Project description:Anti-leukemia immunity plays an important role for disease control and maintenance of tyrosine kinase inhibitor (TKI)-free remission in chronic myeloid leukemia (CML). Antigen-specific immunotherapy holds promise to strengthen immune control in CML, but requires the identification of CML-associated targets. In this study, we used a mass spectrometry-based approach to identify naturally presented HLA class I- and class II-presented peptides in 20 primary CML samples. Comparative HLA ligandome profiling using a comprehensive dataset of different hematological benign specimen delineated a novel panel of frequently expressed CML-exclusive peptides. These non-mutated target antigens are of particular relevance since our extensive data-mining approach demonstrated absence of naturally presented BCR-ABL- and ABL-BCR-derived HLA-presented peptides and the lack of frequent tumor-exclusive presentation of predescribed cancer/testis and leukemia-associated antigens. Functional characterization revealed spontaneous T-cell responses against the newly identified CML-associated peptides in CML patients and their ability to de novo induce multifunctional and cytotoxic antigen-specific T cells in healthy volunteers and CML patients. This characterizes these antigens as prime candidates for T cell-based immunotherapy approaches that may prolong TKI-free survival and even mediate cure of CML patients.

Project description:T cell-based immunotherapies, which have become a promising treatment approach for cancer patients, rely on the identification of human leukocyte antigen (HLA)-presented peptides. Mass spectrometry-based immunopeptidomics is the state-of-the-art method for the identification of clinically relevant naturally presented HLA-restricted tumor-associated antigens. In the last years, different methods for the immunoprecipitation-based isolation of HLA-presented peptides have been developed and are used in the field. Here, we performed a comparison of a column-based with a high-throughput 96-well method by analyzing the immunopeptidome of cell lines as well as primary solid and hematological tumor samples. Whereas no differences in the total number of identified peptides were observed, the column-based method identified method-exclusive peptides that featured higher hydrophobicity and exhibited improved predicted immunogenicity. Adding an additional acetonitrile elution step to the 96-well method could partially reduce this hydrophilic shift. In total, we showed that immunopeptidomics data is affected by the immunoprecipitation method used for isolation, which might have a critical impact on the selection of target antigens and has to be considered when selecting clinically relevant targets for the development of T cell-based immunotherapies.

Project description:Immunopeptidome analysis of ovarian carcinoma tissues was performed to characterize the HLA class I and class II presented ligandome of this malignancy.

Project description:HLA ligandome analysis of colorectal adenocarcinoma tissues obtained from liver metastases (mCRC) as well as adjacent non-malignant liver tissues was performed to characterize the natural HLA class I and class II presented ligands on both mCRC and adjacent liver tissue.

Project description:Mass-spectrometry based immunopeptidomics has provided unprecedented insights into antigen presentation, not only charting an enormous ligandome of self-antigens, but also cancer neo-antigens and peptide antigens harbouring post-translational modifications. Here we concentrate on the latter, focusing on the small subset of HLA Class I peptides (less than 1%) that has been observed to be post-translationally modified (PTM) by a O-linked N-acetylglucosamine (GlcNAc). Just like neo-antigens these modified antigens may have specific immunomodulatory functions. Here we compiled from literature, and a new dataset originating from JY B cell lymphoblastoid line cells, a concise albeit comprehensive list of O-GlcNAcylated HLA class I peptides. The cumulative list of O-GlcNAcylated HLA peptides originates from diverse datasets, entailing normal and cancer cell lines as well as tissue samples. Interestingly, the overlap in detected O-GlcNAcylated HLA peptides as well as their source proteins is strikingly high. From the compiled list we extract that O-GlcNAcylated HLA Class I peptides are preferentially presented by the HLA-B07:02 allele. This allele accommodates a Proline anchoring site at position 2, and a binding groove that can accommodate the recently proposed consensus sequence for O-GlcNAcylation, P(V/A/T/S)g(S/T). Most of the O-GlcNAcylated HLA peptides originate from nuclear proteins, notably transcription factors. The conclusions drawn from the compiled list, may assist to predict novel O-GlcNAcylated HLA antigens, which will likely be presented best by patients harbouring HLA-B7:02, or related, alleles that uses Proline as anchoring residue.

Project description:Persistent therapy-resistant leukemic progenitor cells (LPC) are a main cause of disease relapse and recurrence in acute myeloid leukemia (AML). Specific LPC-targeting therapies may thus improve treatment outcome of AML patients. We demonstrate that LPCs present human leukocyte antigen (HLA)-restricted cancer antigens that induce T cell responses allowing for immune surveillance of AML. Using a mass spectrometry-based immunopeptidomics approach we characterized the antigenic landscape of patient LPCs and identify AML/LPC-associated HLA-presented antigens as well as mutation-derived and cryptic neoepitopes as prime targets for development of T cell-based immunotherapeutic approaches. We observed frequent spontaneous memory T cells targeting these AML/LPC-associated antigens in AML patients and showed that antigen-specific T cell recognition and HLA class II immunopeptidome diversity impacts clinical outcome. Our results pave the way for implementation of AML/LPC-associated antigens for T cell-based immunotherapeutic approaches to specifically target and eliminate residual LPCs in AML patients.

Project description:Immunopeptidome analysis of colorectal adenocarcinoma tissues as well as adjacent benign tissues was performed to characterize the natural HLA class I and class II presented ligandome represented in the context of malignancy as well as in benign tissue of the colon.

Project description:Glioblastoma multiforme (GBM) is the most aggressive brain tumor with poor prognosis to most patients. Immunotherapy of GBM is a potentially beneficial treatment option, whose optimal implementation may depend on familiarity with tumor specific antigens, presented as HLA peptides by the GBM cells. Furthermore, early detection of GBM, such as by a routine blood test, may improve survival, even with the current treatment modalities. This study includes large-scale analyses of the HLA peptidome (immunopeptidome) of the plasma-soluble HLA molecules (sHLA) of 142 plasma samples and the membranal HLA of GBM tumors of 10 tumor samples of the same patients. Tumor samples were fresh-frozen immediately after surgery and plasma samples were collected before, and at multiple visits after surgery. In total, this HLA peptidome analysis involved 52 different HLA allotypes and resulted in the identification of more than 35,000 different HLA peptides. Strong correlations were observed in the signal intensities and in the repertoires of identified peptides between the tumors and plasma-soluble HLA peptidomes of the same patients; yet, low correlations were observed between these HLA peptidomes and the tumors’ proteomes. HLA peptides derived from Cancer/Testis Antigens (CTAs) were selected based on their presence among the HLA peptidomes of the patients and absence of expression of their source genes from any healthy and essential human tissues, except from immune-privileged sites. Additionally, peptides were selected as potential biomarkers if their levels in the plasma-sHLA peptidome were significantly reduced after the removal of tumor mass. The CTAs identified among the analyzed HLA peptidomes provide new opportunities for personalized immunotherapy and for early diagnosis of GBM.

Project description:Whether the presentation levels of the major histocompatibility complex (MHC, called the human leukocytes antigens, HLA, in humans) is limited by the availability of peptide ligands for loading or by the supply of empty MHC molecules, is a yet unresolved issue. This study aims to tackle this dilemma using large-scale immunopeptidome analyses. First, cultured cells (MCF-7) were treated with interferons, which dramatically increased presentation levels of their HLA-B molecules, much more than HLA-A and HLA-C. The differential increase in the HLA-B molecules with their bound peptides, was driven by elevated HLA synthesis levels and not by supply of peptides, since all three HLA allotypes draw peptides from the same peptide pool, which should have been affected similarly by the interferons treatment. In addition, artificial competition for peptides was created by recombinant high levels expression of soluble HLA-A*02:01 molecules, in the same MCF-7 cells and on top of their endogenous membranal HLA-A*02:01. This high level expression of the soluble HLA did not affect the endogenous membranal HLA-A*02:01 peptidomes or its cell surface presentation levels. We therefore concluded that a surplus supply of peptides is available for loading and that presentation levels are more likely limited by the supply of HLA molecules.

Project description:Treatment of cancer cells with anti-cancer drugs often fails to achieve complete remission. Yet, such drug treatments may induce alteration in the tumor’s gene expression patterns, including those of Cancer/Testis Antigens (CTA). The degradation products of such antigens can be presented as HLA peptides on the surface of the tumor cells and be developed into anti-cancer immunotherapeutics. For example, the DNA methyl transferase inhibitor, 5-aza-2'-deoxycytidine (Decitabine) has limited anti-tumor efficacy, yet it induces the expression of many genes, including CTAs that are normally silenced in the healthy adult tissues. In this study, the presentation of many new HLA peptides derived from CTAs and induced by Decitabine was demonstrated in three human Glioblastoma cell lines. Such presentation of CTA-derived HLA peptides can be exploited for development of new treatment modalities, combining drug treatment with anti-CTA targeted immunotherapy. The Decitabine-induced HLA peptidomes include many CTAs that are not normally detected in healthy tissues or in cancer cells, unless treated with the drug. In addition, the study included large-scale analyses of the simultaneous effects of Decitabine on the transcriptomes, proteomes and HLA peptidomes of the human Glioblastoma cells. It demonstrates the poor correlations between these three levels of gene expression, both in their total levels and in their response to the drug.