Characterization of an immunodominant cancer-specific O-glycopeptide epitope in murine podoplanin (OTS8)

Catharina Steentoft; Katrine T Schjoldager; Emiliano Cló; Ulla Mandel; Steven Bruce Levery; Johannes W. Pedersen; Knud Jørgen Jensen; Ola Blixt; Henrik Clausen

doi:10.1007/s10719-010-9301-6

Characterization of an immunodominant cancer-specific O-glycopeptide epitope in murine podoplanin (OTS8)

Catharina Steentoft, Katrine T Schjoldager, Emiliano Cló, Ulla Mandel, Steven Bruce Levery, Johannes W. Pedersen, Knud Jørgen Jensen, Ola Blixt, Henrik Clausen

14 Citations (Scopus)

Abstract

Auto-antibodies induced by cancer represent promising sensitive biomarkers and probes to identify immunotherapeutic targets without immunological tolerance. Surprisingly few epitopes for such auto-antibodies have been identified to date. Recently, a cancer-specific syngeneic murine monoclonal antibody 237, developed to a spontaneous murine fibrosarcoma, was shown to be directed to murine podoplanin (OTS8) with truncated Tn O-glycans. Our understanding of such cancer-specific auto-antibodies to truncated glycoforms of glycoproteins is limited. Here we have investigated immunogenicity of a chemoenzymatically produced Tn-glycopeptide derived from the putative murine podoplanin O-glycopeptide epitope. We found that the Tn O-glycopeptide was highly immunogenic in mice and produced a Tn-glycoform specific response with no reactivity against unglycosylated peptides or the O-glycopeptide with extended O-glycan (STn and T glycoforms). The immunodominant epitope was strictly dependent on the peptide sequence, required Tn at a specific single Thr residue (Thr(77)), and antibodies to the epitope were not found in naive mice. We further tested a Tn O-glycopeptide library derived from human podoplanin by microarray analysis and demonstrated that the epitope was not conserved in man. We also tested human cancer sera for potential auto-antibodies to similar epitopes, but did not detect such antibodies to the Tn-library of podoplanin. The reagents and methods developed will be valuable for further studies of the nature and timing of induction of auto-antibodies to distinct O-glycopeptide epitopes induced by cancer. The results demonstrate that truncated O-glycopeptides constitute highly distinct antibody epitopes with great potential as targets for biomarkers and immunotherapeutics.

Original language	English
Journal	Glycoconjugate Journal
Volume	27
Issue number	6
Pages (from-to)	571-82
Number of pages	11
ISSN	0282-0080
DOIs	https://doi.org/10.1007/s10719-010-9301-6
Publication status	Published - Aug 2010

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@article{091929f0f24a11dfb6d2000ea68e967b,

title = "Characterization of an immunodominant cancer-specific O-glycopeptide epitope in murine podoplanin (OTS8)",

abstract = "Auto-antibodies induced by cancer represent promising sensitive biomarkers and probes to identify immunotherapeutic targets without immunological tolerance. Surprisingly few epitopes for such auto-antibodies have been identified to date. Recently, a cancer-specific syngeneic murine monoclonal antibody 237, developed to a spontaneous murine fibrosarcoma, was shown to be directed to murine podoplanin (OTS8) with truncated Tn O-glycans. Our understanding of such cancer-specific auto-antibodies to truncated glycoforms of glycoproteins is limited. Here we have investigated immunogenicity of a chemoenzymatically produced Tn-glycopeptide derived from the putative murine podoplanin O-glycopeptide epitope. We found that the Tn O-glycopeptide was highly immunogenic in mice and produced a Tn-glycoform specific response with no reactivity against unglycosylated peptides or the O-glycopeptide with extended O-glycan (STn and T glycoforms). The immunodominant epitope was strictly dependent on the peptide sequence, required Tn at a specific single Thr residue (Thr(77)), and antibodies to the epitope were not found in naive mice. We further tested a Tn O-glycopeptide library derived from human podoplanin by microarray analysis and demonstrated that the epitope was not conserved in man. We also tested human cancer sera for potential auto-antibodies to similar epitopes, but did not detect such antibodies to the Tn-library of podoplanin. The reagents and methods developed will be valuable for further studies of the nature and timing of induction of auto-antibodies to distinct O-glycopeptide epitopes induced by cancer. The results demonstrate that truncated O-glycopeptides constitute highly distinct antibody epitopes with great potential as targets for biomarkers and immunotherapeutics.",

author = "Catharina Steentoft and Schjoldager, {Katrine T} and Emiliano Cl{\'o} and Ulla Mandel and Levery, {Steven Bruce} and Pedersen, {Johannes W.} and Jensen, {Knud J{\o}rgen} and Ola Blixt and Henrik Clausen",

year = "2010",

month = aug,

doi = "10.1007/s10719-010-9301-6",

language = "English",

volume = "27",

pages = "571--82",

journal = "Glycoconjugate Journal",

issn = "0282-0080",

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TY - JOUR

T1 - Characterization of an immunodominant cancer-specific O-glycopeptide epitope in murine podoplanin (OTS8)

AU - Steentoft, Catharina

AU - Schjoldager, Katrine T

AU - Cló, Emiliano

AU - Mandel, Ulla

AU - Levery, Steven Bruce

AU - Pedersen, Johannes W.

AU - Jensen, Knud Jørgen

AU - Blixt, Ola

AU - Clausen, Henrik

PY - 2010/8

Y1 - 2010/8

N2 - Auto-antibodies induced by cancer represent promising sensitive biomarkers and probes to identify immunotherapeutic targets without immunological tolerance. Surprisingly few epitopes for such auto-antibodies have been identified to date. Recently, a cancer-specific syngeneic murine monoclonal antibody 237, developed to a spontaneous murine fibrosarcoma, was shown to be directed to murine podoplanin (OTS8) with truncated Tn O-glycans. Our understanding of such cancer-specific auto-antibodies to truncated glycoforms of glycoproteins is limited. Here we have investigated immunogenicity of a chemoenzymatically produced Tn-glycopeptide derived from the putative murine podoplanin O-glycopeptide epitope. We found that the Tn O-glycopeptide was highly immunogenic in mice and produced a Tn-glycoform specific response with no reactivity against unglycosylated peptides or the O-glycopeptide with extended O-glycan (STn and T glycoforms). The immunodominant epitope was strictly dependent on the peptide sequence, required Tn at a specific single Thr residue (Thr(77)), and antibodies to the epitope were not found in naive mice. We further tested a Tn O-glycopeptide library derived from human podoplanin by microarray analysis and demonstrated that the epitope was not conserved in man. We also tested human cancer sera for potential auto-antibodies to similar epitopes, but did not detect such antibodies to the Tn-library of podoplanin. The reagents and methods developed will be valuable for further studies of the nature and timing of induction of auto-antibodies to distinct O-glycopeptide epitopes induced by cancer. The results demonstrate that truncated O-glycopeptides constitute highly distinct antibody epitopes with great potential as targets for biomarkers and immunotherapeutics.

AB - Auto-antibodies induced by cancer represent promising sensitive biomarkers and probes to identify immunotherapeutic targets without immunological tolerance. Surprisingly few epitopes for such auto-antibodies have been identified to date. Recently, a cancer-specific syngeneic murine monoclonal antibody 237, developed to a spontaneous murine fibrosarcoma, was shown to be directed to murine podoplanin (OTS8) with truncated Tn O-glycans. Our understanding of such cancer-specific auto-antibodies to truncated glycoforms of glycoproteins is limited. Here we have investigated immunogenicity of a chemoenzymatically produced Tn-glycopeptide derived from the putative murine podoplanin O-glycopeptide epitope. We found that the Tn O-glycopeptide was highly immunogenic in mice and produced a Tn-glycoform specific response with no reactivity against unglycosylated peptides or the O-glycopeptide with extended O-glycan (STn and T glycoforms). The immunodominant epitope was strictly dependent on the peptide sequence, required Tn at a specific single Thr residue (Thr(77)), and antibodies to the epitope were not found in naive mice. We further tested a Tn O-glycopeptide library derived from human podoplanin by microarray analysis and demonstrated that the epitope was not conserved in man. We also tested human cancer sera for potential auto-antibodies to similar epitopes, but did not detect such antibodies to the Tn-library of podoplanin. The reagents and methods developed will be valuable for further studies of the nature and timing of induction of auto-antibodies to distinct O-glycopeptide epitopes induced by cancer. The results demonstrate that truncated O-glycopeptides constitute highly distinct antibody epitopes with great potential as targets for biomarkers and immunotherapeutics.

U2 - 10.1007/s10719-010-9301-6

DO - 10.1007/s10719-010-9301-6

M3 - Journal article

C2 - 20721622

SN - 0282-0080

VL - 27

SP - 571

EP - 582

JO - Glycoconjugate Journal

JF - Glycoconjugate Journal

IS - 6

ER -

Characterization of an immunodominant cancer-specific O-glycopeptide epitope in murine podoplanin (OTS8)

Abstract

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