Your search keyword '"Christin Keller"' showing total 28 results

1. Multi-level Strategy for Identifying Proteasome-Catalyzed Spliced Epitopes Targeted by CD8+ T Cells during Bacterial Infection

Author

Anouk C.M. Platteel, Juliane Liepe, Kathrin Textoris-Taube, Christin Keller, Petra Henklein, Hanna H. Schalkwijk, Rebeca Cardoso, Peter M. Kloetzel, Michele Mishto, and Alice J.A.M. Sijts

Subjects

Biology (General), QH301-705.5

Abstract

Summary: Proteasome-catalyzed peptide splicing (PCPS) generates peptides that are presented by MHC class I molecules, but because their identification is challenging, the immunological relevance of spliced peptides remains unclear. Here, we developed a reverse immunology-based multi-level approach to identify proteasome-generated spliced epitopes. Applying this strategy to a murine Listeria monocytogenes infection model, we identified two spliced epitopes within the secreted bacterial phospholipase PlcB that primed antigen-specific CD8+ T cells in L. monocytogenes-infected mice. While reacting to the spliced epitopes, these CD8+ T cells failed to recognize the non-spliced peptide parts in the context of their natural flanking sequences. Thus, we here show that PCPS expands the CD8+ T cell response against L. monocytogenes by exposing spliced epitopes on the cell surface. Moreover, our multi-level strategy opens up opportunities to systematically investigate proteins for spliced epitope candidates and thus strategies for immunotherapies or vaccine design. : Proteasomes both degrade proteins and ligate generated products, creating “spliced peptides” composed of distant protein parts. Platteel et al. now describe a multi-level strategy for identifying proteasome-generated spliced T cell epitopes. This work suggests ways of defining spliced epitopes within any antigen of interest and to determine their immunological relevance. Keywords: proteasome, peptide splicing, Listeria monocytogenes, antigen presentation, intracelllular bacteria, in silico analysis

Published

2017

2. Adult human liver contains intermediate-type proteasomes with different enzymatic properties

Author

Sabrina Gohlke, Alexander Kloβ, Michael Tsokos, Kathrin Textoris-Taube, Christin Keller, Peter-Michael Kloetzel, and Burkhardt Dahlmann

Subjects

Proteasome-subpopulations, Proteasome-subtypes, Proteolytic activities, HuH7 cells, Specialties of internal medicine, RC581-951

Abstract

Background. The 20S proteasome is the proteolytic core of the major intracellular protein degradative system, the ubiquitin-proteasome system. Since little is known about proteasomes of human liver, we have investigated the proteasome spectrum in adult human liver.Material and methods. 20S proteasomes were chromatographically purified from adult human liver and from HuH7 cells. They were divided into subpopulations and subtypes and characterized with regard to their proteolytic activities using short fluorogenic oligo- and long poly-peptide substrates. Their subunit composition was studied by immunoblotting.Results. Proteasomes from adult human liver tissue can be separated into three subpopulations (I, II, III), each of which is composed of several subtypes, which total to a spectrum of 14 different subtypes. Two minor subtypes contain only the immuno-subunits β1i and β5i but not their standard counterparts; all others are intermediate subtypes containing β1 and β5 standard- and β1i and β5i immuno-subunits in various compositions. With regard to the proteolytic activities we observed that a decreasing content of subunit β1i in the subtypes goes along with a decreasing ratio of chymotrypsin-like/caspase-like activity, whereas the degradation rate of a 30 mer polypeptide substrate increased with decreasing β1i content. By comparison, 20S proteasomes from HuH7 cells do not contain immuno-subunits but are pure standard proteasomes, which can be separated into three subtypes.Conclusion. These findings suggest that adult human liver contains a spectrum of 14 different 20S proteasome subtypes with different enzymatic properties reflecting most probably an adaptive response of liver cell functions to challenging factors during lifetime.

Published

2014

3. The 20S proteasome splicing activity discovered by SpliceMet.

Author

Juliane Liepe, Michele Mishto, Kathrin Textoris-Taube, Katharina Janek, Christin Keller, Petra Henklein, Peter Michael Kloetzel, and Alexey Zaikin

Subjects

Biology (General), QH301-705.5

Abstract

The identification of proteasome-generated spliced peptides (PSP) revealed a new unpredicted activity of the major cellular protease. However, so far characterization of PSP was entirely dependent on the availability of patient-derived cytotoxic CD8+ T lymphocytes (CTL) thus preventing a systematic investigation of proteasome-catalyzed peptide splicing (PCPS). For an unrestricted PSP identification we here developed SpliceMet, combining the computer-based algorithm ProteaJ with in vitro proteasomal degradation assays and mass spectrometry. By applying SpliceMet for the analysis of proteasomal processing products of four different substrate polypeptides, derived from human tumor as well as viral antigens, we identified fifteen new spliced peptides generated by PCPS either by cis or from two separate substrate molecules, i.e., by trans splicing. Our data suggest that 20S proteasomes represent a molecular machine that, due to its catalytic and structural properties, facilitates the generation of spliced peptides, thereby providing a pool of qualitatively new peptides from which functionally relevant products may be selected.

Published

2010

4. Supplemental Figures S1-S7 from ERAP1-Dependent Antigen Cross-Presentation Determines Efficacy of Adoptive T-cell Therapy in Mice

Author

Peter-Michael Kloetzel, Gerald Willimsky, Thomas Blankenstein, Ulrike Seifert, Ana Textor, Anja A. Kühl, Christin Keller, and Karin Schmidt

Abstract

File contains supplementary figures showing TAP-specific peptide translocation, growth of WT and Erap1-/- HCC in different recipients, gating strategy for T cell analysis, antigen-dependent T cell expansion, rejection of WT and Erap1-/- HCC through polyclonal T cells, and antigen cross-presentation experiments.

Published

2023

5. Supplemental Methods from ERAP1-Dependent Antigen Cross-Presentation Determines Efficacy of Adoptive T-cell Therapy in Mice

Author

Peter-Michael Kloetzel, Gerald Willimsky, Thomas Blankenstein, Ulrike Seifert, Ana Textor, Anja A. Kühl, Christin Keller, and Karin Schmidt

Abstract

File contains supplementary methods describing HPLC analysis, peptide translocation assay, histological staining, western blot analysis, flow cytometry, retroviral transductions, CTL assays, and in vivo cytotoxicity assays.

Published

2023

6. Data from ERAP1-Dependent Antigen Cross-Presentation Determines Efficacy of Adoptive T-cell Therapy in Mice

Author

Peter-Michael Kloetzel, Gerald Willimsky, Thomas Blankenstein, Ulrike Seifert, Ana Textor, Anja A. Kühl, Christin Keller, and Karin Schmidt

Abstract

Cytotoxic T lymphocytes can reject established tumors if their target peptide is efficiently presented by MHC class I molecules (pMHC-I) on the surface of cancerous cells. Therapeutic success upon adoptive T-cell transfer (ATT), however, requires additional cross-presentation of the same pMHC-I on noncancerous cells. Endoplasmic reticulum aminopeptidase 1 (ERAP1) is an enzyme that customizes the N-terminus of proteasome-generated peptides so they can be loaded onto MHC-I molecules in the endoplasmic reticulum (ER). We show here that ERAP1 is critically involved in the process of tumor rejection and assumes a dual role by independently operating on both sides. Direct presentation of two MHC-I–restricted epitopes of a cancer-driving transplantation rejection antigen through ERAP1 moderately affected tumor rejection by adoptively transferred T-cell receptor gene–modified T cells in each case. ERAP1 expression by antigen cross-presenting cells of the ATT recipients was critical for expansion of therapeutic monospecific T cells and correlated with tumor rejection. Specifically, lack of ERAP1 expression in the ATT recipient's noncancerous cells enabled progression of pMHC-I–positive, IFNγ-responsive tumors, despite the presence of antigen-specific functional cytotoxic T lymphocytes. These data reveal a decisive role for ERAP1 in T-cell–mediated tumor rejection and will enhance the choice of MHC-I–restricted epitopes targeted by adoptive T-cell transfer.Significance: This study demonstrates a role of ERAP1 in the efficacy of adoptive T-cell transfer and has potential to improve personalized T-cell therapy for solid tumors. Cancer Res; 78(12); 3243–54. ©2018 AACR.

Published

2023

7. Supplemental Table S1 from ERAP1-Dependent Antigen Cross-Presentation Determines Efficacy of Adoptive T-cell Therapy in Mice

Author

Peter-Michael Kloetzel, Gerald Willimsky, Thomas Blankenstein, Ulrike Seifert, Ana Textor, Anja A. Kühl, Christin Keller, and Karin Schmidt

Abstract

Numerical summary of tumor rejection experiments

Published

2023

8. The proteasome immunosubunits, PA28 and ER-aminopeptidase 1 protect melanoma cells from efficient MART-126-35-specific T-cell recognition

Author

Antje Sucker, Martin Keller, Xenia Gorny, Annette Paschen, Elke Bürger, Elke Krüger, Loredana Saveanu, Tanja Dannenberg, Antje Voigt, Christin Keller, Kathrin Textoris-Taube, Hermann-Josef Rothkötter, Petra Henklein, Peter-Michael Kloetzel, Frédéric Ebstein, Ulrike Seifert, Ulrike Kuckelkorn, Sabrina Urban, Burkhardt Dahlmann, and Fang Zhao

Subjects

integumentary system, Antigen processing, medicine.medical_treatment, Melanoma, T cell, Immunology, Immunotherapy, Biology, medicine.disease, Epitope, medicine.anatomical_structure, Proteasome, Antigen, Minor histocompatibility antigen, medicine, Cancer research, Immunology and Allergy, neoplasms

Abstract

The immunodominant MART-1(26(27)-35) epitope, liberated from the differentiation antigen melanoma antigen recognized by T cells/melanoma antigen A (MART-1/Melan-A), has been frequently targeted in melanoma immunotherapy, but with limited clinical success. Previous studies suggested that this is in part due to an insufficient peptide supply and epitope presentation, since proteasomes containing the immunosubunits β5i/LMP7 (LMP, low molecular weight protein) or β1i/LMP2 and β5i/LMP7 interfere with MART-1(26-35) epitope generation in tumor cells. Here, we demonstrate that in addition the IFN-γ-inducible proteasome subunit β2i/MECL-1 (multicatalytic endopeptidase complex-like 1), proteasome activator 28 (PA28), and ER-resident aminopeptidase 1 (ERAP1) impair MART-1(26-35) epitope generation. β2i/MECL-1 and PA28 negatively affect C- and N-terminal cleavage and therefore epitope liberation from the proteasome, whereas ERAP1 destroys the MART-1(26-35) epitope by overtrimming activity. Constitutive expression of PA28 and ERAP1 in melanoma cells indicate that both interfere with MART-1(26-35) epitope generation even in the absence of IFN-γ. In summary, our results provide first evidence that activities of different antigen-processing components contribute to an inefficient MART-1(26-35) epitope presentation, suggesting the tumor cell's proteolytic machinery might have an important impact on the outcome of epitope-specific immunotherapies.

Published

2015

9. ERAP1-Dependent Antigen Cross-Presentation Determines Efficacy of Adoptive T-cell Therapy in Mice

Author

Christin Keller, Gerald Willimsky, Anja A. Kühl, Thomas Blankenstein, Ulrike Seifert, Karin Schmidt, Ana Textor, and Peter-Michael Kloetzel

Subjects

0301 basic medicine, Graft Rejection, Male, Cancer Research, Carcinoma, Hepatocellular, T cell, medicine.medical_treatment, Receptors, Antigen, T-Cell, Major histocompatibility complex, Endoplasmic Reticulum, Aminopeptidases, Immunotherapy, Adoptive, Epitope, Minor Histocompatibility Antigens, 03 medical and health sciences, Epitopes, Mice, 0302 clinical medicine, Cross-Priming, Lymphocytes, Tumor-Infiltrating, Antigen, Cell Line, Tumor, MHC class I, Cytotoxic T cell, Medicine, Animals, Humans, Mice, Knockout, Antigen Presentation, biology, business.industry, Histocompatibility Antigens Class I, Liver Neoplasms, Cross-presentation, Immunotherapy, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Treatment Outcome, Oncology, Cancer research, biology.protein, Female, business, 030215 immunology, T-Lymphocytes, Cytotoxic

Abstract

Cytotoxic T lymphocytes can reject established tumors if their target peptide is efficiently presented by MHC class I molecules (pMHC-I) on the surface of cancerous cells. Therapeutic success upon adoptive T-cell transfer (ATT), however, requires additional cross-presentation of the same pMHC-I on noncancerous cells. Endoplasmic reticulum aminopeptidase 1 (ERAP1) is an enzyme that customizes the N-terminus of proteasome-generated peptides so they can be loaded onto MHC-I molecules in the endoplasmic reticulum (ER). We show here that ERAP1 is critically involved in the process of tumor rejection and assumes a dual role by independently operating on both sides. Direct presentation of two MHC-I–restricted epitopes of a cancer-driving transplantation rejection antigen through ERAP1 moderately affected tumor rejection by adoptively transferred T-cell receptor gene–modified T cells in each case. ERAP1 expression by antigen cross-presenting cells of the ATT recipients was critical for expansion of therapeutic monospecific T cells and correlated with tumor rejection. Specifically, lack of ERAP1 expression in the ATT recipient's noncancerous cells enabled progression of pMHC-I–positive, IFNγ-responsive tumors, despite the presence of antigen-specific functional cytotoxic T lymphocytes. These data reveal a decisive role for ERAP1 in T-cell–mediated tumor rejection and will enhance the choice of MHC-I–restricted epitopes targeted by adoptive T-cell transfer. Significance: This study demonstrates a role of ERAP1 in the efficacy of adoptive T-cell transfer and has potential to improve personalized T-cell therapy for solid tumors. Cancer Res; 78(12); 3243–54. ©2018 AACR.

Published

2017

10. Extracellular proteasome-osteopontin circuit regulates cell migration with implications in multiple sclerosis

Author

Christin Keller, Filippo Martinelli Boneschi, Loredana Riganti, Elena Bellavista, Chiara Dianzani, Klemens Ruprecht, Katharina Janek, Annalisa Chiocchetti, Chiara Fenoglio, Morena Martucci, Daniela Galimberti, Friedemann Paul, Casimiro Luca Gigliotti, Benedetta Ferrara, Claudia Verderio, Elena Boggio, Michael P. H. Stumpf, Agathe Niewienda, Aurelia Santoro, Juliane Liepe, Peter M. Kloetzel, Roberto Cantello, Melissa Sorosina, Michele Mishto, Umberto Dianzani, Cristoforo Comi, Dianzani, Chiara, Bellavista, Elena, Liepe, Juliane, Verderio, Claudia, Martucci, Morena, Santoro, Aurelia, Chiocchetti, Annalisa, Gigliotti, Casimiro Luca, Boggio, Elena, Ferrara, Benedetta, Riganti, Loredana, Keller, Christin, Janek, Katharina, Niewienda, Agathe, Fenoglio, Chiara, Sorosina, Melissa, Cantello, Roberto, Kloetzel, Peter M, Stumpf, Michael P H, Paul, Friedemann, Ruprecht, Klemen, Galimberti, Daniela, Martinelli Boneschi, Filippo, Comi, Cristoforo, Dianzani, Umberto, and Mishto, Michele

Subjects

Models, Molecular, 0301 basic medicine, Proteasome Endopeptidase Complex, Chemokine, Proteases, Multiple Sclerosis, Protein Conformation, medicine.medical_treatment, Inflammation, 600 Technik, Medizin, angewandte Wissenschaften::610 Medizin und Gesundheit, Article, Extracellular Vesicles, Structure-Activity Relationship, 03 medical and health sciences, Journal Article, Extracellular, medicine, Humans, Amino Acid Sequence, Lymphocytes, Osteopontin, Multidisciplinary, biology, Chemotaxis, Endothelial Cells, Cell migration, Cell biology, Proteasome, Osteopontin, Multiple Sclerosis, 030104 developmental biology, Cytokine, Proteasome, biology.protein, medicine.symptom, Chemokines, Extracellular Space, Function and Dysfunction of the Nervous System

Abstract

Osteopontin is a pleiotropic cytokine that is involved in several diseases including multiple sclerosis. Secreted osteopontin is cleaved by few known proteases, modulating its pro-inflammatory activities. Here we show by in vitro experiments that secreted osteopontin can be processed by extracellular proteasomes, thereby producing fragments with novel chemotactic activity. Furthermore, osteopontin reduces the release of proteasomes in the extracellular space. The latter phenomenon seems to occur in vivo in multiple sclerosis, where it reflects the remission/relapse alternation. The extracellular proteasome-mediated inflammatory pathway may represent a general mechanism to control inflammation in inflammatory diseases.

Published

2017

11. Multi-level Strategy for Identifying Proteasome-Catalyzed Spliced Epitopes Targeted by CD8+ T Cells during Bacterial Infection

Author

Peter M. Kloetzel, Michele Mishto, Alice J. A. M. Sijts, Kathrin Textoris-Taube, Hanna H. Schalkwijk, Juliane Liepe, Anouk C.M. Platteel, Rebeca Cardoso, Petra Henklein, Christin Keller, and dI&I RA-I&I I&I

Subjects

0301 basic medicine, Antigen presentation, Context (language use), Biology, peptide splicing, General Biochemistry, Genetics and Molecular Biology, Epitope, 03 medical and health sciences, 0302 clinical medicine, intracelllular bacteria, MHC class I, in silico analysis, Cytotoxic T cell, lcsh:QH301-705.5, Virology, Listeria monocytogenes, 3. Good health, Cell biology, antigen presentation, 030104 developmental biology, proteasome, Proteasome, lcsh:Biology (General), RNA splicing, biology.protein, CD8, 030215 immunology

Abstract

Summary: Proteasome-catalyzed peptide splicing (PCPS) generates peptides that are presented by MHC class I molecules, but because their identification is challenging, the immunological relevance of spliced peptides remains unclear. Here, we developed a reverse immunology-based multi-level approach to identify proteasome-generated spliced epitopes. Applying this strategy to a murine Listeria monocytogenes infection model, we identified two spliced epitopes within the secreted bacterial phospholipase PlcB that primed antigen-specific CD8+ T cells in L. monocytogenes-infected mice. While reacting to the spliced epitopes, these CD8+ T cells failed to recognize the non-spliced peptide parts in the context of their natural flanking sequences. Thus, we here show that PCPS expands the CD8+ T cell response against L. monocytogenes by exposing spliced epitopes on the cell surface. Moreover, our multi-level strategy opens up opportunities to systematically investigate proteins for spliced epitope candidates and thus strategies for immunotherapies or vaccine design. : Proteasomes both degrade proteins and ligate generated products, creating “spliced peptides” composed of distant protein parts. Platteel et al. now describe a multi-level strategy for identifying proteasome-generated spliced T cell epitopes. This work suggests ways of defining spliced epitopes within any antigen of interest and to determine their immunological relevance. Keywords: proteasome, peptide splicing, Listeria monocytogenes, antigen presentation, intracelllular bacteria, in silico analysis

Published

2017

12. Proteasome isoforms exhibit only quantitative differences in cleavage and epitope generation

Author

Burkhardt Dahlmann, Michael P. H. Stumpf, Christin Keller, Peter M. Kloetzel, Antje Voigt, Petra Henklein, Cordula Enenkel, Marion Weberruß, Kathrin Textoris-Taube, Ulrike Kuckelkorn, Michele Mishto, and Juliane Liepe

Subjects

chemistry.chemical_classification, Gene isoform, medicine.diagnostic_test, Proteolysis, Immunology, Antigen presentation, Peptide, Biology, Isozyme, Epitope, Biochemistry, chemistry, Proteasome, MHC class I, medicine, biology.protein, Immunology and Allergy

Abstract

Immunoproteasomes are considered to be optimised to process Ags and to alter the peptide repertoire by generating a qualitatively different set of MHC class I epitopes. Whether the immunoproteasome at the biochemical level, influence the quality rather than the quantity of the immuno-genic peptide pool is still unclear. Here, we quantified the cleavage-site usage by human standard- and immunoproteasomes, and proteasomes from immuno-subunit-deficient mice, as well as the peptides generated from model polypeptides. We show in this study that the different proteasome isoforms can exert significant quantitative differences in the cleavage-site usage and MHC class I restricted epitope production. However, independent of the proteasome isoform and substrates studied, no evidence was obtained for the abolishment of the specific cleavage-site usage, or for differences in the quality of the peptides generated. Thus, we conclude that the observed differences in MHC class I restricted Ag presentation between standard- and immunoproteasomes are due to quantitative differences in the proteasome-generated antigenic peptides.

Published

2014

13. Adult human liver contains intermediate-type proteasomes with different enzymatic properties

Author

Peter-Michael Kloetzel, Alexander Kloss, Kathrin Textoris-Taube, Sabrina Gohlke, Christin Keller, Burkhardt Dahlmann, and Michael Tsokos

Subjects

Electrophoresis, Proteasome Endopeptidase Complex, Erythrocytes, Protein subunit, Specialties of internal medicine, Spleen, Biology, Cell Line, medicine, Humans, Proteasome-subpopulations, chemistry.chemical_classification, Hepatology, Human liver, Liver cell, HuH7 cells, Substrate (chemistry), General Medicine, Proteasome-subtypes, medicine.anatomical_structure, Enzyme, Proteasome, Biochemistry, chemistry, Liver, RC581-951, Cell culture, Proteolytic activities

Abstract

Background. The 20S proteasome is the proteolytic core of the major intracellular protein degradative system, the ubiquitin-proteasome system. Since little is known about proteasomes of human liver, we have investigated the proteasome spectrum in adult human liver. Material and methods. 20S proteasomes were chromatographically purified from adult human liver and from HuH7 cells. They were divided into subpopulations and subtypes and characterized with regard to their proteolytic activities using short fluorogenic oligo- and long poly-peptide substrates. Their subunit composition was studied by immunoblotting. Results. Proteasomes from adult human liver tissue can be separated into three subpopulations (I, II, III), each of which is composed of several subtypes, which total to a spectrum of 14 different subtypes. Two minor subtypes contain only the immuno-subunits β1i and β5i but not their standard counterparts; all others are intermediate subtypes containing β1 and β5 standard- and β1i and β5i immuno-subunits in various compositions. With regard to the proteolytic activities we observed that a decreasing content of subunit β1i in the subtypes goes along with a decreasing ratio of chymotrypsin-like/caspase-like activity, whereas the degradation rate of a 30 mer polypeptide substrate increased with decreasing β1i content. By comparison, 20S proteasomes from HuH7 cells do not contain immuno-subunits but are pure standard proteasomes, which can be separated into three subtypes. Conclusion. These findings suggest that adult human liver contains a spectrum of 14 different 20S proteasome subtypes with different enzymatic properties reflecting most probably an adaptive response of liver cell functions to challenging factors during lifetime.

Published

2014

14. Rapid degradation of solid-phase bound peptides by the 20S proteasome

Author

Rudolf Volkmer, Stefan Günther, Andrean Goede, Katharina Janek, Bernhard Ay, Agathe Niewienda, Ulrike Kuckelkorn, Marc Hovestädt, Christin Keller, and Hermann-Georg Holzhütter

Subjects

Pharmacology, chemistry.chemical_classification, Proteases, Chemistry, Organic Chemistry, Aqueous two-phase system, Peptide, General Medicine, Cleavage (embryo), Biochemistry, In vitro, Proteasome, Structural Biology, Covalent bond, Cleave, Drug Discovery, Molecular Medicine, Molecular Biology

Abstract

Proteasomes are cellular proteases involved in the degradation of numerous cellular proteins. The 20S proteasome is a cylindrical 28-mer protein complex composed of two outer heptameric α-rings forming the entrance for the protein substrate and two inner heptameric β-rings carrying the catalytic sites. Numerous in vitro studies have provided evidence that the 20S proteasome may degrade peptides of various lengths and even unfolded full-length polypeptide chains. However, a direct demonstration that the 20S proteasome may also cleave surface-attached immobilized peptides is lacking so far. To this end, we used a model system by coupling peptides from different source proteins covalently to the surface of glass beads and applied nanoLC/MS analysis to monitor the generation of proteolytic fragments in the presence of the 20S proteasome. Detectable amounts of cleavage products occurred within a few minutes indicating a much higher cleavage rate than observed with the same substrates in solution. Our finding lends support to the idea that proteasomes may directly degrade segments of membrane-bound proteins protruding into the aqueous phase. Copyright © 2013 European Peptide Society and John Wiley & Sons, Ltd.

Published

2013

15. Multi-level Strategy for Identifying Proteasome-Catalyzed Spliced Epitopes Targeted by CD8

Author

Anouk C M, Platteel, Juliane, Liepe, Kathrin, Textoris-Taube, Christin, Keller, Petra, Henklein, Hanna H, Schalkwijk, Rebeca, Cardoso, Peter M, Kloetzel, Michele, Mishto, and Alice J A M, Sijts

Subjects

Mice, Proteasome Endopeptidase Complex, Animals, Epitopes, T-Lymphocyte, Listeriosis, CD8-Positive T-Lymphocytes, Listeria monocytogenes

Abstract

Proteasome-catalyzed peptide splicing (PCPS) generates peptides that are presented by MHC class I molecules, but because their identification is challenging, the immunological relevance of spliced peptides remains unclear. Here, we developed a reverse immunology-based multi-level approach to identify proteasome-generated spliced epitopes. Applying this strategy to a murine Listeria monocytogenes infection model, we identified two spliced epitopes within the secreted bacterial phospholipase PlcB that primed antigen-specific CD8

Published

2016

16. Proteasomes generate spliced epitopes by two different mechanisms and as efficiently as non-spliced epitopes

Author

R Golnik, Wolfgang Uckert, Andrea Lehmann, Michele Mishto, Petra Henklein, Frédéric Ebstein, Beatrice Schuler-Thurner, B Van den Eynde, N Albrecht-Koepke, Sabrina Urban, Dirk Schadendorf, Peter-M. Kloetzel, Agathe Niewienda, Kathrin Textoris-Taube, Felix K.M. Lorenz, Christin Keller, Katharina Janek, Nathalie Vigneron, and UCL - SSS/DDUV - Institut de Duve

Subjects

0301 basic medicine, Cancer Research, Proteasome Endopeptidase Complex, Antigen presentation, Medizin, Epitopes, T-Lymphocyte, chemical and pharmacologic phenomena, Biology, CD8-Positive T-Lymphocytes, 600 Technik, Medizin, angewandte Wissenschaften::610 Medizin und Gesundheit, Epitope, Catalysis, Article, 03 medical and health sciences, Epitopes, Interferon-gamma, 0302 clinical medicine, Immune system, Antigen, Antigens, Neoplasm, Cell Line, Tumor, Humans, Antigens, Melanoma, neoplasms, Probability, Antigen Presentation, Multidisciplinary, Alternative splicing, Molecular biology, Alternative Splicing, 030104 developmental biology, Proteasome, 030220 oncology & carcinogenesis, Case-Control Studies, RNA splicing, Melanocytes, Peptides, CD8, Algorithms, HeLa Cells, gp100 Melanoma Antigen

Abstract

Proteasome-catalyzed peptide splicing represents an additional catalytic activity of proteasomes contributing to the pool of MHC-class I-presented epitopes. We here biochemically and functionally characterized a new melanoma gp100 derived spliced epitope. We demonstrate that the gp100mel47–52/40–42 antigenic peptide is generated in vitro and in cellulo by a not yet described proteasomal condensation reaction. gp100mel47–52/40–42 generation is enhanced in the presence of the β5i/LMP7 proteasome-subunit and elicits a peptide-specific CD8+ T cell response. Importantly, we demonstrate that different gp100mel-derived spliced epitopes are generated and presented to CD8+ T cells with efficacies comparable to non-spliced canonical tumor epitopes and that gp100mel-derived spliced epitopes trigger activation of CD8+ T cells found in peripheral blood of half of the melanoma patients tested. Our data suggest that both transpeptidation and condensation reactions contribute to the frequent generation of spliced epitopes also in vivo and that their immune relevance may be comparable to non-spliced epitopes.

Published

2016

17. Driving Forces of Proteasome-catalyzed Peptide Splicing in Yeast and Humans

Author

Alexander Kloss, Burkhardt Dahlmann, Petra Henklein, Katharina Janek, Andrean Goede, Christin Keller, Michele Mishto, Agathe Niewienda, Sabrina Gohlke, Kathrin Textoris Taube, Cordula Enenkel, and Peter M. Kloetzel

Subjects

Proteasome Endopeptidase Complex, Molecular Sequence Data, education, Saccharomyces cerevisiae, Peptide, Biochemistry, Analytical Chemistry, Protein splicing, Humans, Protein Splicing, Amino Acid Sequence, Binding site, Molecular Biology, Peptide sequence, Cell Line, Transformed, chemistry.chemical_classification, B-Lymphocytes, biology, Research, Active site, biology.organism_classification, Proteasome, chemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, RNA splicing, Biocatalysis, biology.protein, Peptides, Chromatography, Liquid

Abstract

Proteasome-catalyzed peptide splicing (PCPS) represents an additional activity of mammalian 20S proteasomes recently identified in connection with antigen presentation. We show here that PCPS is not restricted to mammalians but that it is also a feature of yeast 20S proteasomes catalyzed by all three active site β subunits. No major differences in splicing efficiency exist between human 20S standard- and immuno-proteasome or yeast 20S proteasome. Using H(2)(18)O to monitor the splicing reaction we also demonstrate that PCPS occurs via direct transpeptidation that slightly favors the generation of peptides spliced in cis over peptides spliced in trans. Splicing efficiency itself is shown to be controlled by proteasomal cleavage site preference as well as by the sequence characteristics of the spliced peptides. By use of kinetic data and quantitative analyses of PCPS obtained by mass spectrometry we developed a structural model with two PCPS binding sites in the neighborhood of the active Thr1.

Published

2012

18. Generation of in silico predicted coxsackievirus B3-derived MHC class I epitopes by proteasomes

Author

Ilse Drung, Peter Henklein, Ulrike Kuckelkorn, Peter M. Kloetzel, Karin Klingel, Karl Stangl, Christin Keller, Antje Voigt, Kathrin Textoris-Taube, Sandra Jäkel, and Gudrun Szalay

Subjects

Proteasome Endopeptidase Complex, viruses, In silico, Clinical Biochemistry, Computational biology, Biology, Coxsackievirus, Ligands, Proteomics, Major histocompatibility complex, Biochemistry, Epitope, Epitopes, Mice, MHC class I, Animals, Cytotoxic T cell, Antigen processing, Histocompatibility Antigens Class I, Organic Chemistry, Computational Biology, virus diseases, biology.organism_classification, Molecular biology, Enterovirus B, Human, Mice, Inbred C57BL, biology.protein

Abstract

Proteasomes are known to be the main suppliers of MHC class I (MHC-I) ligands. In an attempt to identify coxsackievirus B3 (CVB3)-MHC-I epitopes, a combined approach of in silico MHC-I/transporters associated with antigen processing (TAP)-binding and proteasomal cleavage prediction was applied. Accordingly, 13 potential epitopes originating from the structural and non-structural protein region of CVB3 were selected for further in vitro processing analysis by proteasomes. Mass spectrometry demonstrated the generation of seven of the 13 predicted MHC-I ligands or respective ligand precursors by proteasomes. Detailed processing analysis of three adjacent MHC-I ligands with partially overlapping sequences, i.e. VP2(273-281), VP2(284-292) and VP2(285-293), revealed the preferential generation predominantly of the VP2(285-293) epitope by immunoproteasomes due to altered cleavage site preferences. The VP2(285-293) peptide was identified to be a high affinity binder, rendering VP2(285-293) a likely candidate for CD8 T cell immunity in CVB3 infection. In conclusion, the concerted usage of different in silico prediction methods and in vitro epitope processing/presentation studies was supportive in the identification of CVB3 MHC-I epitopes.

Published

2009

19. The T210M substitution in the HLA-a*02:01 gp100 epitope strongly affects overall proteasomal cleavage site usage and antigen processing

Author

Peter M. Kloetzel, Christin Keller, Michele Mishto, John Sidney, Kathrin Textoris-Taube, Petra Henklein, Juliane Liepe, Alessandro Sette, and NC3Rs (National Centre for the Replacement, Refinement and Reduction of Animals in Research)

Subjects

Biochemistry & Molecular Biology, Proteasome Endopeptidase Complex, PEPTIDE HYDROLYSIS, Immunology, Antigen presentation, DIVERSITY, Epitopes, T-Lymphocyte, CD8-Positive T-Lymphocytes, Major histocompatibility complex, Biochemistry, SEQUENCE, Epitope, Cell Line, Tumor, MHC class I, BINDING, HLA-A2 Antigen, antigen processing, Humans, mutant, Molecular Biology, Cell Line, Transformed, Antigen Presentation, Science & Technology, biology, Linear epitope, PRESENTED PEPTIDES, Antigen processing, Immunogenicity, INDUCTION, T-cell receptor, RECOGNITION, IMMUNOPROTEASOMES, Cell Biology, 11 Medical And Health Sciences, 06 Biological Sciences, Molecular biology, Cell biology, Amino Acid Substitution, HLA-B Antigens, ubiquitin-dependent protease, CELLS, biology.protein, protein degradation, 03 Chemical Sciences, Life Sciences & Biomedicine, CTL EPITOPE, gp100 Melanoma Antigen

Abstract

MHC class I-restricted epitopes, which carry a tumor-specific mutation resulting in improved MHC binding affinity, are preferred T cell receptor targets in innovative adoptive T cell therapies. However, T cell therapy requires efficient generation of the selected epitope. How such mutations may affect proteasome-mediated antigen processing has so far not been studied. Therefore, we analyzed by in vitro experiments the effect on antigen processing and recognition of a T210M exchange, which previously had been introduced into the melanoma gp100209-217 tumor epitope to improve the HLA-A*02:01 binding and its immunogenicity. A quantitative analysis of the main steps of antigen processing shows that the T210M exchange affects proteasomal cleavage site usage within the mutgp100201-230 polypeptide, leading to the generation of an unique set of cleavage products. The T210M substitution qualitatively affects the proteasome-catalyzed generation of spliced and non-spliced peptides predicted to bind HLA-A or -B complexes. The T210M substitution also induces an enhanced production of the mutgp100209-217 epitope and its N-terminally extended peptides. The T210M exchange revealed no effect on ERAP1-mediated N-terminal trimming of the precursor peptides. However, mutant N-terminally extended peptides exhibited significantly increased HLA-A*02:01 binding affinity and elicited CD8(+) T cell stimulation in vitro similar to the wtgp100209-217 epitope. Thus, our experiments demonstrate that amino acid exchanges within an epitope can result in the generation of an altered peptide pool with new antigenic peptides and in a wider CD8(+) T cell response also towards N-terminally extended versions of the minimal epitope.

Published

2015

20. Correction: Preventing tumor escape by targeting a post-proteasomal trimming independent epitope

Author

Ton N. Schumacher, John Sidney, Ana Textor, Cynthia Perez, Karin Schmidt, Dirk H. Busch, Alessandro Sette, Peter-M. Kloetzel, Kathleen Anders, Thomas Blankenstein, Ulrike Seifert, Bianca Weißbrich, Jehad Charo, and Christin Keller

Subjects

0301 basic medicine, Proteasome Endopeptidase Complex, T-Lymphocytes, Immunology, Antibody Affinity, Receptors, Antigen, T-Cell, Epitopes, T-Lymphocyte, Computational biology, Biology, Article, Epitope, Interferon-gamma, Leucyl Aminopeptidase, 03 medical and health sciences, Neoplasms, Animals, Immunology and Allergy, Amino Acid Sequence, Antigens, Research Articles, Sequence (medicine), Histocompatibility Antigens Class I, Correction, Regret, Mice, Inbred C57BL, 030104 developmental biology, Tumor Escape, Trimming, Peptides, Signal Transduction

Abstract

Blankenstein and colleagues describe a novel strategy to avoid tumor escape from adoptive T cell therapy., Adoptive T cell therapy (ATT) can achieve regression of large tumors in mice and humans; however, tumors frequently recur. High target peptide-major histocompatibility complex-I (pMHC) affinity and T cell receptor (TCR)-pMHC affinity are thought to be critical to preventing relapse. Here, we show that targeting two epitopes of the same antigen in the same cancer cells via monospecific T cells, which have similar pMHC and pMHC-TCR affinity, results in eradication of large, established tumors when targeting the apparently subdominant but not the dominant epitope. Only the escape but not the rejection epitope required postproteasomal trimming, which was regulated by IFN-γ, allowing IFN-γ–unresponsive cancer variants to evade. The data describe a novel immune escape mechanism and better define suitable target epitopes for ATT.

Published

2017

21. The proteasome immunosubunits, PA28 and ER-aminopeptidase 1 protect melanoma cells from efficient MART-126-35 -specific T-cell recognition

Author

Martin, Keller, Frédéric, Ebstein, Elke, Bürger, Kathrin, Textoris-Taube, Xenia, Gorny, Sabrina, Urban, Fang, Zhao, Tanja, Dannenberg, Antje, Sucker, Christin, Keller, Loredana, Saveanu, Elke, Krüger, Hermann-Josef, Rothkötter, Burkhardt, Dahlmann, Petra, Henklein, Antje, Voigt, Ulrike, Kuckelkorn, Annette, Paschen, Peter-Michael, Kloetzel, and Ulrike, Seifert

Subjects

Minor Histocompatibility Antigens, Cysteine Endopeptidases, Epitopes, Proteasome Endopeptidase Complex, Cell Line, Tumor, T-Lymphocytes, Humans, Muscle Proteins, Aminopeptidases, Melanoma, Neoplasm Proteins

Abstract

The immunodominant MART-1(26(27)-35) epitope, liberated from the differentiation antigen melanoma antigen recognized by T cells/melanoma antigen A (MART-1/Melan-A), has been frequently targeted in melanoma immunotherapy, but with limited clinical success. Previous studies suggested that this is in part due to an insufficient peptide supply and epitope presentation, since proteasomes containing the immunosubunits β5i/LMP7 (LMP, low molecular weight protein) or β1i/LMP2 and β5i/LMP7 interfere with MART-1(26-35) epitope generation in tumor cells. Here, we demonstrate that in addition the IFN-γ-inducible proteasome subunit β2i/MECL-1 (multicatalytic endopeptidase complex-like 1), proteasome activator 28 (PA28), and ER-resident aminopeptidase 1 (ERAP1) impair MART-1(26-35) epitope generation. β2i/MECL-1 and PA28 negatively affect C- and N-terminal cleavage and therefore epitope liberation from the proteasome, whereas ERAP1 destroys the MART-1(26-35) epitope by overtrimming activity. Constitutive expression of PA28 and ERAP1 in melanoma cells indicate that both interfere with MART-1(26-35) epitope generation even in the absence of IFN-γ. In summary, our results provide first evidence that activities of different antigen-processing components contribute to an inefficient MART-1(26-35) epitope presentation, suggesting the tumor cell's proteolytic machinery might have an important impact on the outcome of epitope-specific immunotherapies.

Published

2014

22. Proteasome isoforms exhibit only quantitative differences in cleavage and epitope generation

Author

Michele, Mishto, Juliane, Liepe, Kathrin, Textoris-Taube, Christin, Keller, Petra, Henklein, Marion, Weberruß, Burkhardt, Dahlmann, Cordula, Enenkel, Antje, Voigt, Ulrike, Kuckelkorn, Michael P H, Stumpf, and Peter M, Kloetzel

Subjects

Isoenzymes, Antigen Presentation, Mice, Proteasome Endopeptidase Complex, Histocompatibility Antigens Class I, Proteolysis, Animals, Humans, Peptides, Mice, Mutant Strains, Cell Line, Transformed, Substrate Specificity

Abstract

Immunoproteasomes are considered to be optimised to process Ags and to alter the peptide repertoire by generating a qualitatively different set of MHC class I epitopes. Whether the immunoproteasome at the biochemical level, influence the quality rather than the quantity of the immuno-genic peptide pool is still unclear. Here, we quantified the cleavage-site usage by human standard- and immunoproteasomes, and proteasomes from immuno-subunit-deficient mice, as well as the peptides generated from model polypeptides. We show in this study that the different proteasome isoforms can exert significant quantitative differences in the cleavage-site usage and MHC class I restricted epitope production. However, independent of the proteasome isoform and substrates studied, no evidence was obtained for the abolishment of the specific cleavage-site usage, or for differences in the quality of the peptides generated. Thus, we conclude that the observed differences in MHC class I restricted Ag presentation between standard- and immunoproteasomes are due to quantitative differences in the proteasome-generated antigenic peptides.

Published

2014

23. Molecular alterations in proteasomes of rat liver during aging result in altered proteolytic activities

Author

Carolin Giannini, Peter-Michael Kloetzel, Michele Mishto, Francesco Vasuri, Kathrin Textoris-Taube, Elisa Capizzi, Burkhardt Dahlmann, Antonia D’Errico-Grigioni, Christin Keller, Sabrina Gohlke, Gohlke S, Mishto M, Textoris-Taube K, Keller C, Giannini C, Vasuri F, Capizzi E, D'Errico-Grigioni A, Kloetzel PM, and Dahlmann B

Subjects

Male, Aging, Proteasome Endopeptidase Complex, Blotting, Western, Peptide, proteasome subunits, Biology, Article, MHC class I, Animals, Rats, Wistar, Polyacrylamide gel electrophoresis, chemistry.chemical_classification, MHC class I antigen, General Medicine, Immunosenescence, Immunohistochemistry, Rats, Blot, proteasome, Biochemistry, Proteasome, chemistry, Liver, biology.protein, Electrophoresis, Polyacrylamide Gel, Geriatrics and Gerontology, Homeostasis

Abstract

Aging induces alterations of tissue protein homoeostasis. To investigate one of the major systems catalysing intracellular protein degradation we have purified 20S proteasomes from rat liver of young (2 months) and aged (23 months) animals and separated them into three subpopulations containing different types of intermediate proteasomes with standard- and immuno-subunits. The smallest subpopulation ΙΙΙ and the major subpopulation Ι comprised proteasomes containing immuno-subunits β1i and β5i beside small amounts of standard-subunits, whereas proteasomes of subpopulation ΙΙ contained only β5i beside standard-subunits. In favour of a relative increase of the major subpopulation Ι, subpopulation ΙΙ and ΙΙΙ were reduced for about 55 % and 80 %, respectively, in aged rats. Furthermore, in all three 20S proteasome subpopulations from aged animals standard-active site subunits were replaced by immuno-subunits. Overall, this transformation resulted in a relative increase of immuno-subunit-containing proteasomes, paralleled by reduced activity towards short fluorogenic peptide substrates. However, depending on the substrate their hydrolysing activity of long polypeptide substrates was significantly higher or unchanged. Furthermore, our data revealed an altered MHC class I antigen-processing efficiency of 20S proteasomes from liver of aged rats. We therefore suggest that the age-related intramolecular alteration of hepatic proteasomes modifies its cleavage preferences without a general decrease of its activity. Such modifications could have implications on protein homeostasis as well as on MHC class I antigen presentation as part of the immunosenescence process.

Published

2014

24. Analysis of proteasome generated antigenic peptides by mass spectrometry

Author

Kathrin, Textoris-Taube, Christin, Keller, Ulrike, Kuckelkorn, and Peter-M, Kloetzel

Subjects

Epitopes, Proteasome Endopeptidase Complex, Spectrometry, Mass, Electrospray Ionization, HLA-A Antigens, Proteolysis, Antigens, Chromatography, High Pressure Liquid, Peptide Fragments

Abstract

Mass spectrometry (MS) is today one of the most important analytical techniques in biosciences. The development of electro spray ionization (ESI) as a gentle ionization method, in which molecules are not destroyed, has revolutionized the analytic of peptides. MS is an ideal technique for detection and analysis of peptides generated by in vitro experiments using purified 20S proteasomes. It also provides a convenient and sensitive way to monitor the processing activity of enzymes. The combination of high performance liquid chromatography (HPLC) with ESI-MS allows the analysis of complex samples with separation in their specific constituents by LC and their subsequent detection by MS.

Published

2013

25. Rapid degradation of solid-phase bound peptides by the 20S proteasome

Author

Marc, Hovestädt, Ulrike, Kuckelkorn, Agathe, Niewienda, Christin, Keller, Andrean, Goede, Bernhard, Ay, Stefan, Günther, Katharina, Janek, Rudolf, Volkmer, and Hermann-Georg, Holzhütter

Subjects

Hemolysin Proteins, Proteasome Endopeptidase Complex, Immobilized Proteins, Ovalbumin, Bacterial Toxins, Molecular Sequence Data, Proteolysis, Humans, Amino Acid Sequence, Heat-Shock Proteins, Peptide Fragments, Solid-Phase Synthesis Techniques, Immediate-Early Proteins

Abstract

Proteasomes are cellular proteases involved in the degradation of numerous cellular proteins. The 20S proteasome is a cylindrical 28-mer protein complex composed of two outer heptameric α-rings forming the entrance for the protein substrate and two inner heptameric β-rings carrying the catalytic sites. Numerous in vitro studies have provided evidence that the 20S proteasome may degrade peptides of various lengths and even unfolded full-length polypeptide chains. However, a direct demonstration that the 20S proteasome may also cleave surface-attached immobilized peptides is lacking so far. To this end, we used a model system by coupling peptides from different source proteins covalently to the surface of glass beads and applied nanoLC/MS analysis to monitor the generation of proteolytic fragments in the presence of the 20S proteasome. Detectable amounts of cleavage products occurred within a few minutes indicating a much higher cleavage rate than observed with the same substrates in solution. Our finding lends support to the idea that proteasomes may directly degrade segments of membrane-bound proteins protruding into the aqueous phase.

Published

2013

26. Analysis of Proteasome Generated Antigenic Peptides by Mass Spectrometry

Author

Kathrin Textoris-Taube, Christin Keller, Ulrike Kuckelkorn, and Peter-M. Kloetzel

Published

2012

27. The 20S Proteasome Splicing Activity Discovered by SpliceMet

Author

Peter M. Kloetzel, Christin Keller, Kathrin Textoris-Taube, Alexey Zaikin, Petra Henklein, Katharina Janek, Juliane Liepe, and Michele Mishto

Subjects

Proteasome Endopeptidase Complex, Fibroblast Growth Factor 5, medicine.medical_treatment, Molecular Sequence Data, Trans-splicing, Epitopes, T-Lymphocyte, Peptide, CD8-Positive T-Lymphocytes, Biology, Autoantigens, Biochemistry, Cellular and Molecular Neuroscience, Fibroblast growth factor-5, Tandem Mass Spectrometry, Genetics, medicine, Humans, Computer Simulation, Amino Acid Sequence, Databases, Protein, lcsh:QH301-705.5, Molecular Biology, Peptide sequence, Ecology, Evolution, Behavior and Systematics, chemistry.chemical_classification, Membrane Glycoproteins, Protease, Ecology, Computational Biology, Reproducibility of Results, Antigens, Nuclear, Molecular biology, Peptide Fragments, CTL, lcsh:Biology (General), Computational Theory and Mathematics, Proteasome, chemistry, Modeling and Simulation, RNA splicing, Immunology/Antigen Processing and Recognition, biology.gene, Algorithms, Software, gp100 Melanoma Antigen, Research Article

Abstract

The identification of proteasome-generated spliced peptides (PSP) revealed a new unpredicted activity of the major cellular protease. However, so far characterization of PSP was entirely dependent on the availability of patient-derived cytotoxic CD8+ T lymphocytes (CTL) thus preventing a systematic investigation of proteasome-catalyzed peptide splicing (PCPS). For an unrestricted PSP identification we here developed SpliceMet, combining the computer-based algorithm ProteaJ with in vitro proteasomal degradation assays and mass spectrometry. By applying SpliceMet for the analysis of proteasomal processing products of four different substrate polypeptides, derived from human tumor as well as viral antigens, we identified fifteen new spliced peptides generated by PCPS either by cis or from two separate substrate molecules, i.e., by trans splicing. Our data suggest that 20S proteasomes represent a molecular machine that, due to its catalytic and structural properties, facilitates the generation of spliced peptides, thereby providing a pool of qualitatively new peptides from which functionally relevant products may be selected., Author Summary MHC class I molecules present antigenic peptides derived from endogenously expressed foreign or aberrant protein molecules to the outside world so that they can be specifically recognised by cytotoxic T lymphocytes (CTLs) at the cell surface. Responsible for the generation of these peptides is the 20S proteasome, which is the major proteolytic enzyme of the cell. These peptides were so far believed to exhibit a linear sequence identical to that found in the unprocessed parental protein. Using patient derived CTL it was previously shown that by proteasome catalyzed peptide splicing, i.e., by fusion of two proteasome generated peptide fragments in a reversed proteolysis reaction, novel spliced antigenic peptides can be generated. To resolve the CTL dependence of spliced-peptide identification we here performed experiments, which combined mass spectrometric analysis of proteasome generated peptides with a computer based algorithm that predicts the masses of all theoretically possible spliced peptides from a given substrate molecule (SpliceMet). Using this unrestricted approach we here identified several new spliced peptides of which some were derived from two distinct substrate molecules. Our data reveal that peptide splicing is an intrinsic additional catalytic property of the proteasome, which may provide a qualitatively new peptide pool for immune selection.

Published

2010

28. Digitales Forschungsdatenmanagement in der Archäologie und die Initiative NFDI4Objects

Author

Christin Keller