Self-reactive cytotoxic γδ T lymphocytes in Graves' disease specifically recognize thyroid epithelial cells

SCOPUS: ar.jinfo:eu-repo/semantics/publishe

New paradigm in NKT cell antigens: MCS‐0208 (2‐(Hydroxymethyl)phenylthio‐phytoceramide) an aryl‐phytoceramide compound with a single hydroxyl group stimulates NKT cells

Natural Killer T (NKT) cells play an important role in the immune response and can be activated by glycolipids presented by CD1d protein. We present MCS‐0208, an unprecedented arylthioether‐phytoceramide able to induce potent invariant NKT (iNKT) cell activation, notably when tested in human iNKT cells. This arylsphingolipid analog has a simple phenyl group containing a single hydroxyl substituent as a surrogate of the sugar ring. The phenylthioether structure contrasts with α‐galactosylceramide (1), the prototypical glycolipid used to induce iNKT cell stimulation, where the galactose 2’‐OH and 3’‐OH substituents are accepted as the minimal footprint and considered critical for NKT T cell receptor (TCR) recognition. A computational study supports the recognition of aromatic compound by the CD1d and TCR proteins as radically new structures for NKT cell stimulation

New Paradigm in NKT Cell Antigens : MCS-0208 (2-(Hydroxymethyl)phenylthio-phytoceramide) - an Aryl-Phytoceramide Compound with a Single Hydroxyl Group Stimulates NKT Cells

Natural Killer T (NKT) cells play an important role in the immune response and can be activated by glycolipids presented by CD1d protein. We present MCS-0208, an unprecedented arylthioether-phytoceramide able to induce potent invariant NKT (iNKT) cell activation, notably when tested in human iNKT cells. This arylsphingolipid analog has a simple phenyl group containing a single hydroxyl substituent as a surrogate of the sugar ring. The phenylthioether structure contrasts with α-galactosylceramide (1), the prototypical glycolipid used to induce iNKT cell stimulation, where the galactose 2'-OH and 3'-OH substituents are accepted as the minimal footprint and considered critical for NKT T cell receptor (TCR) recognition. A computational study supports the recognition of aromatic compound by the CD1d and TCR proteins as radically new structures for NKT cell stimulation. Stimulating NKT cells. Breaking the rules of chemical structure of antigens for NKT cells stimulation, a single phenyl-hydorxymethyl moiety is able to stimulate NKT cells via CD1d presentation. The replacement of alpha-galacose by hydroxymethyl-phenyl-thioether lead to a interesting new NKT cell antigen, opening an unexplored chemical space for new antigens development with promising profile

Epstein-Barr virus+ B cells in breast cancer immune response: a case report

EBV-specific T cells have been recently described to be involved in fatal encephalitis and myocarditis in cancer patients after immune checkpoint therapies. Here, we report the study of a human triple-negative breast cancer tumor (TNBC) and EBV-transformed B cells obtained from a patient-derived xenograft (PDX) that progressed into a lymphocytic neoplasm named xenograft-associated B-cell lymphoma (XABCL). T-cell receptor (TCR) high-throughput sequencing was performed to monitor the T-cell clonotypes present in the different samples. Forty-three T-cell clonotypes were found infiltrating the XABCL tissue after three passes in mice along 6 months. Eighteen of these (42%) were also found in the TNBC biopsy. TCR infiltrating the XABCL tissue showed a very restricted T-cell repertoire as compared with the biopsy-infiltrating T cells. Consequently, T cells derived from the TNBC biopsy were expanded in the presence of the B-cell line obtained from the XABCL (XABCL-LCL), after which the TCR repertoire obtained was again very restricted, i.e., only certain clonotypes were selected by the B cells. A number of these TCRs had previously been reported as sequences involved in infection, cancer, and/or autoimmunity. We then analyzed the immunopeptidome from the XABCL-LCL, to identify putative B-cell-associated peptides that might have been expanding these T cells. The HLA class I and class II-associated peptides from XABCL-LCL were then compared with published repertoires from LCL of different HLA typing. Proteins from the antigen processing and presentation pathway remained significantly enriched in the XABCL-LCL repertoire. Interestingly, some class II-presented peptides were derived from cancer-related proteins. These results suggest that bystander tumor-infiltrating EBV+ B cells acting as APC may be able to interact with tumor-infiltrating T cells and influence the TCR repertoire in the tumor site.This project was funded by Roche Farma, S.A. grant SP181123001 and the Spanish Ministry of Science, Innovation and Universities grant RTI2018-097414-B-I00. Partial financial support was received from the “El Paseíco de la Mama” 2015. This study received partial funding from Roche Farma, S.A. The funders were not involved in the study design, collection, analysis, interpretation of data, the writing of this article, or the decision to submit it for publication