Project description:Mycosis fungoides (MF) is the most common subtype of cutaneous T-cell lymphoma, arising from clonal expansion of transformed skin-homing memory T cells. However, the lack of specific markers for malignant lymphocytes prevents distinguishing them from benign T cells in the tumor microenvironment (TME) of MF, thus delaying diagnosis and development of specific treatment, which results in poor clinical outcomes. Here we employed recent advances in single-cell RNA-sequencing to establish the transcriptome of expanded T-cell clones directly in advanced-stage MF skin tumors, allowing the transcriptional profiles of malignant and reactive T lymphocytes to be distinguished. Our analysis identified multiple non-overlapping expanded T-cell clonotypes within individual MF tumors, which included malignant and reactive clones. Heterogeneity among samples was observed not only in the number of expanded clonotypes but also in their TCR specificity and gene expression. While patient-specific tumorigenic pathways were up-regulated by the malignant clones, we also identified a common gene expression that included genes associated with cancer cell metabolism, de novo nucleotide biosynthesis, and invasion. Most non-malignant clones originated from CD8+ T cells and commonly presented an exhausted immune phenotype and activated Th1/Th2 pathways. While non-clonal infiltrating CD4+ and CD8+ lymphocytes from all tumors shared anti-inflammatory and immunosuppressive pathways, patient-specific mechanisms included the TNFR2 signaling cascade, ferroptosis, and cytotoxic pathways by gamma/delta T cells. Thus, scRNAseq reveals new insights in MF pathogenesis by providing an unprecedented report of the transcriptomes of malignant and reactive T cells in the TME of individual patients and offers novel prospective targets for personalized therapy.

Project description:The signal transducer and activator of transcription 6 (STAT-6) is a critical up-stream mediator of IL-13 and IL-4 signaling and is constitutively activated in malignant lymphocytes from Sezary syndrome (SS) and mycosis fungoides (MF), the most common subtypes of cutaneous T-cell lymphomas. By combining genome-wide expression profiling with pharmacological STAT-6 inhibition, we have identified the genes regulated by STAT-6 in MF/SS tumors. We found that STAT-6 regulates several common pathways in MF/SS malignant lymphocytes that are associated with control of cell cycle progression and genomic stability as well as production of Th2 cytokines. Using ex vivo skin explants from cutaneous MF tumors as well as Sezary cells derived from the blood of SS patients, we demonstrated that inhibition of STAT-6 activation down-regulates cytokine production and induces cell cycle arrest in MF/SS malignant lymphocytes, inhibiting their proliferation but not their survival. Furthermore, we show that STAT-6 promotes the pro-tumoral M2-like phenotype of tumor-associated macrophages in the tumor microenvironment of advanced-stage MF by up-regulating the expression of genes associated with immunosuppression, chemotaxis, and tumor matrix remodeling. Thus, we show STAT-6 to be a major factor in the pathogenesis and progression of MF/SS, promoting proliferation and invasion of the malignant lymphocytes while inducing a progressive depression of the anti-tumor immune response. Together, our results provide new insights into disease pathogenesis and offer new prospective targets for therapeutic intervention.

Project description:The signal transducer and activator of transcription 6 (STAT-6) is a critical up-stream mediator of IL-13 and IL-4 signaling and is constitutively activated in malignant lymphocytes from Sezary syndrome (SS) and mycosis fungoides (MF), the most common subtypes of cutaneous T-cell lymphomas. By combining genome-wide expression profiling with pharmacological STAT-6 inhibition, we have identified the genes regulated by STAT-6 in MF/SS tumors. We found that STAT-6 regulates several common pathways in MF/SS malignant lymphocytes that are associated with control of cell cycle progression and genomic stability as well as production of Th2 cytokines. Using ex vivo skin explants from cutaneous MF tumors as well as Sezary cells derived from the blood of SS patients, we demonstrated that inhibition of STAT-6 activation down-regulates cytokine production and induces cell cycle arrest in MF/SS malignant lymphocytes, inhibiting their proliferation but not their survival. Furthermore, we show that STAT-6 promotes the pro-tumoral M2-like phenotype of tumor-associated macrophages in the tumor microenvironment of advanced-stage MF by up-regulating the expression of genes associated with immunosuppression, chemotaxis, and tumor matrix remodeling. Thus, we show STAT-6 to be a major factor in the pathogenesis and progression of MF/SS, promoting proliferation and invasion of the malignant lymphocytes while inducing a progressive depression of the anti-tumor immune response. Together, our results provide new insights into disease pathogenesis and offer new prospective targets for therapeutic intervention.

Project description:Background: In early-stage mycosis fungoides (MF), the most common primary cutaneous T-cell lymphoma, limited skin involvement with patches and plaques is associated with a favorable prognosis. Nevertheless, approximately 20-30% of cases progress to tumors or erythroderma, resulting in poor outcome. At present, factors contributing to this switch from indolent to aggressive disease are only insufficiently understood. Methods: In patients with advanced-stage MF, we compared patches with longstanding history to newly developed plaques and tumors by using single-cell RNA sequencing, and compared results with early-stage MF as well as nonlesional MF and healthy control skin. Results: Despite considerable inter-individual variability, lesion progression was uniformly associated with downregulation of the tissue residency markers CXCR4 and CD69, the heat shock protein HSPA1A, the tumor suppressors and immunoregulatory mediators ZFP36 and TXNIP, and the interleukin 7 receptor (IL7R) within the malignant clone, but not in benign T cells. This phenomenon was not only found in conventional TCR-αβ MF, but also in a case of TCR-γδ MF, suggesting a common mechanism across MF subtypes. Conversely, malignant cells in clinically unaffected skin from MF patients showed upregulation of these markers. Conclusions: Our data reveal a specific panel of biomarkers that might be used for monitoring MF disease progression. Altered expression of these genes may underlie the switch in clinical phenotype observed in advanced-stage MF.

Project description:Cutaneous T-cell lymphomas are a heterogeneous group of neoplasms originating in the skin, with mycosis fungoides (MF) and Sézary syndrome (SS) representing the most common variants. The cellular origin of cutaneous lymphomas has remained controversial due to their immense phenotypic heterogeneity that obfuscates lineage reconstruction based on classical surface biomarkers. To overcome this heterogeneity and reconstruct the differentiation trajectory of malignant cells in MF and SS, T-cell receptor sequencing was performed in parallel with targeted transcriptomics at the single-cell resolution among cutaneous samples in MF and SS. Unsupervised lineage reconstruction showed that Sézary cells exist as a population of CD4+ T cells distinct from those in patch, plaque, and tumor MF. Further investigation of malignant cell heterogeneity in SS showed that Sézary cells phenotypically comprised at least three subsets based on differential proliferation potentials and expression of exhaustion markers. A Th1 polarized cell type, intermediate cell type, and exhausted Th2 polarized cell type were identified, with Th1 and Th2 polarized cells displaying divergent proliferation potentials. Collectively, these findings provide evidence to clarify the relationship between MF and SS, and reveal cell subsets in SS that suggest a possible mechanism for therapeutic resistance.

Project description:Mycosis fungoides (MF) is the most common primary cutaneous T-cell lymphoma. While initially restricted to the skin, malignant cells can appear in blood, bone marrow and secondary lymphoid organs in later disease stages. However, only little is known about phenotypic and functional properties of malignant T cells in relationship to tissue environments over the course of disease progression. We thus profiled the tumor micromilieu in skin, blood and lymph node in a patient with advanced MF using single-cell RNA sequencing combined with V-D-J T-cell receptor sequencing. In skin, we identified clonally expanded T-cells with characteristic features of tissue-resident memory T-cells (TRM, CD69+CD27-NR4A1+RGS1+AHR+). In blood and lymph node, the malignant clones displayed a transcriptional program reminiscent of a more central memory-like phenotype (KLF2+TCF7+S1PR1+SELL+CCR7+), while retaining tissuehoming receptors (CLA, CCR10). The skin tumor microenvironment contained potentially tumor-permissive myeloid cells producing regulatory (IDO1) and Th2-associated mediators (CCL13, CCL17, CCL22). Given their expression of PVR, TNFRSF14 and CD80/CD86, they might be under direct control by TIGIT+CTLA4+CSF2+TNFSF14+ tumor cells. In sum, this study highlights the adaptive phenotypic and functional plasticity of MF tumor cell clones. Thus, the TRM-like phenotype enables long-term skin residence of MF cells. Their switch to a TCM-like phenotype with persistent skin homing molecule expression in the circulation might explain the multi-focal nature of MF.

Project description:Mycosis fungoides (MF) is the most common cutaneous T-cell lymphoma (CTCL), a group of malignancies derived from skin-homing malignant T cells. We subjected tumor biopsies from MF patients to whole-genome sequencing and RNA-sequencing to investigate genomic alterations and deregulated gene expression in the disease.

Project description:Epigenetic changes deregulate gene expression to drive oncogenesis. The reversible nature of these changes enables therapeutic targeting, as in cutaneous T-cell lymphoma (MF/SS), Histone deacetylase inhibitors (HDACi), which alter epigenetic modifications, are effective in ~30% of MF/SS patients. However, there are no markers that predict MF/SS progression or therapy resistance. We hypothesized that epigenetic alterations drive MF/SS progression and promote HDACi drug resistance. Therefore, we profiled the epigenomes and transcriptomes of malignant T cell purified from skin biopsies and peripheral blood from MF/SS patients (N=21) before and after treatment with HDACi, as well as in vitro HDACi-treated CD4+ T cells from healthy donors. Here we report for the first time the epigenome-wide map of acetylation changes in MF/SS patients treated with HDACi, and define the significant differences in regulatory element activity and corresponding transcriptional changes in HDACi-sensitive versus resistant tumors. Our studies identified genes not previously  associated with MF/SS, nor with disease progression or HDACi resistance, and were enriched in pathways that regulate apoptosis (BIRC5), cell cycle (RRM2), and chromosome cohesion (CENPH). We also identified a striking number of genes whose products are involved in cell adhesion and migration, including CCR6, LAIR2, VCAM1, and EPCAM. The mRNA of LAIR2, which encodes a receptor protein secreted by activated T cells that binds collagen and prevents binding of the inhibitory receptor LAIR1, was significantly upregulated in MF/SS tumors that were resistant to HDACi therapy and manifested in both skin and peripheral blood. We also detected elevated levels of LAIR2 protein in the plasma of MF/SS patients with progressive disease. Taken together, these studies defined the first epigenome-wide acetylation landscape of HDACi responsive and resistant MF/SS tumors, identified significantly altered patterns of epigenetic regulation and corresponding gene expression in HDACi resistant MF/SS tumors, and connected them to novel pathways of disease progression, particularly in cell adhesion and migration. These findings may represent novel predictive markers for MF/SS progression that are also targets for future therapeutic development.

Project description:We studied gene expression profiles of 17 cutaneous B-cell lymphomas that were collected with 4-6 millimeter skin punch biopsies. We also included tissue from 2 cases of mycosis fungoides (MF), 3 normal skin biopsies and 3 tonsils to create a framework for further interpretation. A hierarchical cluster algorithm was applied for data analysis. Our results indicate that small amounts of skin tissue can be used successfully to perform microarray analysis and result in distinct gene expression patterns. Duplicate specimens clustered together demonstrating a reproducible technique. Within the cutaneous B-cell lymphoma specimens two specific B-cell differentiation stage signatures of germinal center B-cells and plasma cells could be identified. Primary cutaneous follicular and primary cutaneous diffuse large B-cell lymphomas had a germinal center B-cell signature while a subset of marginal zone lymphomas demonstrated a plasma cell signature. Primary and secondary follicular B-cell lymphoma of the skin were closely related, despite previously reported genetic and phenotypic differences. In contrast primary and secondary cutaneous diffuse large B-cell lymphoma were less related to each other. This pilot study allows a first glance into the complex and unique microenvironment of B-cell lymphomas of the skin and provides a basis for future studies, that may lead to the identification of potential histologic and prognostic markers as well as therapeutic targets. Set of arrays organized by shared biological context, such as organism, tumors types, processes, etc. Computed

Project description:Utilizing surgical and chemical skin sensory denervation methods, we show that afferent neurons support the growth of melanoma tumors in vivo. We demonstrate that sensory innervation limits the activation of effective anti-tumor immune response. Specifically, sensory ablation led to improved leukocyte recruitment and infiltration into tumors, decreased intratumoral lymphoid and myeloid immunosuppressive cells, and the activation of T effector cells within the TME. We found that cutaneous sensory nerves hinder the maturation of intratumoral high endothelial venules and the formation of mature tertriary lymphoid-like structures containing organized clusters of CD4+ T cells and B cells. Denervation further increased T cell clonality and expanded the B cell repertoire in the TME. Importantly, CD8a depletion prevented the denervation-dependent anti-tumor effects. Finally, we observed that the gene signatures associated with immune function and sensory innervation were inversely correlated in human primary cutaneous melanomas, and the latter was a negative prognostic marker of the overall survival in the examined cohort. Our results suggest that tumor-associated sensory neurons negatively regulate the development of effective anti-tumor immune responses, thereby defining a novel target for therapeutic intervention in the cancer setting.