Mycosis Fungoides Skin Research Articles

RUNX2 as a novel biomarker for early identification of patients progressing to advanced-stage mycosis fungoides.

The majority of patients with mycosis fungoides (MF) have an indolent disease course, but a substantial fraction (20-30%) of patients progress to advanced stages - usually with a grave prognosis. Early differentiation between indolent and aggressive types of MF is important for the choice of treatment regimen and monitoring of the individual patient. Good biomarkers are therefore desired. Here, we used spatial transcriptomics on skin samples at time-of-diagnosis to enable prediction of patients who later progressed to advanced stages of MF. Formalin-fixed, paraffin-embedded skin biopsies at time of diagnosis from six patients with MF who progressed to advanced stages of disease within 4 months to 12 years after diagnosis, and nine patients who remained in early-stage disease over 9 to 27 years were analyzed using the GeoMx Digital Spatial Profiler to capture spatially resolved high-plex RNA gene expression data. Five different regions of interest (the epidermis, the basal layer of epidermis, CD4+ T-cells and neighboring cells, and Pautrier's microabscesses) were profiled for further assessment. Interestingly, RUNX2, SHMT2, and MCM7 were upregulated in the enriched population of malignant T-cells in Pautrier's microabscesses in patients who later developed advanced stages of disease. Expression of RUNX2, SHMT2 and MCM7 in malignant T-cells was confirmed in a subset of patients in MF skin using scRNA-seq datasets across multiple studies and correlating with stage of disease. Taken together, we provide first evidence that RUNX2 has potential as a biomarker to identify MF patients progressing to advanced stage disease. As RUNX2 has not previously been linked to MF, our data also shows the analytical strength of combining spatial transcriptomics with scRNA-seq analysis.

The skin microbiome stratifies patients with cutaneous T cell lymphoma and determines event-free survival

Mycosis fungoides (MF) is the most common entity of Cutaneous T cell lymphomas (CTCL) and is characterized by the presence of clonal malignant T cells in the skin. The role of the skin microbiome for MF development and progression are currently poorly understood. Using shotgun metagenomic profiling, real-time qPCR, and T cell receptor sequencing, we compared lesional and nonlesional skin of 20 MF patients with early and advanced MF. Additionally, we isolated Staphylococcus aureus and other bacteria from MF skin for functional profiling and to study the S. aureus virulence factor spa. We identified a subgroup of MF patients with substantial dysbiosis on MF lesions and concomitant outgrowth of S. aureus on plaque-staged lesions, while the other MF patients had a balanced microbiome on lesional skin. Dysbiosis and S. aureus outgrowth were accompanied by ectopic levels of cutaneous antimicrobial peptides (AMPs), including adaptation of the plaque-derived S. aureus strain. Furthermore, the plaque-derived S. aureus strain showed a reduced susceptibility towards antibiotics and an upregulation of the virulence factor spa, which may activate the NF-κB pathway. Remarkably, patients with dysbiosis on MF lesions had a restricted T cell receptor repertoire and significantly lower event-free survival. Our study highlights the potential for microbiome-modulating treatments targeting S. aureus to prevent MF progression.

Single-cell RNA sequencing comparison of CD4+, CD8+ and TCR-γδ+ cutaneous T-cell lymphomas reveals subset-specific molecular phenotypes.

Malignant clones of primary cutaneous T-cell lymphomas (CTCL) can show a CD4, CD8 or TCR-γδ phenotype, but their individual impact on tumor biology and skin lesion formation remains ill-defined. To perform a comprehensive molecular characterization of CD4+ vs. CD8+ and TCR-γ/δ+ CTCL lesions. We performed scRNA-seq of 18 CTCL skin biopsies to compare classic CD4+ advanced-stage mycosis fungoides (MF) with TCR-γ/δ+MF and primary cutaneous CD8+ aggressive epidermotropic cytotoxic T-cell lymphoma (Berti's lymphoma). Malignant clones of TCR-γ/δ+MF and Berti's lymphoma showed similar clustering patterns distinct from CD4+MF, along with increased expression of cytotoxic markers such as NKG7, CTSW, GZMA, and GZMM. Only advanced-stage CD4+MF clones expressed central memory T-cell markers (SELL, CCR7, LEF1), alongside B1/B2 blood involvement, whereas TCR-γ/δ+MF and Berti's lymphoma harbored a more tissue-resident phenotype (CD69, CXCR4, NR4A1) without detectable cells in the blood. CD4+MF and TCR-γ/δ+MF skin lesions harbored strong type 2 immune activation across myeloid cells, while Berti's lymphoma was more skewed towards type 1 immune responses. Both CD4+MF and TCR-γ/δ+MF lesions showed upregulation of keratinocyte hyperactivation markers such as S100As and KRT16 genes. This increase was entirely absent in Berti's lymphoma, possibly reflecting an aberrant keratinocyte response to invading tumor cells, that could contribute to the formation of the typical ulcero-necrotic lesions within this entity. Our scRNAseq profiling study reveals specific molecular patterns associated with distinct CTCL subtypes.

Effectiveness and tolerability of chlormethine gel for the management of mycosis fungoides: a multicenter real-life evaluation.

Topical chlormethine (CL) is recommended as a first-line treatment for early-stage mycosis fungoides (MF) and in 2017, the European Medicines Agency approved the CL gel formulation to treat adult patients. More recently, to increase patient compliance and adherence, clinicians have developed flexible protocols that allow the concomitant use of CL gel with topical corticosteroids in daily practice regimens. Therefore, sharing real-life data on CL gel use and side effects management may help improve the use of this agent. To expand knowledge about the actual use of CL gel in patients with MF, the present study assessed the improvement of MF skin lesions after CL gel treatment and provided information on the management of cutaneous adverse events (AEs) in a real-life setting. This was an Italian retrospective study conducted among six dermatology referral centers. Patients ≥18 years affected by MF and in treatment with CL gel (160 µ/g), alone or in combination according to routine clinical practice, between December 2019 and December 2021 were considered. The study's primary aim was to evaluate the effectiveness of CL gel in terms of overall response rate (ORR) after 3 months of treatment. A total of 79 patients (61% male) with different stages of MF (84% early stage) were included. CL gel was prescribed mainly in association with topical corticosteroids (66% of patients). ORR after 3 months of treatment was 42%, with no differences between early- and advanced-stage MF. Response rates improved over time up to 97% after 18 months of treatment. Overall, 66 AEs were reported in 67% of patients; most were hyperpigmentation (45%) and irritant contact dermatitis (37%). Six AEs led to treatment discontinuation, and five out of six (83%) patients who reported these events resumed treatment after interruption. No AEs were classified as severe. Our observations support the use of CL gel in patients with early- and advanced-stage MF, making it a valuable treatment option.

Identification of Skin Lesions by Snapshot Hyperspectral Imaging.

This study pioneers the application of artificial intelligence (AI) and hyperspectral imaging (HSI) in the diagnosis of skin cancer lesions, particularly focusing on Mycosis fungoides (MF) and its differentiation from psoriasis (PsO) and atopic dermatitis (AD). By utilizing a comprehensive dataset of 1659 skin images, including cases of MF, PsO, AD, and normal skin, a novel multi-frame AI algorithm was used for computer-aided diagnosis. The automatic segmentation and classification of skin lesions were further explored using advanced techniques, such as U-Net Attention models and XGBoost algorithms, transforming images from the color space to the spectral domain. The potential of AI and HSI in dermatological diagnostics was underscored, offering a noninvasive, efficient, and accurate alternative to traditional methods. The findings are particularly crucial for early-stage invasive lesion detection in MF, showcasing the model's robust performance in segmenting and classifying lesions and its superior predictive accuracy validated through k-fold cross-validation. The model attained its optimal performance with a k-fold cross-validation value of 7, achieving a sensitivity of 90.72%, a specificity of 96.76%, an F1-score of 90.08%, and an ROC-AUC of 0.9351. This study marks a substantial advancement in dermatological diagnostics, thereby contributing significantly to the early and precise identification of skin malignancies and inflammatory conditions.

The Overlap of Skin and Blood T-Cell Clones in Early-Stage Mycosis Fungoides

Introduction: Mycosis fungoides (MF) is the most common subtype of cutaneous T-cell lymphoma that initially starts in the skin but can progress to involve blood with significant mortality in late stages. Even in early stages and in the absence of blood involvement, changes in blood T-cell receptor (TCR) repertoire have been observed in MF patients. While prior work has explored the significance of dominant blood T-cell clones in the prognosis of early MF, the relationship between TCR sequences and T-cell repertoires of blood and skin in early-stage MF patients has not been characterized. Objectives: To determine the relationship of blood and skin T-cell repertories and to reassess the impact of dominant blood T-cell clones on selected outcome endpoints in early-stage MF. Materials and Methods: We used high-throughput sequencing to interrogate TCR sequences in blood and skin of MF patients without blood involvement at the Jefferson Cutaneous Lymphoma Clinic (Adaptive Biotechnologies). ImmunoSEQ Analyzer provided T-cell repertoire overlap metric (Morisita's index) and diversity measure (Simpson's clonality score). Time to systemic treatment (TTST) was calculated as the time from initial diagnosis to initiation of first systemic therapy. Results: 60 MF patients with no blood involvement were enrolled. 28% had a dominant clone in blood; of these, 18% were identical to dominant skin clones and 82% were distinct from the dominant clones identified in skin. We found that MF patients with discordant dominant T-cell clones in blood and skin had a longer TTST when compared to the identical clone cohort (P=0.0057) (Figure 1A). Furthermore, patients with discordant dominant clones had a lower degree of T-cell repertoire overlap between blood and skin (P<0.0001) and higher blood T-cell repertoire diversity scores (P=0.013) when compared to the identical clone group (Figure 1B). In all patients, the degree of T-cell overlap in blood and skin did not significantly change over a period of months to years or among skin biopsies obtained from different anatomical locations. Finally, in a subset of patients with discordant clones, the dominant skin clone did not appear to be detected in blood even at low frequencies. Conclusion: Our data highlight the importance of establishing clonal associations between dominant T-cell clones of the skin and blood in MF. We propose that early-stage MF patients with dominant clones in blood segregate into two cohorts with distinct prognoses and T-cell repertoires based on the identity of their peripheral T-cell clones. In addition, our findings suggest that not all MF patients have reservoirs of malignant T-cell clones readily available in peripheral circulation to seed new lesions in skin. Figure 1: A: Kaplan-Meier analyses of time to systemic treatment (TTST) in skin-limited mycosis fungoides (MF) patients with an identical dominant T-cell clone in blood and skin, a discordant dominant T-cell clone in blood and skin, and no dominant blood clones. NS- not significant (P =0.5274), ** (P =0.0057), *** (P <0.0003). B: Average Morisita's index for blood and skin overlap for patients in indicated groups of I: identical dominant clones in blood and skin, D: discordant dominant clones in blood and skin, and N: no dominant clone in blood. **** (P <0.0001).

The mycosis fungoides cutaneous microenvironment shapes dysfunctional cell trafficking, antitumor immunity, matrix interactions, and angiogenesis.

Malignant T lymphocyte proliferation in mycosis fungoides (MF) is largely restricted to the skin, implying that malignant cells are dependent on their specific cutaneous tumor microenvironment (TME), including interactions with non-malignant immune and stromal cells, cytokines, and other immunomodulatory factors. To explore these interactions, we performed a comprehensive transcriptome analysis of the TME in advanced-stage MF skin tumors by single-cell RNA sequencing. Our analysis identified cell-type compositions, cellular functions, and cell-to-cell interactions in the MF TME that were distinct from those from healthy skin and benign dermatoses. While patterns of gene expression were common among patient samples, high transcriptional diversity was also observed in immune and stromal cells, with dynamic interactions and crosstalk between these cells and malignant T lymphocytes. This heterogeneity mapped to processes such as cell trafficking, matrix interactions, angiogenesis, immune functions, and metabolism that affect cancer cell growth, migration, and invasion, as well as antitumor immunity. By comprehensively characterizing the transcriptomes of immune and stromal cells within the cutaneous microenvironment of individual MF tumors, we have identified patterns of dysfunction common to all tumors that represent a resource for identifying candidates with therapeutic potential as well as patient-specific heterogeneity that has important implications for personalized disease management.

Immunohistochemical Evidence Linking Interleukin-22 Tissue Expression Levels to FOXP3+ Cells and Neutrophil Densities in the Mycosis Fungoides Microenvironment.

Emerging data indicate that the cellular microenvironment and interleukins (IL) play a crucial role in mycosis fungoides (MF).We aimed to explore the potential association between the composition of the cellular microenvironment and the expression of IL-22 and IL-17A in MF skin lesions. The study encompassed 16 cases of MF of different stages, for which sufficient skin tissue for immunohistochemistry and frozen tissue for reverse transcription-polymerase chain reaction, both taken from the same lesion, were available. Histological evaluation of eosinophils, neutrophils, CD20+, CD4+, CD8+, FOXP3+, CD56+, and CD1a+ cells was conducted. Additionally, mRNA expression levels of IL-22 and IL-17 mRNA were quantified using reverse transcription-quantitative polymerase chain reaction.SPSS version 28 (IBM Corp., Armonk, NY) was utilized for statistical analysis. Among the cases examined, three were in the patch stage, eight in the plaque stage, and five in the transformation to high-grade large cell lymphoma (t-LCL). B-lymphocytes, neutrophils, and eosinophilswere primarily observed in t-LCL cases. IL-22 levels displayed a significant association with IL-17A levels (Pearson'sr = 0.961, p < 0.001), FOXP3+ cells (Pearson'sr = 0.851, p < 0.001), and neutrophil density (Pearson'sr = 0.586, p = 0.014). No correlation was detected between IL-17A levels and the evaluated subtypes of microenvironmental cells. The microenvironment of MF lesions with t-LCL is noticeably different from early MFin terms of cellular composition. Histopathological identification of the cellular microenvironment may serve as an indicator of IL-22 tissue levels. These results implicate certain types of cells in IL-22 expression in the MF microenvironment and may contribute to advancing our knowledge on the pathogenesis and progression of the disease.

Phototherapy Restores Deficient Type I IFN Production and Enhances Antitumor Responses in Mycosis Fungoides

Transcriptional profiling demonstrated markedly reduced type I IFN gene expression in untreated mycosis fungoides (MF) skin lesions compared with that in healthy skin. Type I IFN expression in MF correlated with antigen-presenting cell-associated IRF5 before psoralen plus UVA therapy and epithelial ULBP2 after therapy, suggesting an enhancement of epithelial type I IFN. Immunostains confirmed reduced baseline type I IFN production in MF and increased levels after psoralen plus UVA treatment in responding patients. Effective tumor clearance was associated with increased type I IFN expression, enhanced recruitment of CD8+ T cells into skin lesions, and expression of genes associated with antigen-specific T-cell activation. IFNk, a keratinocyte-derived inducer of type I IFNs, was increased by psoralen plus UVA therapy and expression correlated with upregulation of other type I IFNs. Invitro, deletion of keratinocyte IFNk decreased baseline and UVA-induced expression of type I IFN and IFN response genes. In summary, we find a baseline deficit in type I IFN production in MF that is restored by psoralen plus UVA therapy and correlates with enhanced antitumor responses. This may explain why MF generally develops in sun-protected skin and suggests that drugs that increase epithelial type I IFNs, including topical MEK and EGFR inhibitors, may be effective therapies for MF.

Mycosis fungoides and Sézary syndrome: clinical presentation, diagnosis, staging, and therapeutic management.

Mycosis fungoides (MF) and Sézary syndrome (SS) are cutaneous T-cell lymphomas. MF is the most common cutaneous lymphoma, and it is classified into classic Alibert-Bazin MF, folliculotropic MF, pagetoid reticulosis, and granulomatous slack skin, each with characteristic clinical presentation, histopathological findings, and distinct clinical behaviors. SS is an aggressive leukemic variant of cutaneous lymphoma, and it is characterized by erythroderma, lymphadenopathy, and peripheral blood involvement by malignant cells. There is a wide range of dermatological manifestations of MF/SS, and prompt recognition is essential for early diagnosis. Skin biopsy for histopathology and immunohistochemical analysis is imperative to confirm the diagnosis of MF/SS. Histopathology may also provide information that may influence prognosis and treatment. Staging follows the TNMB system. Besides advanced stage, other factors associated with poorer prognosis are advanced age, male gender, folliculotropism in histopathology of patients with infiltrated plaques and tumors in the head and neck region, large cell transformation, and elevated lactate dehydrogenase. Treatment is divided into skin-directed therapies (topical treatments, phototherapy, radiotherapy), and systemic therapies (biological response modifiers, targeted therapies, chemotherapy). Allogeneic bone marrow transplantation and extracorporeal photopheresis are other treatment modalities used in selected cases. This review discusses the main clinical characteristics, the histopathological/immunohistochemical findings, the staging system, and the therapeutic management of MF/SS.

Stratum corneum cytokine levels in mycosis fungoides.

Mycosis fungoides (MF) is characterised by malignant CD4+ T-cell infiltrates in the skin. The functional characteristics of the malignant T cells and their interaction with the tumor immune microenvironment is largely unknown. We performed tape stripping of the stratum corneum (SC), a non-invasive technique, to gain insight into the cytokine secretion patterns in MF skin lesions. In addition, we assessed whether the SC cytokine profile of MF lesions is distinct from that of atopic dermatitis (AD) lesions. We compared nine cytokine levels in 20 patients with MF, 10 patients with AD and 10 healthy controls. In patients with MF and AD, lesional SC levels of IL-8 and MMP9 were significantly higher than in non-lesional SC and in healthy controls. VEGFα was significantly higher in lesional MF and AD skin than in healthy controls. The SC levels of IL-1α were significantly lower in MF and AD lesions than in healthy controls. There was no specific cytokine profile or inflammation pattern that could reliably distinguish MF from AD. In conclusion, in lesional SC of MF patients, pro-inflammatory cytokines can be detected. As a diagnostic method, tape stripping of lesional SC cannot discriminate MF skin from AD skin.

Mast cells and tryptase are linked to itch and disease severity in mycosis fungoides: Results of a pilot study.

IntroductionIn mycosis fungoides (MF), the most common cutaneous T-cell lymphoma, itch is a frequent clinical symptom. Whether mast cells (MCs), eosinophils (Eos) or their mediators play a role in MF-associated itch or disease severity is controversially discussed. Here, we explored the role of MC and Eo numbers in the skin as well as blood levels of their mediators in disease severity and itch.MethodsIn 10 patients with MF and 10 matched control subjects we assessed disease severity, itch, and quality of life impairment using dedicated tools such as the mSWAT, ItchyQoL and DLQI. We analyzed skin biopsies and measured serum levels of tryptase, a mast cell mediator, as well as of the eosinophil products eosinophil cationic protein (ECP) and major basic protein (MBP).ResultsThe presence of chronic itch, in four of 10 patients, was associated with significantly higher disease severity (mSwat), larger body surface area affected, and stronger QoL impairment (Itchy-Qol, DLQI). Serum levels of tryptase, but not ECP and MBP, were linked with patient-reported disease severity, body surface area affected, and the presence of itch. Three of the four patients with chronic itch, but none of the six patients without, had tryptase levels above >6µg/l. Numbers of MCs in the papillary dermis were higher in MF skin lesions then in non-lesional skin of MF patients and skin of healthy controls.DiscussionThe MC-mediator tryptase, in MF, is linked to disease activity and impact, most prominently to itch. Our findings call for larger studies that explore the role of MCs, tryptase and other MC mediators as drivers of itch and their role in MF pathogenesis.

859 Skin tape strip proteomics in mycosis fungoides identifies tumor associated biomarkers

Mycosis fungoides (MF), the most common type of cutaneous T-cell lymphoma (CTCL), is characterized by malignant T-cell skin infiltration that leads to inflammation and skin barrier defects. Identifying reproducible biomarkers in MF skin is important for monitoring disease activity. Skin tape-stripping is gaining recognition as a non-invasive, easy method for tracking disease biomarkers. Tape strips from lesional (L) and non-lesional (NL) skin of 42 MF patients and matched sites of 21 healthy controls (HC) were analyzed with a proximity extension assay of 183 proteins relevant to oncology and inflammation.

605 Phototherapy-induced IFNκ drives type I IFN induced anticancer responses in CTCL

Study of Stage I-II mycosis fungoides (MF) skin lesions from 14 patients by gene expression profiling demonstrated reduced expression of six type I IFNs compared to healthy human skin. Psoralen plus UVA therapy (PUVA) induced increased levels of type I IFNs that were associated with CD8 T cell recruitment into tumors, expression of antigen specific T cell activation genes and depletion of malignant T cells. MF skin lesions expressed significantly higher levels of two negative regulators of IFN production, IRF2 and IFI35; IRF2 levels correlated with the number of malignant T cells in skin. IRF2 is known to antagonize epithelial production of type I IFNs. Indeed, we found reduced expression of ULBP2, a marker of epithelial type I interferon production. Immunostaining confirmed reduced epidermal production of type I alpha IFNs that was reversed by PUVA therapy. IFNκ is an epithelial type I interferon induced by UVB that triggers production of other type I IFNs and is responsible for the flaring of cutaneous lupus after sun exposure. We studied human keratinocytes treated with UVA with or without psoralen. IFNκ enhanced keratinocyte production of type I IFNs and downstream interferon genes in response to UVA. IFNκ knockout keratinocytes had markedly reduced type I IFNs induction after UVA, illustrating the key role of epithelial IFNκ in boosting type I interferon production. In summary, we find that type I IFNs are markedly reduced in MF lesions, that phototherapy induces epithelial type I interferon production via INFκ and that this increase is associated with effective tumor clearance. Our results suggest other medications that induce epithelial type I IFNs, including MEK or EGFR inhibitors, may be effective therapies for CTCL.

Chlormethine Gel is Efficient and Safe in Mycosis Fungoides Skin Lesions.

Chlormethine is a bifunctional cytotoxic alkylating agent that binds to DNA, resulting in cell death (apoptosis). Chlormethine (also known as mechlorethamine) gel (CL gel) was approved in the European Union in 2017 and was first used in 2019. The aim of the study is to examine evidence regarding the efficacy and safety of chlormethine gel in everyday clinical experience from a cutaneous lymphoma centre. Twenty-three patients with stage IA–IIB mycosis fungoides received chlormethine gel between September 2020 and May 2021. All patients started by applying the gel daily and were monitored every month. At 1, 3, 6 and 9 months, 0%, 43.47%, 56.52% and 65.22% of patients, respectively, achieved an overall response. Five out of 23 patients (21.73%) achieved near complete response at a mean time of 6 months. Chlormethine gel was given as monotherapy in 12 patients (52.17%), and in addition to systemic treatments (methotrexate and peginterferon alpha-2a) in 11 patients (47.82%). Adverse events (AE) were recorded in 43.47% of patients, but only 3 discontinued treatment, due to dermatitis. Scale down of the treatment to application 3-times per week led to better patient compliance. This study shows that chlormethine gel is effective and safe in patients with mycosis fungoides with different types of skin lesions.

Single-Cell RNA Sequencing Unveils the Clonal and Transcriptional Landscape of Cutaneous T-Cell Lymphomas.

Clonal malignant T lymphocytes constitute only a fraction of T cells in mycosis fungoides skin tumors and in the leukemic blood of Sézary syndrome, the classic types of cutaneous T-cell lymphomas. However, lack of markers specific for malignant lymphocytes prevents distinguishing them from benign T cells, thus delaying diagnosis and the development of targeted treatments. Here we applied single-cell methods to assess the transcriptional profiles of both malignant T-cell clones and reactive T lymphocytes directly in mycosis fungoides/Sézary syndrome patient samples. Single-cell RNA sequencing was used to profile the T-cell immune repertoire simultaneously with gene expression in CD3+ lymphocytes from mycosis fungoides and healthy skin biopsies as well as from Sézary syndrome and control blood samples. Transcriptional data were validated in additional advanced-stage mycosis fungoides/Sézary syndrome skin and blood samples by immunofluorescence microscopy. Several nonoverlapping clonotypes are expanded in the skin and blood of individual advanced-stage mycosis fungoides/Sézary syndrome patient samples, including a dominant malignant clone as well as additional minor malignant and reactive clones. While we detected upregulation of patient-specific as well as mycosis fungoides- and Sézary syndrome-specific oncogenic pathways within individual malignant clones, we also detected upregulation of several common pathways that included genes associated with cancer cell metabolism, cell-cycle regulation, de novo nucleotide biosynthesis, and invasion. Our analysis unveils new insights into mycosis fungoides/Sézary syndrome pathogenesis by providing an unprecedented report of the transcriptional profile of malignant T-cell clones in the skin and blood of individual patients and offers novel prospective targets for personalized therapy.

Mass Cytometric Analysis of Early-Stage Mycosis Fungoides.

Mycosis fungoides (MF) is the most common subtype of cutaneous T-cell lymphoma. Early-stage disease is characterized by superficial infiltrates of small- to medium-sized atypical epidermotropic T lymphocytes that are clonal related. Nevertheless, the percentage of atypical T cells is low with many admixed reactive immune cells. Despite earlier studies, the composition and spatial characteristics of the cutaneous lymphocytic infiltrate has been incompletely characterized. Here, we applied mass cytometry to profile the immune system in skin biopsies of patients with early-stage MF and in normal skin from healthy individuals. Single-cell suspensions were prepared and labeled with a 43-antibody panel, and data were acquired on a Helios mass cytometer. Unbiased hierarchical clustering of the data identified the major immune lineages and heterogeneity therein. This revealed patient-unique cell clusters in both the CD4+ and myeloid cell compartments but also phenotypically distinct cell clusters that were shared by most patients. To characterize the immune compartment in the tissue context, we developed a 36-antibody panel and performed imaging mass cytometry on MF skin tissue. This visualized the structure of MF skin and the distribution of CD4+ T cells, regulatory T cells, CD8+ T cells, malignant T cells, and various myeloid cell subsets. We observed clusters of CD4+ T cells and multiple types of dendritic cells (DCs) identified through differential expression of CD11c, CD1a, and CD1c in the dermis. These results indicated substantial heterogeneity in the composition of the local immune infiltrate but suggest a prominent role for clustered CD4–DC interactions in disease pathogenesis. Probably, the local inhibition of such interactions may constitute an efficient treatment modality.

Increased Chlormethine-Induced DNA Double-Stranded Breaks in Malignant T Cells from Mycosis Fungoides Skin Lesions

Mycosis fungoides (MF) is a type of cutaneous T-cell lymphoma. Chlormethine (CL) is recommended as first-line therapy for MF, with a major purpose to kill tumor cells through DNA alkylation. To study the extent of treatment susceptibility and tumor specificity, we investigated the gene expression of different DNA repair pathways, DNA double-stranded breaks, and tumor cell proliferation of clonal TCR Vβ+ tumor cell populations in cutaneous T-cell lymphoma skin cells on direct exposure to CL. Healthy human T cells were less susceptible to CL exposure than two T-lymphoma cell lines, resulting in higher proportions of viable cells. Interestingly, in T cells from MF lesions, we observed a downregulation of several important DNA repair pathways, even complete silencing of RAD51AP1, FANC1, and BRCA2 involved in homologous recombination repair. In the presence of CL, the double-stranded DNA breaks in malignant MF skin T cells increased significantly as well as the expression of the apoptotic gene CASP3. These data point toward an important effect of targeting CL on MF skin tumor T cells, which support CL use as an early cutaneous lymphoma treatment and can be of synergistic use, especially beneficial in the setting of combination skin-directed therapies for cutaneous T-cell lymphoma.

264 Increased chlormethine induced DNA double stranded breaks in malignant T cells from mycosis fungoides skin lesions

Cutaneous T-cell lymphoma (CTCL) is a heterogeneous group of extranodal non-Hodgkin’s lymphoma. Mycosis fungoides (MF) is the most common types of CTCL and considered as a malignancy of skin-resident T cells. Chlormethine (CL), also known as mechlorethamine or nitrogen mustard, is a synthetic agent with well-known alkylating capacity. Its topical application has a long tradition in dermatology, as CL-containing products have been used for the treatment of MF since 1940. Recently, a novel CL gel formulation has been approved for the treatment of skin lesions in MF adult patients.

Prec-O1-01 - Increased chlormethine induced DNA double stranded breaks in malignant T cells from mycosis fungoides skin lesions

<h3>Background:</h3> Cutaneous T-cell lymphoma (CTCL) is a heterogeneous group of extranodal non-Hodgkin's lymphoma. Mycosis fungoides (MF) is the most common types of CTCL and considered as a malignancy of skin-resident T cells. Chlormethine (CL), also known as mechlorethamine or nitrogen mustard, is a synthetic agent with well-known alkylating capacity. Its topical application has a long tradition in dermatology, as CL-containing products have been used for the treatment of MF since 1940. Recently, a novel CL gel formulation has been approved for the treatment of skin lesions in MF adult patients. <h3>Objective:</h3> Here we aim to study the impact of CL on malignant skin T cells regarding their susceptibility to treatment, proliferation, DNA double strand breaks and the expression of alkylated-nucleotides-excision genes. <h3>Methods:</h3> Tumour blood or skin T cells were isolated by magnetic-activated cell (MACS) sorting. Susceptibility to CL exposure was evaluated by MTT assay. Proliferation and DNA double strand breaks upon CL exposure were detected by BrdU proliferation assay and flowcytometry for γH2AX Ser139. Expression of alkylated-nucleotides-excision genes was measured by reverse transcription quantitative PCR (RT-qPCR). <h3>Results:</h3> While CL exposure in vitro decreased time- and dose-dependently total blood T-cell viability, it did not statistically significantly influence neither blood nor skin T-cell proliferation. Of interest, when acting on skin T cells, CL induce DNA double stranded breaks predominately in the subpopulation of MF clonal malignant skin T cells but not the non-tumoral healthy T cells. Quantitative real-time PCR uncovered that several important genes involved in rescue of alkylated nucleotides were generally decreased in tumor T cells and CL exposure in vitro further significantly decreased the expression of FEN1 and BRCA2, two major alkylated-nucleotides-excision-repair genes. <h3>Conclusion:</h3> This study sheds light on how CL affects malignant skin T cells from patients with MF and provides additional rationale for considering it as an early and valuable skin-directed treatment option for skin lymphoma.