibodies that recognize its exceptionally large ectodomain. Similar to other membrane anchored mucins, MUC16 has a short cytoplasmic tail (CT), but studies of the biological relevance of the C-terminal domain of MUC16 has been limited by lack of availability of monoclonal antibodies that recognize the native CT. Here, we report the development of a novel monoclonal antibody to the CT region of the molecule that recognizes native MUC16 and its enzymatically released CT region. The antibody is useful for immunoprecipitation of the released CT domain as demonstrated with the OVCAR3 ovarian cancer cell line and can be used for detailed cytolocalization in cells as well as in frozen sections of ocular surface and uterine epithelium., (© The Author 2017. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2017
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41. Engineered CAR T Cells Targeting the Cancer-Associated Tn-Glycoform of the Membrane Mucin MUC1 Control Adenocarcinoma.

Author

Posey AD Jr, Schwab RD, Boesteanu AC, Steentoft C, Mandel U, Engels B, Stone JD, Madsen TD, Schreiber K, Haines KM, Cogdill AP, Chen TJ, Song D, Scholler J, Kranz DM, Feldman MD, Young R, Keith B, Schreiber H, Clausen H, Johnson LA, and June CH

Subjects
Adenocarcinoma immunology, Animals, Cell Line, Tumor, Cytotoxicity, Immunologic, Genetic Engineering, Glycosylation, Humans, Jurkat Cells, Mice, Mice, Inbred Strains, Mucin-1 chemistry, Receptors, Antigen, T-Cell genetics, Receptors, Antigen, T-Cell metabolism, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Xenograft Model Antitumor Assays, Adenocarcinoma therapy, Epitopes, T-Lymphocyte immunology, Immunotherapy methods, Mucin-1 immunology, T-Lymphocytes physiology
Abstract

Genetically modified T cells expressing chimeric antigen receptors (CARs) demonstrate robust responses against lineage restricted, non-essential targets in hematologic cancers. However, in solid tumors, the full potential of CAR T cell therapy is limited by the availability of cell surface antigens with sufficient cancer-specific expression. The majority of CAR targets have been normal self-antigens on dispensable hematopoietic tissues or overexpressed shared antigens. Here, we established that abnormal self-antigens can serve as targets for tumor rejection. We developed a CAR that recognized cancer-associated Tn glycoform of MUC1, a neoantigen expressed in a variety of cancers. Anti-Tn-MUC1 CAR T cells demonstrated target-specific cytotoxicity and successfully controlled tumor growth in xenograft models of T cell leukemia and pancreatic cancer. These findings demonstrate the therapeutic efficacy of CAR T cells directed against Tn-MUC1 and present aberrantly glycosylated antigens as a novel class of targets for tumor therapy with engineered T cells., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published
2016
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42. Mucins and associated glycan signatures in colon adenoma-carcinoma sequence: Prospective pathological implication(s) for early diagnosis of colon cancer.

Author

Krishn SR, Kaur S, Smith LM, Johansson SL, Jain M, Patel A, Gautam SK, Hollingsworth MA, Mandel U, Clausen H, Lo WC, Fan WT, Manne U, and Batra SK

Subjects
Biomarkers, Tumor metabolism, Early Detection of Cancer, Humans, Immunohistochemistry, Immunophenotyping, Multivariate Analysis, Precancerous Conditions metabolism, Precancerous Conditions pathology, Adenoma metabolism, Adenoma pathology, Colonic Neoplasms metabolism, Colonic Neoplasms pathology, Mucins metabolism, Polysaccharides metabolism
Abstract

Development of biomarkers that detect early stage resectable premalignant lesions of colon can provide critical aid in the prevention of colorectal cancer. Recent lines of evidence suggest the utility of mucin expression to predict malignant transformation of colon pre-neoplastic lesions. In this study, we investigated the combined expression of multiple mucins and mucin-associated glycans during the adenoma-carcinoma sequence of colon cancer progression. Further, we evaluated their applicability as markers for differentiating adenomas/adenocarcinomas from hyperplastic polyps. Immunohistochemical analyses performed on colon disease tissue microarrays revealed downregulation of MUC2 and MUC4 expression (p < 0.0001) while MUC1 and MUC5AC expressions were upregulated (p = 0.01) during adenoma-adenocarcinoma progression. Expression of MUC17 was downregulated in inflamed tissues compared to normal tissues, but its increased expression differentiated adenomas (p = 0.0028) and adenocarcinomas (p = 0.025) from inflammation. Glycan epitope-Tn/STn on MUC1 showed higher expression in hyperplastic polyps (p = 0.023), adenomas (p = 0.042) and adenocarcinomas (p = 0.0096) compared to normal tissues. Multivariate regression analyses indicated that a combination of MUC2, MUC5AC, and MUC17 could effectively discriminate adenoma-adenocarcinoma from hyperplastic polyps. Altogether, a combined analysis of altered mucins and mucin-associated glycans is a useful approach to distinguish premalignant/malignant lesions of colon from benign polyps., (Copyright © 2016 Elsevier Ireland Ltd. All rights reserved.)

Published
2016
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43. A novel monoclonal antibody to a defined peptide epitope in MUC16.

Author

Marcos-Silva L, Ricardo S, Chen K, Blixt O, Arigi E, Pereira D, Høgdall E, Mandel U, Bennett EP, Vakhrushev SY, David L, and Clausen H

Subjects
Amino Acid Sequence, Animals, Antibodies, Monoclonal, Murine-Derived chemistry, CA-125 Antigen chemistry, CHO Cells, Cricetinae, Cricetulus, Epitopes chemistry, Female, Humans, Membrane Proteins chemistry, Mice, Mice, Inbred BALB C, Molecular Sequence Data, Antibodies, Monoclonal, Murine-Derived immunology, CA-125 Antigen immunology, Epitopes immunology, Membrane Proteins immunology
Abstract

The MUC16 mucin is overexpressed and aberrantly glycosylated in ovarian carcinomas. Immunodetection of circulating MUC16 is one of the most used cancer biomarker assays, but existing antibodies to MUC16 fail to distinguish normal and aberrant cancer glycoforms. Although all antibodies react with the tandem-repeat region, their epitopes appear to be conformational dependent and not definable by a short peptide. Aberrant glycoforms of MUC16 may constitute promising targets for diagnostic and immunotherapeutic intervention, and it is important to develop well-defined immunogens for induction of potent MUC16 immunity. Here, we developed a MUC16 vaccine based on a 1.7TR (264 aa) expressed in Escherichia coli and in vitro enzymatically glycosylated to generate the aberrant cancer-associated glycoform Tn. This vaccine elicited a potent serum IgG response in mice and we identified two major immunodominant linear peptide epitopes within the tandem repeat. We developed one monoclonal antibody, 5E11, reactive with a minimum epitope with the sequence FNTTER. This sequence contains potential N- and O-glycosylation sites and, interestingly, glycosylation blocked binding of 5E11. In immunochemistry of ovarian benign and cancer lesions, 5E11 showed similar reactivity as traditional MUC16 antibodies, suggesting that the epitope is not efficiently glycosylated. The study provides a vaccine design and immunodominant MUC16 TR epitopes., (© The Author 2015. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2015
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44. Probing the O-glycoproteome of gastric cancer cell lines for biomarker discovery.

Author

Campos D, Freitas D, Gomes J, Magalhães A, Steentoft C, Gomes C, Vester-Christensen MB, Ferreira JA, Afonso LP, Santos LL, Pinto de Sousa J, Mandel U, Clausen H, Vakhrushev SY, and Reis CA

Subjects
Aged, Aged, 80 and over, Biomarkers, Tumor blood, Cell Line, Tumor, Female, Glycoproteins blood, Humans, Male, Middle Aged, N-Acetylgalactosaminyltransferases blood, Proteome, Stomach Neoplasms blood, Polypeptide N-acetylgalactosaminyltransferase, Biomarkers, Tumor metabolism, Glycoproteins metabolism, N-Acetylgalactosaminyltransferases metabolism, Stomach Neoplasms metabolism
Abstract

Circulating O-glycoproteins shed from cancer cells represent important serum biomarkers for diagnostic and prognostic purposes. We have recently shown that selective detection of cancer-associated aberrant glycoforms of circulating O-glycoprotein biomarkers can increase specificity of cancer biomarker assays. However, the current knowledge of secreted and circulating O-glycoproteins is limited. Here, we used the COSMC KO "SimpleCell" (SC) strategy to characterize the O-glycoproteome of two gastric cancer SimpleCell lines (AGS, MKN45) as well as a gastric cell line (KATO III) which naturally expresses at least partially truncated O-glycans. Overall, we identified 499 O-glycoproteins and 1236 O-glycosites in gastric cancer SimpleCells, and a total 47 O-glycoproteins and 73 O-glycosites in the KATO III cell line. We next modified the glycoproteomic strategy to apply it to pools of sera from gastric cancer and healthy individuals to identify circulating O-glycoproteins with the STn glycoform. We identified 37 O-glycoproteins in the pool of cancer sera, and only nine of these were also found in sera from healthy individuals. Two identified candidate O-glycoprotein biomarkers (CD44 and GalNAc-T5) circulating with the STn glycoform were further validated as being expressed in gastric cancer tissue. A proximity ligation assay was used to show that CD44 was expressed with the STn glycoform in gastric cancer tissues. The study provides a discovery strategy for aberrantly glycosylated O-glycoproteins and a set of O-glycoprotein candidates with biomarker potential in gastric cancer., (© 2015 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published
2015
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45. The Breast Cancer-Associated Glycoforms of MUC1, MUC1-Tn and sialyl-Tn, Are Expressed in COSMC Wild-Type Cells and Bind the C-Type Lectin MGL.

Author

Beatson R, Maurstad G, Picco G, Arulappu A, Coleman J, Wandell HH, Clausen H, Mandel U, Taylor-Papadimitriou J, Sletmoen M, and Burchell JM

Subjects
Cell Line, Tumor, Female, Humans, Protein Binding, Antigens, Tumor-Associated, Carbohydrate metabolism, Breast Neoplasms metabolism, Lectins, C-Type metabolism, Mucin-1 metabolism
Abstract

Aberrant glycosylation occurs in the majority of human cancers and changes in mucin-type O-glycosylation are key events that play a role in the induction of invasion and metastases. These changes generate novel cancer-specific glyco-antigens that can interact with cells of the immune system through carbohydrate binding lectins. Two glyco-epitopes that are found expressed by many carcinomas are Tn (GalNAc-Ser/Thr) and STn (NeuAcα2,6GalNAc-Ser/Thr). These glycans can be carried on many mucin-type glycoproteins including MUC1. We show that the majority of breast cancers carry Tn within the same cell and in close proximity to extended glycan T (Galβ1,3GalNAc) the addition of Gal to the GalNAc being catalysed by the T synthase. The presence of active T synthase suggests that loss of the private chaperone for T synthase, COSMC, does not explain the expression of Tn and STn in breast cancer cells. We show that MUC1 carrying both Tn or STn can bind to the C-type lectin MGL and using atomic force microscopy show that they bind to MGL with a similar dead adhesion force. Tumour associated STn is associated with poor prognosis and resistance to chemotherapy in breast carcinomas, inhibition of DC maturation, DC apoptosis and inhibition of NK activity. As engagement of MGL in the absence of TLR triggering may lead to anergy, the binding of MUC1-STn to MGL may be in part responsible for some of the characteristics of STn expressing tumours.

Published
2015
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46. O-linked glycosylation of the mucin domain of the herpes simplex virus type 1-specific glycoprotein gC-1 is temporally regulated in a seed-and-spread manner.

Author

Nordén R, Halim A, Nyström K, Bennett EP, Mandel U, Olofsson S, Nilsson J, and Larson G

Subjects
Cell Line, Glycosylation, Herpes Simplex genetics, Herpesvirus 1, Human genetics, Humans, Sialyltransferases genetics, Herpes Simplex metabolism, Herpesvirus 1, Human metabolism, Sialyltransferases metabolism, Viral Envelope Proteins metabolism
Abstract

The herpes simplex virus type 1 (HSV-1) glycoprotein gC-1, participating in viral receptor interactions and immunity interference, harbors a mucin-like domain with multiple clustered O-linked glycans. Using HSV-1-infected diploid human fibroblasts, an authentic target for HSV-1 infection, and a protein immunoaffinity procedure, we enriched fully glycosylated gC-1 and a series of its biosynthetic intermediates. This fraction was subjected to trypsin digestion and a LC-MS/MS glycoproteomics approach. In parallel, we characterized the expression patterns of the 20 isoforms of human GalNAc transferases responsible for initiation of O-linked glycosylation. The gC-1 O-glycosylation was regulated in an orderly manner initiated by synchronous addition of one GalNAc unit each to Thr-87 and Thr-91 and one GalNAc unit to either Thr-99 or Thr-101, forming a core glycopeptide for subsequent additions of in all 11 GalNAc residues to selected Ser and Thr residues of the Thr-76-Lys-107 stretch of the mucin domain. The expression patterns of GalNAc transferases in the infected cells suggested that initial additions of GalNAc were carried out by initiating GalNAc transferases, in particular GalNAc-T2, whereas subsequent GalNAc additions were carried out by followup transferases, in particular GalNAc-T10. Essentially all of the susceptible Ser or Thr residues had to acquire their GalNAc units before any elongation to longer O-linked glycans of the gC-1-associated GalNAc units was permitted. Because the GalNAc occupancy pattern is of relevance for receptor binding of gC-1, the data provide a model to delineate biosynthetic steps of O-linked glycosylation of the gC-1 mucin domain in HSV-1-infected target cells., (© 2015 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published
2015
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47. A glycogene mutation map for discovery of diseases of glycosylation.

Author

Hansen L, Lind-Thomsen A, Joshi HJ, Pedersen NB, Have CT, Kong Y, Wang S, Sparso T, Grarup N, Vester-Christensen MB, Schjoldager K, Freeze HH, Hansen T, Pedersen O, Henrissat B, Mandel U, Clausen H, Wandall HH, and Bennett EP

Subjects
Chromosome Mapping, Databases, Genetic, Genetic Association Studies, Genome, Human, Genomic Instability, Glycosylation, Humans, Molecular Sequence Annotation, Mutation, Polymorphism, Single Nucleotide, Protein Processing, Post-Translational, Congenital Disorders of Glycosylation genetics, Glycosyltransferases genetics
Abstract

Glycosylation of proteins and lipids involves over 200 known glycosyltransferases (GTs), and deleterious defects in many of the genes encoding these enzymes cause disorders collectively classified as congenital disorders of glycosylation (CDGs). Most known CDGs are caused by defects in glycogenes that affect glycosylation globally. Many GTs are members of homologous isoenzyme families and deficiencies in individual isoenzymes may not affect glycosylation globally. In line with this, there appears to be an underrepresentation of disease-causing glycogenes among these larger isoenzyme homologous families. However, genome-wide association studies have identified such isoenzyme genes as candidates for different diseases, but validation is not straightforward without biomarkers. Large-scale whole-exome sequencing (WES) provides access to mutations in, for example, GT genes in populations, which can be used to predict and/or analyze functional deleterious mutations. Here, we constructed a draft of a functional mutational map of glycogenes, GlyMAP, from WES of a rather homogenous population of 2000 Danes. We cataloged all missense mutations and used prediction algorithms, manual inspection and in case of carbohydrate-active enzymes family GT27 experimental analysis of mutations to map deleterious mutations. GlyMAP (http://glymap.glycomics.ku.dk) provides a first global view of the genetic stability of the glycogenome and should serve as a tool for discovery of novel CDGs., (© The Author 2014. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2015
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48. Detection of glyco-mucin profiles improves specificity of MUC16 and MUC1 biomarkers in ovarian serous tumours.

Author

Ricardo S, Marcos-Silva L, Pereira D, Pinto R, Almeida R, Söderberg O, Mandel U, Clausen H, Felix A, Lunet N, and David L

Subjects
Adult, Aged, Aged, 80 and over, Female, Humans, Middle Aged, Ovarian Neoplasms diagnosis, Ovarian Neoplasms pathology, Protein Isoforms metabolism, Retrospective Studies, Biomarkers, Tumor metabolism, CA-125 Antigen metabolism, Membrane Proteins metabolism, Mucin-1 metabolism, Ovarian Neoplasms metabolism
Abstract

The CA125 assay detects circulating MUC16 and is one of the most widely used cancer biomarkers for the follow-up of ovarian cancer. We previously demonstrated that detection of aberrant cancer-associated glycoforms of MUC16 as well as MUC1 in circulation could improve the yield of these serum assays. Our aim was to refine ovarian cancer biomarkers by detection of aberrant glycoforms (Tn, STn, and T) of MUC16 and MUC1 in ovarian cancer tissue using Proximity Ligation Assays (PLA). We studied two series of serous ovarian tumours, a pilot series of 66 ovarian tumours (27 cystadenomas, 16 borderline tumours and 23 adenocarcinomas) from Centro Hospitalar S. João, Porto and a validation series of 89 ovarian tumours (17 cystadenomas, 25 borderline tumours and 47 adenocarcinomas) from the Portuguese Institute of Oncology Francisco Gentil, Lisbon. PLA reactions for MUC16/Tn, MUC16/STn, MUC1/Tn and MUC1/STn were negative in benign lesions but often positive in borderline and malignant lesions, in both series. An even better yield was obtained based on positivity for any of the four glyco-mucin profiles, further increasing sensitivity to 72% and 83% in the two series, respectively, with 100% specificity. The strategy is designated glyco-mucin profiling and provides strong support for development of PLA-based serum assays for early diagnosis., (Copyright © 2014 Federation of European Biochemical Societies. Published by Elsevier B.V. All rights reserved.)

Published
2015
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49. Characterization of binding epitopes of CA125 monoclonal antibodies.

Author

Marcos-Silva L, Narimatsu Y, Halim A, Campos D, Yang Z, Tarp MA, Pereira PJ, Mandel U, Bennett EP, Vakhrushev SY, Levery SB, David L, and Clausen H

Subjects
Animals, CA-125 Antigen chemistry, CA-125 Antigen metabolism, CHO Cells, Cricetinae, Cricetulus, Epitope Mapping, Glycosylation, Membrane Proteins chemistry, Membrane Proteins metabolism, Mice, Protein Binding, Protein Processing, Post-Translational, Protein Structure, Tertiary, Antibodies, Monoclonal, Murine-Derived chemistry, CA-125 Antigen immunology, Membrane Proteins immunology
Abstract

The most used cancer serum biomarker is the CA125 immunoassay for ovarian cancer that detects the mucin glycoprotein MUC16. Several monoclonal antibodies (mAbs) including OC125 and M11 are used in CA125 assays. However, despite considerable efforts, our knowledge of the molecular characteristics of the recognized epitopes and the role played by glycosylation has remained elusive. Here a comprehensive set of recombinant MUC16 tandem repeats (TRs) expressed in glycoengineered mammalian cells and E. coli, together with overlapping peptides, was used to probe antigen-binding epitopes. We present a complete analysis of N- and O-glycosylation sites of a MUC16 TR expressed in CHO cells and demonstrate that neither N- nor O-glycosylation appear to substantially influence binding of OC125 and M11 mAbs. A series of successive N- and C-terminal truncations of a MUC16 TR construct expressed in E. coli narrowed down the epitopes for OC125 and M11 to a segment containing parts of two consecutive SEA domains with a linker. Thus, a complete SEA domain is not required. These findings suggest that binding epitopes of mAbs OC125 and M11 are dependent on conformation but not on glycosylation. The availability of recombinant TR constructs with and without aberrant glycosylation now opens the way for vaccine studies.

Published
2014
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50. Expression of Mucin-1 in multiple myeloma and its precursors: correlation with glycosylation and subcellular localization.

Author

Andrulis M, Ellert E, Mandel U, Clausen H, Lehners N, Raab MS, Goldschmidt H, and Schwartz-Albiez R

Subjects
Cell Nucleus pathology, Epitopes metabolism, Glycosylation, Humans, Multiple Myeloma pathology, Plasma Cells pathology, Protein Subunits metabolism, Subcellular Fractions, Cell Nucleus metabolism, Mucin-1 metabolism, Multiple Myeloma metabolism, Plasma Cells metabolism
Abstract

Aims: Recent reports suggest a possible role for extracellular (MUC1N) and transmembrane (MUC1C) subunits of Mucin 1 (MUC1) in the pathogenesis of multiple myeloma (MM). Nuclear translocation of MUC1C is involved in activation of various oncogenic signalling pathways and both MUC1 subunits are potential therapeutic targets. We aimed at performing a comprehensive expression analysis of the MUC1 subunits in plasma cell dyscrasias., Methods and Results: Immunohistochemistry with monoclonal antibodies against the MUC1N subunit (EMA and 5E10) tumour-associated glycoforms of MUC1N (5E5) and the MUC1C subunit were applied to a series of biopsies from normal controls (n = 10) and plasma cell dyscrasias (n = 121). Clonal plasma cells showed reduced MUC1N expression, and the 5E5 MUC1N epitope was expressed only in neoplastic plasma cells. Nuclear localization of MUC1C was equally frequent in all disease stages and did not differ from the control cases. Loss of both MUC1 subunits in MM (n = 12) was associated with significantly shorter overall survival and was more frequent in pretreated MM samples., Conclusions: Our findings indicate that aberrant glycosylation of MUC1 is an early event in the pathogenesis of MM. In contrast, MUC1C nuclear localization is not likely to be a driver of tumour progression., (© 2013 John Wiley & Sons Ltd.)

Published
2014
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