Langerhans Cell Histiocytosis (LCH) is a neoplastic disorder of hematopoietic origin characterized by inflammatory lesions containing clonal histiocytes (LCH-cells) intermixed with various immune... Show moreLangerhans Cell Histiocytosis (LCH) is a neoplastic disorder of hematopoietic origin characterized by inflammatory lesions containing clonal histiocytes (LCH-cells) intermixed with various immune cells, including T cells. In 50-60% of LCH-patients, the somatic BRAF(V600E) driver mutation, which is common in many cancers, is detected in these LCH-cells in an otherwise quiet genomic landscape. Non-synonymous mutations like BRAF(V600E) can be a source of neoantigens capable of eliciting effective antitumor CD8(+) T cell responses. This requires neopeptides to be stably presented by Human Leukocyte Antigen (HLA) class I molecules and sufficient numbers of CD8(+) T cells at tumor sites. Here, we demonstrate substantial heterogeneity in CD8(+) T cell density in n = 101 LCH-lesions, with BRAF(V600E) mutated lesions displaying significantly lower CD8(+) T cell:CD1a(+) LCH-cell ratios (p = 0.01) than BRAF wildtype lesions. Because LCH-lesional CD8(+) T cell density had no significant impact on event-free survival, we investigated whether the intracellularly expressed BRAF(V600E) protein is degraded into neopeptides that are naturally processed and presented by cell surface HLA class I molecules. Epitope prediction tools revealed a single HLA class I binding BRAF(V600E) derived neopeptide (KIGDFGLATEK), which indeed displayed strong to intermediate binding capacity to HLA-A*03:01 and HLA-A*11:01 in an in vitro peptide-HLA binding assay. Mass spectrometry-based targeted peptidomics was used to investigate the presence of this neopeptide in HLA class I presented peptides isolated from several BRAF(V600E) expressing cell lines with various HLA genotypes. While the HLA-A*02:01 binding BRAF wildtype peptide KIGDFGLATV was traced in peptides isolated from all five cell lines expressing this HLA subtype, KIGDFGLATEK was not detected in the HLA class I peptidomes of two distinct BRAF(V600E) transduced cell lines with confirmed expression of HLA-A*03:01 or HLA-A*11:01. These data indicate that the in silico predicted HLA class I binding and proteasome-generated neopeptides derived from the BRAF(V600E) protein are not presented by HLA class I molecules. Given that the BRAF(V600E) mutation is highly prevalent in chemotherapy refractory LCH-patients who may qualify for immunotherapy, this study therefore questions the efficacy of immune checkpoint inhibitor therapy in LCH. Show less
In this thesis, we studied some of the genetic and molecular alterations that accompany the tumorigenesis of mismatch repair (MMR) and MUTYH deficient colorectal cancers, with focus on immune... Show moreIn this thesis, we studied some of the genetic and molecular alterations that accompany the tumorigenesis of mismatch repair (MMR) and MUTYH deficient colorectal cancers, with focus on immune escape mechanisms. We discovered that loss of Human Leukocyte Antigen (HLA) class I expression was more frequent in those tumors than in the remaining spectrum of colorectal cancers (CRCs), and that distinct genetic mechanisms explained HLA class I abrogation in sporadic and hereditary mismatch repair deficient tumors. We then explored a potential association between the magnitude and quality of lymphocytic infiltration with the tumors__ HLA class I phenotypes and clinicopathological stages in a cohort of Lynch CRCs. Higher lymphocytic infiltration, particularly of cytotoxic lymphocytes, was observed in cancers presenting HLA class I defects and in tumors diagnosed at earlier stages, thus, supporting the role of the immune system in selecting immune evasive tumor traits and in counteracting cancer progression. Finally, we functionally characterized one of the most common genetic alterations that occur in MMR deficient CRCs. We demonstrated that TGFbeta signalling is active in these tumors and that TGFbeta activation occurs in a TGFBR2-dependent manner, despite the presence of truncating biallelic mutations in its gene in the majority of MMR deficient tumors. Show less
