Your search keyword '"Céline M. Laumont"' showing total 26 results

1. Global proteogenomic analysis of human MHC class I-associated peptides derived from non-canonical reading frames

Author

Céline M. Laumont, Tariq Daouda, Jean-Philippe Laverdure, Éric Bonneil, Olivier Caron-Lizotte, Marie-Pierre Hardy, Diana P. Granados, Chantal Durette, Sébastien Lemieux, Pierre Thibault, and Claude Perreault

Subjects

Science

Abstract

Cryptic translation of the 'non-coding' genome is increasingly recognised, however its biological significance remains unclear. Laumont et al.employ proteogenomic techniques to map the human immunoproteome, and find that approximately 10% of MHC class I-associated peptides are cryptic.

Published

2016

2. Transposable elements regulate thymus development and function

Author

Jean-David Larouche, Céline M Laumont, Assya Trofimov, Krystel Vincent, Leslie Hesnard, Sylvie Brochu, Caroline Côté, Juliette F Humeau, Éric Bonneil, Joel Lanoix, Chantal Durette, Patrick Gendron, Jean-Philippe Laverdure, Ellen R Richie, Sébastien Lemieux, Pierre Thibault, and Claude Perreault

Subjects

transposable elements, thymus, central tolerance, thymic epithelial cells, plasmacytoid dendritic cells, Medicine, Science, Biology (General), QH301-705.5

Abstract

Transposable elements (TEs) are repetitive sequences representing ~45% of the human and mouse genomes and are highly expressed by medullary thymic epithelial cells (mTECs). In this study, we investigated the role of TEs on T-cell development in the thymus. We performed multiomic analyses of TEs in human and mouse thymic cells to elucidate their role in T-cell development. We report that TE expression in the human thymus is high and shows extensive age- and cell lineage-related variations. TE expression correlates with multiple transcription factors in all cell types of the human thymus. Two cell types express particularly broad TE repertoires: mTECs and plasmacytoid dendritic cells (pDCs). In mTECs, transcriptomic data suggest that TEs interact with transcription factors essential for mTEC development and function (e.g., PAX1 and REL), and immunopeptidomic data showed that TEs generate MHC-I-associated peptides implicated in thymocyte education. Notably, AIRE, FEZF2, and CHD4 regulate small yet non-redundant sets of TEs in murine mTECs. Human thymic pDCs homogenously express large numbers of TEs that likely form dsRNA, which can activate innate immune receptors, potentially explaining why thymic pDCs constitutively secrete IFN ɑ/β. This study highlights the diversity of interactions between TEs and the adaptive immune system. TEs are genetic parasites, and the two thymic cell types most affected by TEs (mTEcs and pDCs) are essential to establishing central T-cell tolerance. Therefore, we propose that orchestrating TE expression in thymic cells is critical to prevent autoimmunity in vertebrates.

Published

2024

3. B cells in the tumor microenvironment: Multi-faceted organizers, regulators, and effectors of anti-tumor immunity

Author

Céline M. Laumont and Brad H. Nelson

Subjects

Cancer Research, Oncology

Published

2023

4. Tumour-infiltrating B cells: immunological mechanisms, clinical impact and therapeutic opportunities

Author

Céline M. Laumont, Allyson C. Banville, Mara Gilardi, Daniel P. Hollern, and Brad H. Nelson

Subjects

B-Lymphocytes, Lymphocytes, Tumor-Infiltrating, Neoplasms, Applied Mathematics, General Mathematics, Tumor Microenvironment, Humans, Immunotherapy, Article

Abstract

Although immunotherapy research to date has focused largely on T cells, there is mounting evidence that tumour-infiltrating B cells and plasma cells (collectively referred to as tumour-infiltrating B lymphocytes (TIL-Bs)) have a crucial, synergistic role in tumour control. In many cancers, TIL-Bs have demonstrated strong predictive and prognostic significance in the context of both standard treatments and immune checkpoint blockade, offering the prospect of new therapeutic opportunities that leverage their unique immunological properties. Drawing insights from autoimmunity, we review the molecular phenotypes, architectural contexts, antigen specificities, effector mechanisms and regulatory pathways relevant to TIL-Bs in human cancer. Although the field is young, the emerging picture is that TIL-Bs promote antitumour immunity through their unique mode of antigen presentation to T cells; their role in assembling and perpetuating immunologically 'hot' tumour microenvironments involving T cells, myeloid cells and natural killer cells; and their potential to combat immune editing and tumour heterogeneity through the easing of self-tolerance mechanisms. We end by discussing the most promising approaches to enhance TIL-B responses in concert with other immune cell subsets to extend the reach, potency and durability of cancer immunotherapy.

Published

2022

5. Table S5 from Proteogenomics Uncovers a Vast Repertoire of Shared Tumor-Specific Antigens in Ovarian Cancer

Author

Claude Perreault, Pierre Thibault, Pamela S. Ohashi, Douglas G. Millar, Sébastien Lemieux, Mathieu Courcelles, Krystel Vincent, Patrick Gendron, Céline M. Laumont, Éric Bonneil, Caroline Côté, Chantal Durette, Joël Lanoix, Jean-Philippe Laverdure, and Qingchuan Zhao

Abstract

Table S5

Published

2023

6. Data from Proteogenomics Uncovers a Vast Repertoire of Shared Tumor-Specific Antigens in Ovarian Cancer

Author

Claude Perreault, Pierre Thibault, Pamela S. Ohashi, Douglas G. Millar, Sébastien Lemieux, Mathieu Courcelles, Krystel Vincent, Patrick Gendron, Céline M. Laumont, Éric Bonneil, Caroline Côté, Chantal Durette, Joël Lanoix, Jean-Philippe Laverdure, and Qingchuan Zhao

Abstract

High-grade serous ovarian cancer (HGSC), the principal cause of death from gynecologic malignancies in the world, has not significantly benefited from advances in cancer immunotherapy. Although HGSC infiltration by lymphocytes correlates with superior survival, the nature of antigens that can elicit anti-HGSC immune responses is unknown. The goal of this study was to establish the global landscape of HGSC tumor-specific antigens (TSA) using a mass spectrometry pipeline that interrogated all reading frames of all genomic regions. In 23 HGSC tumors, we identified 103 TSAs. Classic TSA discovery approaches focusing only on mutated exonic sequences would have uncovered only three of these TSAs. Other mutated TSAs resulted from out-of-frame exonic translation (n = 2) or from noncoding sequences (n = 7). One group of TSAs (n = 91) derived from aberrantly expressed unmutated genomic sequences, which were not expressed in normal tissues. These aberrantly expressed TSAs (aeTSA) originated primarily from nonexonic sequences, in particular intronic (29%) and intergenic (22%) sequences. Their expression was regulated at the transcriptional level by variations in gene copy number and DNA methylation. Although mutated TSAs were unique to individual tumors, aeTSAs were shared by a large proportion of HGSCs. Taking into account the frequency of aeTSA expression and HLA allele frequencies, we calculated that, in Caucasians, the median number of aeTSAs per tumor would be five. We conclude that, in view of their number and the fact that they are shared by many tumors, aeTSAs may be the most attractive targets for HGSC immunotherapy.

Published

2023

7. Supplementary Figures from Proteogenomics Uncovers a Vast Repertoire of Shared Tumor-Specific Antigens in Ovarian Cancer

Author

Claude Perreault, Pierre Thibault, Pamela S. Ohashi, Douglas G. Millar, Sébastien Lemieux, Mathieu Courcelles, Krystel Vincent, Patrick Gendron, Céline M. Laumont, Éric Bonneil, Caroline Côté, Chantal Durette, Joël Lanoix, Jean-Philippe Laverdure, and Qingchuan Zhao

Abstract

Supplementary figures and legends

Published

2023

8. Supplementary Figure S14 from Single-cell Profiles and Prognostic Impact of Tumor-Infiltrating Lymphocytes Coexpressing CD39, CD103, and PD-1 in Ovarian Cancer

Author

Brad H. Nelson, Christian Steidl, John R. Webb, Katy Milne, Shelby Thornton, Lauren C. Chong, Elizabeth A. Chavez, Nicole S. Gierc, Julian Smazynski, Maartje C.A. Wouters, and Céline M. Laumont

Abstract

Supplementary Figure S14 shows the extent of TCR overlap between T-cell subsets isolated from primary HGSC tumor samples.

Published

2023

9. Supplementary Table S4 from Single-cell Profiles and Prognostic Impact of Tumor-Infiltrating Lymphocytes Coexpressing CD39, CD103, and PD-1 in Ovarian Cancer

Author

Brad H. Nelson, Christian Steidl, John R. Webb, Katy Milne, Shelby Thornton, Lauren C. Chong, Elizabeth A. Chavez, Nicole S. Gierc, Julian Smazynski, Maartje C.A. Wouters, and Céline M. Laumont

Abstract

Supplementary Table S4 presents the list of differentially expressed genes identified between triple-positive and triple-negative Tregs and between triple-positive and other Tregs.

Published

2023

10. Supplementary Data from Single-cell Profiles and Prognostic Impact of Tumor-Infiltrating Lymphocytes Coexpressing CD39, CD103, and PD-1 in Ovarian Cancer

Author

Brad H. Nelson, Christian Steidl, John R. Webb, Katy Milne, Shelby Thornton, Lauren C. Chong, Elizabeth A. Chavez, Nicole S. Gierc, Julian Smazynski, Maartje C.A. Wouters, and Céline M. Laumont

Abstract

List of Supplementary Figures and Tables, Supplementary Methods, and Supplementary References

Published

2023

11. Single-cell Profiles and Prognostic Impact of Tumor-Infiltrating Lymphocytes Coexpressing CD39, CD103, and PD-1 in Ovarian Cancer

Author

Julian Smazynski, Katy Milne, Céline M. Laumont, Shelby Thornton, Lauren C. Chong, Christian Steidl, Nicole S. Gierc, Brad H. Nelson, Maartje C.A. Wouters, Elizabeth A. Chavez, and John R. Webb

Subjects

Cancer Research, Programmed Cell Death 1 Receptor, chemical and pharmacologic phenomena, Biology, Flow cytometry, Lymphocytes, Tumor-Infiltrating, Immune system, TIGIT, Antigens, CD, medicine, Humans, Ovarian Neoplasms, medicine.diagnostic_test, Tumor-infiltrating lymphocytes, Apyrase, T-cell receptor, hemic and immune systems, Prognosis, medicine.disease, Phenotype, Cystadenocarcinoma, Serous, Oncology, Cancer research, Female, Ovarian cancer, Integrin alpha Chains, CD8

Abstract

Purpose: Tumor-infiltrating lymphocytes (TIL) are strongly associated with survival in most cancers; however, the tumor-reactive subset that drives this prognostic effect remains poorly defined. CD39, CD103, and PD-1 have been independently proposed as markers of tumor-reactive CD8+ TIL in various cancers. We evaluated the phenotype, clonality, and prognostic significance of TIL expressing various combinations of these markers in high-grade serous ovarian cancer (HGSC), a malignancy in need of more effective immunotherapeutic approaches. Experimental Design: Expression of CD39, CD103, PD-1, and other immune markers was assessed by high-dimensional flow cytometry, single-cell sequencing, and multiplex immunofluorescence of primary and matched pre/post-chemotherapy HGSC specimens. Results: Coexpression of CD39, CD103, and PD-1 (“triple-positive” phenotype) demarcated subsets of CD8+ TIL and CD4+ regulatory T cells (Treg) with a highly activated/exhausted phenotype. Triple-positive CD8+ TIL exhibited reduced T-cell receptor (TCR) diversity and expressed genes involved in both cytolytic and humoral immunity. Triple-positive Tregs exhibited higher TCR diversity and a tumor-resident phenotype. Triple-positive TIL showed superior prognostic impact relative to TIL expressing other combinations of these markers. TIGIT was uniquely upregulated on triple-positive CD8+ effector cells relative to their CD4+ Treg counterparts. Conclusions: Coexpression of CD39, CD103, and PD-1 demarcates highly activated CD8+ and CD4+ TIL with inferred roles in cytolytic, humoral, and regulatory immune functions. Triple-positive TIL demonstrate exceptional prognostic significance and express compelling targets for combination immunotherapy, including PD-1, CD39, and TIGIT.

Published

2021

12. Proteogenomics Uncovers a Vast Repertoire of Shared Tumor-Specific Antigens in Ovarian Cancer

Author

Caroline Côté, Chantal Durette, Jean-Philippe Laverdure, Claude Perreault, Pamela S. Ohashi, Mathieu Courcelles, Qingchuan Zhao, Patrick Gendron, Céline M. Laumont, Eric Bonneil, Joel Lanoix, Krystel Vincent, Sébastien Lemieux, Douglas G. Millar, and Pierre Thibault

Subjects

Cancer Research, medicine.medical_treatment, Immunology, Human leukocyte antigen, Biology, 03 medical and health sciences, 0302 clinical medicine, Cancer immunotherapy, Antigen, Antigens, Neoplasm, Biomarkers, Tumor, medicine, Humans, Copy-number variation, Allele frequency, Proteogenomics, Ovarian Neoplasms, medicine.disease, Cystadenocarcinoma, Serous, 030220 oncology & carcinogenesis, Mutation, DNA methylation, Cancer research, Female, Immunotherapy, Ovarian cancer, 030215 immunology

Abstract

High-grade serous ovarian cancer (HGSC), the principal cause of death from gynecologic malignancies in the world, has not significantly benefited from advances in cancer immunotherapy. Although HGSC infiltration by lymphocytes correlates with superior survival, the nature of antigens that can elicit anti-HGSC immune responses is unknown. The goal of this study was to establish the global landscape of HGSC tumor-specific antigens (TSA) using a mass spectrometry pipeline that interrogated all reading frames of all genomic regions. In 23 HGSC tumors, we identified 103 TSAs. Classic TSA discovery approaches focusing only on mutated exonic sequences would have uncovered only three of these TSAs. Other mutated TSAs resulted from out-of-frame exonic translation (n = 2) or from noncoding sequences (n = 7). One group of TSAs (n = 91) derived from aberrantly expressed unmutated genomic sequences, which were not expressed in normal tissues. These aberrantly expressed TSAs (aeTSA) originated primarily from nonexonic sequences, in particular intronic (29%) and intergenic (22%) sequences. Their expression was regulated at the transcriptional level by variations in gene copy number and DNA methylation. Although mutated TSAs were unique to individual tumors, aeTSAs were shared by a large proportion of HGSCs. Taking into account the frequency of aeTSA expression and HLA allele frequencies, we calculated that, in Caucasians, the median number of aeTSAs per tumor would be five. We conclude that, in view of their number and the fact that they are shared by many tumors, aeTSAs may be the most attractive targets for HGSC immunotherapy.

Published

2020

13. IgA transcytosis: A new weapon in the immune response to cancer?

Author

Céline M. Laumont and Brad H. Nelson

Subjects

0301 basic medicine, Cancer Research, Mechanism (biology), medicine.medical_treatment, Cancer, Immunotherapy, Biology, medicine.disease, 3. Good health, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Immune system, Oncology, Transcytosis, Immunity, 030220 oncology & carcinogenesis, Cancer research, medicine, biology.protein, Antibody, Cytotoxicity

Abstract

Summary Tumor-infiltrating B cells and plasma cells have emerged as critical players in anti-tumor immunity. A recent report in Nature shows that IgA antibodies produced by these cells can enter tumor cells by transcytosis, impede oncogenic signals, and facilitate T cell-mediated cytotoxicity. These findings reveal a promising new mechanism to exploit for immunotherapy.

Published

2021

14. The tumor-specific antigen landscape of acute myeloid leukemia

Author

Grégory Ehx, Krystel Vincent, Jean-David Larouche, Chantal Durette, Jean-Philippe Laverdure, Joël Lanoix, Eric Bonneil, Marie-Pierre Hardy, Caroline Coté, Nandita Noronha, Leslie Hesnard, Qingchuan Zhao, Céline M Laumont, Sébastien Lemieux, Pierre Thibault, and Claude Perreault

Subjects

Immunology, Molecular Biology

Published

2022

15. MAIT cells accumulate in ovarian cancer-elicited ascites where they retain their capacity to respond to MR1 ligands and cytokine cues

Author

Tony, Yao, Patrick T, Rudak, Céline M, Laumont, Alex R, Michaud, Rasheduzzaman, Rashu, Natasha N, Knier, Paula J, Foster, Hamish E G, McWilliam, Jose A, Villadangos, Brad H, Nelson, Gabriel E, DiMattia, Trevor G, Shepherd, and S M Mansour, Haeryfar

Subjects

Ovarian Neoplasms, Histocompatibility Antigens Class I, Interleukin-17, Ascites, CD8-Positive T-Lymphocytes, Carcinoma, Ovarian Epithelial, Ligands, Mucosal-Associated Invariant T Cells, Minor Histocompatibility Antigens, Mice, Animals, Cytokines, Humans, Female, Cues

Abstract

The low mutational burden of epithelial ovarian cancer (EOC) is an impediment to immunotherapies that rely on conventional MHC-restricted, neoantigen-reactive T lymphocytes. Mucosa-associated invariant T (MAIT) cells are MR1-restricted T cells with remarkable immunomodulatory properties. We sought to characterize intratumoral and ascitic MAIT cells in EOC. Single-cell RNA sequencing of six primary human tumor specimens demonstrated that MAIT cells were present at low frequencies within several tumors. When detectable, these cells highly expressed CD69 and VSIR, but otherwise exhibited a transcriptomic signature inconsistent with overt cellular activation and/or exhaustion. Unlike mainstream CD8

Published

2021

16. Atypical acute myeloid leukemia-specific transcripts generate shared and immunogenic MHC class-I-associated epitopes

Author

Albert Feghaly, Catherine Thériault, Grégory Ehx, Josée Hébert, Sébastien Lemieux, Eric Bonneil, Luca Vago, Guy Sauvageau, Jean-Philippe Laverdure, Pierre Thibault, Chantal Durette, Caroline Rulleau, Joel Lanoix, Jean-David Larouche, Marie-Pierre Hardy, Krystel Vincent, Anca Apavaloaei, Leslie Hesnard, Céline M. Laumont, Jean-Sébastien Delisle, Claude Perreault, Nandita Noronha, Ehx, G., Larouche, J. -D., Durette, C., Laverdure, J. -P., Hesnard, L., Vincent, K., Hardy, M. -P., Theriault, C., Rulleau, C., Lanoix, J., Bonneil, E., Feghaly, A., Apavaloaei, A., Noronha, N., Laumont, C. M., Delisle, J. -S., Vago, L., Hebert, J., Sauvageau, G., Lemieux, S., Thibault, P., and Perreault, C.

Subjects

0301 basic medicine, immunopeptidome, medicine.medical_treatment, Mice, SCID, Epitope, Epigenesis, Genetic, Epitopes, Mice, 0302 clinical medicine, Cancer immunotherapy, Mice, Inbred NOD, hemic and lymphatic diseases, Immunology and Allergy, Cytotoxic T cell, mass spectrometry, biology, Myeloid leukemia, major histocompatibility complex, non-canonical translation, Leukemia, Myeloid, Acute, Infectious Diseases, 030220 oncology & carcinogenesis, Neoplastic Stem Cells, Immunotherapy, tumor-specific, intron, Immunology, Receptors, Antigen, T-Cell, acute myeloid leukemia, Major histocompatibility complex, Cell Line, 03 medical and health sciences, antigen, Antigen, Antigens, Neoplasm, MHC class I, medicine, Animals, Humans, cancer immunotherapy, Histocompatibility Antigens Class I, antigen discovery, 030104 developmental biology, CD8 T cell, Immunoediting, Mutation, Cancer research, biology.protein, T-Lymphocytes, Cytotoxic

Abstract

Summary Acute myeloid leukemia (AML) has not benefited from innovative immunotherapies, mainly because of the lack of actionable immune targets. Using an original proteogenomic approach, we analyzed the major histocompatibility complex class I (MHC class I)-associated immunopeptidome of 19 primary AML samples and identified 58 tumor-specific antigens (TSAs). These TSAs bore no mutations and derived mainly (86%) from supposedly non-coding genomic regions. Two AML-specific aberrations were instrumental in the biogenesis of TSAs, intron retention, and epigenetic changes. Indeed, 48% of TSAs resulted from intron retention and translation, and their RNA expression correlated with mutations of epigenetic modifiers (e.g., DNMT3A). AML TSA-coding transcripts were highly shared among patients and were expressed in both blasts and leukemic stem cells. In AML patients, the predicted number of TSAs correlated with spontaneous expansion of cognate T cell receptor clonotypes, accumulation of activated cytotoxic T cells, immunoediting, and improved survival. These TSAs represent attractive targets for AML immunotherapy.

Published

2020

17. Immunogenic stress and death of cancer cells: Contribution of antigenicity vs adjuvanticity to immunosurveillance

Author

Antonella Sistigu, Steffen Walter, Juliette Humeau, Aitziber Buqué, Jan W. Drijfhout, Laura Senovilla, Norma Bloy, Claude Perreault, Guido Kroemer, Pauline Garcia, Jonathan Pol, Céline M. Laumont, Eric Bonneil, Jonathan M. Pitt, Takahiro Yamazaki, Laurence Zitvogel, Hans-Georg Rammensee, Jens Fritsche, Toni Weinschenk, Pierre Thibault, Cornelis J. M. Melief, Gautier Stoll, and Guillaume Meurice

Subjects

0301 basic medicine, autophagy, Programmed cell death, immunopeptidome, Immunology, Antigen presentation, hyperploidy, Major histocompatibility complex, calreticulin, Mice, 03 medical and health sciences, Adenosine Triphosphate, Immune system, Adjuvants, Immunologic, Antigen, Antigens, Neoplasm, Monitoring, Immunologic, Neoplasms, Animals, Humans, Immunology and Allergy, Immunologic Surveillance, Cell Death, biology, Autophagy, food and beverages, Cell biology, Immunosurveillance, 030104 developmental biology, Cancer cell, endoplasmic reticulum stress, biology.protein, Signal Transduction

Abstract

Cancer cells are subjected to constant selection by the immune system, meaning that tumors that become clinically manifest have managed to subvert or hide from immunosurveillance. Immune control can be facilitated by induction of autophagy, as well as by polyploidization of cancer cells. While autophagy causes the release of ATP, a chemotactic signal for myeloid cells, polyploidization can trigger endoplasmic reticulum stress with consequent exposure of the "eat-me" signal calreticulin on the cell surface, thereby facilitating the transfer of tumor antigens into dendritic cells. Hence, both autophagy and polyploidization cause the emission of adjuvant signals that ultimately elicit immune control by CD8+ T lymphocytes. We investigated the possibility that autophagy and polyploidization might also affect the antigenicity of cancer cells by altering the immunopeptidome. Mass spectrometry led to the identification of peptides that were presented on major histocompatibility complex (MHC) class I molecules in an autophagy-dependent fashion or that were specifically exposed on the surface of polyploid cells, yet lost upon passage of such cells through immunocompetent (but not immunodeficient) mice. However, the preferential recognition of autophagy-competent and polyploid cells by the innate and cellular immune systems did not correlate with the preferential recognition of such peptides in vivo. Moreover, vaccination with such peptides was unable to elicit tumor growth-inhibitory responses in vivo. We conclude that autophagy and polyploidy increase the immunogenicity of cancer cells mostly by affecting their adjuvanticity rather than their antigenicity.

Published

2017

18. The Summit for Cancer Immunotherapy (Summit4CI), June 26–29, 2016 Halifax, Canada

Author

Maartje C.A. Wouters, Seong Jun Han, Kathy Matuszewska, Branson Chen, Jeanette E. Boudreau, Connie M. Krawczyk, Céline M. Laumont, and Kyle Potts

Subjects

Cancer Research, geography, medicine.medical_specialty, Summit, geography.geographical_feature_category, business.industry, Immunology, Virology, Oncology, Cancer genetics, Family medicine, Immunology and Allergy, Medicine, business

Published

2017

19. Noncoding regions are the main source of targetable tumor-specific antigens

Author

Charles St-Pierre, Eric Bonneil, Leslie Hesnard, Jean-Philippe Laverdure, Joel Lanoix, Chantal Durette, Céline M. Laumont, Éric Audemard, Marie-Pierre Hardy, Krystel Vincent, Suzanne Vobecky, Mathieu Courcelles, Claude Perreault, Mohamed Benhammadi, Elie Haddad, Caroline Côté, Patrick Gendron, Pierre Thibault, and Sébastien Lemieux

Subjects

0301 basic medicine, medicine.medical_treatment, T-Lymphocytes, Tumor specific, Computational biology, Biology, 03 medical and health sciences, Interferon-gamma, Cancer immunotherapy, Antigen, Antigens, Neoplasm, Cell Line, Tumor, Neoplasms, MHC class I, medicine, Animals, Humans, Amino Acid Sequence, Exome, Proteogenomics, Mice, Inbred BALB C, Repertoire, General Medicine, Mice, Inbred C57BL, 030104 developmental biology, Cell culture, Protein Biosynthesis, biology.protein, DNA, Intergenic, Immunization, Peptides

Abstract

Tumor-specific antigens (TSAs) represent ideal targets for cancer immunotherapy, but few have been identified thus far. We therefore developed a proteogenomic approach to enable the high-throughput discovery of TSAs coded by potentially all genomic regions. In two murine cancer cell lines and seven human primary tumors, we identified a total of 40 TSAs, about 90% of which derived from allegedly noncoding regions and would have been missed by standard exome-based approaches. Moreover, most of these TSAs derived from nonmutated yet aberrantly expressed transcripts (such as endogenous retroelements) that could be shared by multiple tumor types. Last, we demonstrated that, in mice, the strength of antitumor responses after TSA vaccination was influenced by two parameters that can be estimated in humans and could serve for TSA prioritization in clinical studies: TSA expression and the frequency of TSA-responsive T cells in the preimmune repertoire. In conclusion, the strategy reported herein could considerably facilitate the identification and prioritization of actionable human TSAs.

Published

2018

20. The nature of self for T cells—a systems-level perspective

Author

Céline M. Laumont, Diana Paola Granados, Claude Perreault, and Pierre Thibault

Subjects

Inflammation, Proteomics, Genetics, Antigen Presentation, T-Lymphocytes, Immunology, Reading frame, Computational biology, Biology, Infections, Key features, Autoantigens, Transcriptome, Self Tolerance, Proteome, Animals, Humans, Immunology and Allergy, Alphabet, Function (biology)

Abstract

T-cell development and function are regulated by MHC-associated self peptides, collectively referred to as the immunopeptidome. Large-scale mass spectrometry studies have highlighted three key features of the immunopeptidome. First, it is not a mirror of the proteome or the transcriptome, and its content cannot be predicted with currently available bioinformatic tools. Second, the immunopeptidome is more plastic than previously anticipated, and is molded by several cell-intrinsic and cell-extrinsic factors. Finally, the complexity of the immunopeptidome goes beyond the 20-amino acids alphabet encoded in the germline, and is not restricted to canonical reading frames. The large amounts of 'dark matter' in the immunopeptidome, such as polymorphic, cryptic and mutant peptides, can now be explored using novel proteogenomic approaches that combine mass spectrometry and next-generation sequencing.

Published

2015

21. Exploiting non-canonical translation to identify new targets for T cell-based cancer immunotherapy

Author

Claude Perreault and Céline M. Laumont

Subjects

0301 basic medicine, T-Lymphocytes, Reading frame, Computational biology, Biology, Major histocompatibility complex, Immunotherapy, Adoptive, 03 medical and health sciences, Cellular and Molecular Neuroscience, Neoplasms, Animals, Humans, Molecular Biology, Gene, Pharmacology, Genetics, Immunity, Cellular, Antigen processing, Repertoire, Translation (biology), Cell Biology, Open reading frame, 030104 developmental biology, Protein Biosynthesis, biology.protein, Molecular Medicine, Human genome

Abstract

Cryptic MHC I-associated peptides (MAPs) are produced via two mechanisms: translation of protein-coding genes in non-canonical reading frames and translation of allegedly non-coding sequences. In general, cryptic MAPs are coded by relatively short open reading frames whose translation can be regulated at the level of initiation, elongation or termination. In contrast to conventional MAPs, the processing of cryptic MAPs is frequently proteasome independent. The existence of cryptic MAPs derived from allegedly non-coding regions enlarges the scope of CD8 T cell immunosurveillance from a mere ~2% to as much as ~75% of the human genome. Considering that 99% of cancer-specific mutations are located in those allegedly non-coding regions, cryptic MAPs could furthermore represent a particularly rich source of tumor-specific antigens. However, extensive proteogenomic analyses will be required to determine the breath as well as the temporal and spatial plasticity of the cryptic MAP repertoire in normal and neoplastic cells.

Published

2017

22. Rejection of Leukemic Cells Requires Antigen-Specific T Cells with High Functional Avidity

Author

Hugo Soudeyns, Pierre Thibault, Céline M. Laumont, Marie-Pierre Hardy, Krystel Vincent, Insaf Salem Fourati, Dev Sriranganadane, Claude Perreault, Sarah Hadj-Mimoune, and Assya Trofimov

Subjects

Male, medicine.medical_treatment, Epitopes, T-Lymphocyte, Gene Expression, Mice, Transgenic, CD8-Positive T-Lymphocytes, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma, Major histocompatibility complex, Immunotherapy, Adoptive, Epitope, Major Histocompatibility Complex, Minor Histocompatibility Antigens, Mice, Antigen, Antigens, Neoplasm, Minor histocompatibility antigen, medicine, Animals, Cytotoxic T cell, Leukemia immunotherapy, Avidity, Cell Proliferation, Transplantation, Thymocytes, biology, Dendritic Cells, Hematology, Immunotherapy, medicine.disease, 3. Good health, Leukemia, Leukemia-associated antigen, Immunology, biology.protein, Female, Immunization, Peptides, CD8 T lymphocyte

Abstract

In a context where injection of antigen (Ag)-specific T cells probably represents the future of leukemia immunotherapy, identification of optimal target Ags is crucial. We therefore sought to discover a reliable marker for selection of the most potent Ags. To this end, (1) we immunized mice against 8 individual Ags: 4 minor histocompatibility Ags (miHAs) and 4 leukemia-associated Ags (LAAs) that were overexpressed on leukemic relative to normal thymocytes; (2) we assessed their ability to reject EL4 leukemic cells; and (3) we correlated the properties of our Ags (and their cognate T cells) with their ability to induce protective antileukemic responses. Overall, individual miHAs instigated more potent antileukemic responses than LAAs. Three features had no influence on the ability of primed T cells to reject leukemic cells: (1) MHC-peptide affinity; (2) the stability of MHC-peptide complexes; and (3) epitope density at the surface of leukemic cells, as assessed using mass spectrometry. The cardinal feature of successful Ags is that they were recognized by high-avidity CD8 T cells that proliferated extensively in vivo. Our work suggests that in vitro evaluation of functional avidity represents the best criterion for selection of Ags, which should be prioritized in clinical trials of leukemia immunotherapy.

Published

2014

23. MHC I–associated peptides preferentially derive from transcripts bearing miRNA response elements

Author

Diana Paola Granados, Claude Perreault, Sébastien Lemieux, Céline M. Laumont, Jean-Philippe Laverdure, Pierre Thibault, Wafaa Yahyaoui, Tara L. Muratore-Schroeder, Tariq Daouda, and Caroline Côté

Subjects

Immunology, Human leukocyte antigen, Response Elements, Major histocompatibility complex, Models, Biological, Biochemistry, MHC class I, Humans, RNA, Messenger, Cells, Cultured, Genetics, Antigen Presentation, HLA-A Antigens, biology, Microarray analysis techniques, Gene Expression Profiling, HEK 293 cells, RNA, Cell Biology, Hematology, Microarray Analysis, Cell biology, Gene expression profiling, MicroRNAs, HEK293 Cells, HLA-B Antigens, biology.protein, Peptides, Biogenesis, HeLa Cells

Abstract

MHC I–associated peptides (MIPs) play an essential role in normal homeostasis and diverse pathologic conditions. MIPs derive mainly from defective ribosomal products (DRiPs), a subset of nascent proteins that fail to achieve a proper conformation and the physical nature of which remains elusive. In the present study, we used high-throughput proteomic and transcriptomic methods to unravel the structure and biogenesis of MIPs presented by HLA-A and HLA-B molecules on human EBV-infected B lymphocytes from 4 patients. We found that although HLA-different subjects present distinctive MIPs derived from different proteins, these MIPs originate from proteins that are functionally interconnected and implicated in similar biologic pathways. Secondly, the MIP repertoire of human B cells showed no bias toward conserved versus polymorphic genomic sequences, were derived preferentially from abundant transcripts, and conveyed to the cell surface a cell-type–specific signature. Finally, we discovered that MIPs derive preferentially from transcripts bearing miRNA response elements. Furthermore, whereas MIPs of HLA-disparate subjects are coded by different sets of transcripts, these transcripts are regulated by mostly similar miRNAs. Our data support an emerging model in which the generation of MIPs by a transcript depends on its abundance and DRiP rate, which is regulated to a large extent by miRNAs.

Published

2012

24. Meeting report--9th IRIC International Symposium on Molecular Targets in Cancer Genomics

Author

Céline M. Laumont, David Haberl, Rahul Ghugari, and Sarah Tsao

Subjects

Medical education, education, Cancer, Genomics, Cell Biology, Biology, Congresses as Topic, medicine.disease, Genomic Instability, Epigenesis, Genetic, Training center, Graduate students, Neoplasms, Molecular targets, medicine, Humans

Abstract

Graduate students and postdoctoral fellows at the Institute for Research in Immunology and Cancer (IRIC) organized the 9th IRIC International Symposium on 14–15 May, 2015. The symposium was held at the IRIC, an ultra-modern research hub and training center located on the hilltop of the Université de Montréal campus in Montreal, Canada. This year's title was ‘Molecular Targets in Cancer Genomics', reflecting the common interest of the IRIC student community. Through four broadly themed sessions, organizers sought to highlight the new generation of anti-cancer strategies including targeted therapies directed against actionable cancer-specific mutations, and immunotherapies, which enhance immune responses against cancer. Both targeted and immunotherapies are tailored to cancer-specific features, and require precise knowledge of cancer cells, from their genome to their proteome. The focus of this symposium was on translating the molecular basis of cancer into a functional understanding of aberrant pathways, and to uncover novel targets to be exploited for cancer therapeutic strategies.

Published

2015

25. Impact of genomic polymorphisms on the repertoire of human MHC class I-associated peptides

Author

Dev Sriranganadane, Caroline Côté, Pierre Thibault, Sébastien Lemieux, Patrick Gendron, Marie-Pierre Hardy, Tariq Daouda, Olivier Caron-Lizotte, Claude Perreault, Céline M. Laumont, Geneviève Boucher, Antoine Zieger, and Diana Paola Granados

Subjects

General Physics and Astronomy, Biology, Major histocompatibility complex, General Biochemistry, Genetics and Molecular Biology, Article, Major Histocompatibility Complex, 03 medical and health sciences, 0302 clinical medicine, Polymorphism (computer science), MHC class I, Minor histocompatibility antigen, Humans, Allele, Allorecognition, Exome, Alleles, 030304 developmental biology, Genetics, 0303 health sciences, Multidisciplinary, Polymorphism, Genetic, Repertoire, General Chemistry, 030220 oncology & carcinogenesis, biology.protein, Peptides

Abstract

For decades, the global impact of genomic polymorphisms on the repertoire of peptides presented by major histocompatibility complex (MHC) has remained a matter of speculation. Here we present a novel approach that enables high-throughput discovery of polymorphic MHC class I-associated peptides (MIPs), which play a major role in allorecognition. On the basis of comprehensive analyses of the genomic landscape of MIPs eluted from B lymphoblasts of two MHC-identical siblings, we show that 0.5% of non-synonymous single nucleotide variations are represented in the MIP repertoire. The 34 polymorphic MIPs found in our subjects are encoded by bi-allelic loci with dominant and recessive alleles. Our analyses show that, at the population level, 12% of the MIP-coding exome is polymorphic. Our method provides fundamental insights into the relationship between the genomic self and the immune self and accelerates the discovery of polymorphic MIPs (also known as minor histocompatibility antigens)., Mass spectrometry (MS) has furthered our understanding of MHC class I-associated peptides (MIPs), but the technique is inadequate for studying MIP-associated polymorphisms. Here, the authors combine high-throughput MS with exome and transcriptome sequencing to identify polymorphic MIPs from two female siblings.

Published

2013

26. The immunopeptidome of normal and neoplastic cells

Author

Céline M. Laumont, Claude Perreault, Diana Paola Granados, and Pierre Thibault

Subjects

Cancer Research, Genetics, Cell Biology, Hematology, Molecular Biology

Published

2014