Jacoba J. Out-Luiting

Aberrant Expression of the Tyrosine Kinase Receptor EphA4 and the Transcription Factor Twist in Sézary Syndrome Identified by Gene Expression Analysis

Sézary syndrome (Sz) is a malignancy of CD4+ memory skin-homing T cells and presents with erythroderma, lymphadenopathy, and peripheral blood involvement. To gain more insight into the molecular features of Sz, oligonucleotide array analysis was performed comparing gene expression patterns of CD4+ T cells from peripheral blood of patients with Sz with those of patients with erythroderma secondary to dermatitis and healthy controls. Using unsupervised hierarchical clustering gene, expression patterns of T cells from patients with Sz were classified separately from those of benign T cells. One hundred twenty-three genes were identified as significantly differentially expressed and had an average fold change exceeding 2. T cells from patients with Sz demonstrated decreased expression of the following hematopoietic malignancy-linked tumor suppressor genes: TGF-β receptor II, Mxi1, Riz1, CREB-binding protein, BCL11a, STAT4, and Forkhead Box O1A. Moreover, the tyrosine kinase receptor EphA4 and the potentially oncogenic transcription factor Twist were highly and selectively expressed in T cells of patients with Sz. High expression of EphA4 and Twist was also observed in lesional skin biopsy specimens of a subset of patients with cutaneous T cell lymphomas related to Sz, whereas their expression was nearly undetectable in benign T cells or in skin lesions of patients with inflammatory dermatoses. Detection of EphA4 and Twist may be used in the molecular diagnosis of Sz and related cutaneous T-cell lymphomas. Furthermore, the membrane-bound EphA4 receptor may serve as a target for directed therapeutic intervention.

Novel and highly recurrent chromosomal alterations in Sezary syndrome

This study was designed to identify highly recurrent genetic alterations typical of Sézary syndrome (Sz), an aggressive cutaneous T-cell lymphoma/leukemia, possibly revealing pathogenetic mechanisms and novel therapeutic targets. High-resolution array-based comparative genomic hybridization was done on malignant T cells from 20 patients. Expression levels of selected biologically relevant genes residing within loci with frequent copy number alteration were measured using quantitative PCR. Combined binary ratio labeling-fluorescence in situ hybridization karyotyping was done on malignant cells from five patients. Minimal common regions with copy number alteration occurring in at least 35% of patients harbored 15 bona fide oncogenes and 3 tumor suppressor genes. Based on the function of the identified oncogenes and tumor suppressor genes, at least three molecular mechanisms are relevant in the pathogenesis of Sz. First, gain of cMYC and loss of cMYC antagonists (MXI1 and MNT) were observed in 75% and 40% to 55% of patients, respectively, which were frequently associated with deregulated gene expression. The presence of cMYC/MAX protein heterodimers in Sézary cells was confirmed using a proximity ligation assay. Second, a region containing TP53 and genome maintenance genes (RPA1/HIC1) was lost in the majority of patients. Third, the interleukin 2 (IL-2) pathway was affected by gain of STAT3/STAT5 and IL-2 (receptor) genes in 75% and 30%, respectively, and loss of TCF8 and DUSP5 in at least 45% of patients. In sum, the Sz genome is characterized by gross chromosomal instability with highly recurrent gains and losses. Prominent among deregulated genes are those encoding cMYC, cMYC-regulating proteins, mediators of MYC-induced apoptosis, and IL-2 signaling pathway components.

MicroRNA-21 Expression in CD4+ T Cells Is Regulated by STAT3 and Is Pathologically Involved in Sézary Syndrome

MicroRNAs (miRNAs) are small RNAs that control gene expression, and are involved in the regulation of fundamental biological processes including development, cell differentiation, proliferation, and apoptosis. miRNAs regulate gene expression in normal hematopoiesis, and aberrant miRNA expression might contribute to leukomogenesis. Specifically, miR-21 is abundantly expressed in various tumors including leukemia and lymphoma, and is functionally involved in oncogenic processes. We investigated a role for miR-21 in Sézary Syndrome (SS), a cutaneous T-cell lymphoma (CTCL) with CD4+ tumor cells (Sézary cells) present in the skin, lymph nodes, and peripheral blood. It was shown previously that SS is characterized by constitutively activated signal transducer and activator of transcription 3 (STAT3) signaling. In this study we show by chromatin immunoprecipitation that miR-21 is a direct STAT3 target in Sézary cells. Stimulation of Sézary cells or healthy CD4+ T cells with the common-γ chain cytokine IL-21 results in a strong activation of STAT3, and subsequent upregulation of miR-21 expression. Both pri- and mature miR-21 expression are increased in Sézary cells when compared with CD4+ T cells from healthy donors. Silencing of miR-21 in Sézary cells results in increased apoptosis, suggesting a functional role for miR-21 in the leukomogenic process. Consequently, miR-21 might represent a therapeutic target for the treatment of SS.

Cucurbitacin I Inhibits Stat3 and Induces Apoptosis in Sézary Cells

Sézary syndrome (Sz) is an aggressive cutaneous CD4(+) T-cell lymphoma with tumor cells (Sz cells) localized in the skin, lymph nodes, and peripheral blood. Using western blotting, we demonstrate the expression of phosphorylated (P)-Stat3 in the Sz-derived cell line Seax, and in freshly isolated tumor cells from Sz patients (n=6). In Vitro overnight culture without exogenous cytokines results in decreased expression of P-Stat3 (n=3), indicating that Stat3 is not constitutively activated. Incubation of the Seax cell line with the Jak/Stat3 inhibitor Cucurbitacin I resulted in a time- and concentration-dependent decrease of P-Stat3 and Stat3. In freshly isolated Sz cells (n=3), Cucurbitacin I induced a concentration-dependent decrease in Stat3 expression whereas P-Stat3 was undetectable. Finally, incubation of freshly isolated Sz cells (n=4) with 30 microM Cucurbitacin I for 6 hours induced apoptosis in the large majority (73-91%) of tumor cells. These data strengthen the notion that activation of Stat3 plays an essential part in the malignant transformation of Sz and provide further rationale for the therapeutical targeting of Stat3 in Sz.

A Meta-Analysis of Gene Expression Data Identifies a Molecular Signature Characteristic for Tumor-Stage Mycosis Fungoides

Mycosis fungoides (MF) is the most common type of primary cutaneous T-cell lymphoma (CTCL). To identify a molecular signature characteristic of MF tumor stage, we used a bioinformatic approach involving meta-analysis of publicly available gene expression data sets combined with previously generated gene expression data. Results for a selection of genes were further refined and validated by quantitative PCR and inclusion of additional controls. With this approach, we identified a profile specific for MF tumor stage, consisting of 989 aberrantly expressed genes, the majority of which (718 genes) are statistically significantly more expressed in MF compared with normal skin, inflamed skin, and normal T cells. As expected, the signature contains genes reflecting the highly proliferative characteristic of this T-cell malignancy, including altered expression of cell cycle and kinetochore regulators. We uncovered details of the immunophenotype, suggesting that MF originates from IL-32-producing cells and identified previously unreported therapeutic targets and/or diagnostic markers, for example, GTSF1 and TRIP13. Loss of expression of the NF-κB inhibitor, NFKBIZ, may partly explain the enhanced activity of NF-κB, which is a hallmark of MF and other CTCLs.

Normalized ultraviolet (UV) induction of Langerhans cell depletion and neutrophil infiltrates after artificial UVB hardening of patients with polymorphic light eruption

Background  Ultraviolet (UV) B hardening has been widely used as a prophylactic treatment in patients with polymorphic light eruption (PLE). Recent investigations have shown that in patients with PLE Langerhans cells (LCs) and neutrophils display less migration from and to the epidermis after an intense UVB irradiation compared with controls.

Autocrine IL-21 Stimulation Is Involved in the Maintenance of Constitutive STAT3 Activation in Sézary Syndrome

Sézary syndrome (SS) is a cutaneous T-cell lymphoma (CTCL) with malignant CD4+ T cells (SS cells) in skin, lymph nodes, and blood. Signal transducer and activator of transcription 3 (STAT3) is constitutively activated in SS cells, whereas this activation is lost upon in vitro culturing, indicating that STAT3 activation observed in vivo is the result of activating factors in the micromilieu of the malignant cells. We investigated which factors are involved in STAT3 activation in SS, focusing on cytokines of the common γ-chain family because of their crucial role in T-cell activation. Furthermore, downstream effects of STAT3 signaling in SS cells were assayed. In SS cells, STAT3 was strongly activated by IL-21, and increased expression of IL-21 and its receptor chains was observed in peripheral blood SS cells. IL-21 and IL-21R protein expression was detectable on neoplastic cells in SS skin biopsies. Using short-term culturing experiments, we demonstrate that IL-21 itself and the α-chain of the IL-2 receptor are STAT3 target genes in SS cells, thereby rendering cells more sensitive to stimulation with the T-cell proliferation and activating cytokine IL-2. Combined, our data point toward a pivotal role for an autocrine positive feedback loop involving IL-21 and consequent persistent STAT3 activation in the pathogenesis of SS, thereby indicating IL-21 and IL-21R as new therapeutical targets.

Reduced IL-1Ra/IL-1 ratio in ultraviolet B-exposed skin of patients with polymorphic light eruption.

Abstract:  Polymorphic light eruption (PLE) is a putative delayed‐type allergic reaction to (solar) ultraviolet (UV) exposure. Inadequate immune suppression after UVB‐induced sunburn appears to be associated with reduced trafficking of Langerhans cells (LCs) out of and neutrophils into the epidermis of patients sensitive to UVB provocation of PLE. Therefore, we investigated whether pro‐inflammatory and chemotactic cytokines are differentially expressed in UVB‐irradiated skin of UVB‐provocable PLE patients (n = 6) and age‐ and gender‐matched healthy controls (n = 6). Interstitial interleukin‐1α (IL‐1α), IL‐1β, IL‐1Ra, IL‐4, IL‐8, tumor necrosis factor‐α (TNF‐α), macrophage inflammatory protein 1‐α (MIP‐1α), MIP‐1β and monocyte chemotactic protein‐1 (MCP‐1) were measured in suction blister fluid raised 16 h after exposure to 0, three and six minimal erythemal UVB doses. In unirradiated skin, the IL‐1Ra levels were significantly lower in the PLE patients than in controls (P < 0.05). IL‐8 and TNF‐α levels increased strongly upon UVB irradiation in both groups. No differential shifts in cytokine profiles were found that could explain a reduced trafficking of Langerhans cells and neutrophils in PLE patients. Dose‐trend analyses showed that UVB irradiation caused significant increases in IL‐1α in both groups, and that the levels of IL‐1α and IL‐1β were on average twofold higher in the PLE group (P = 0.03 and P = 0.004, respectively.). Accordingly, the ratios of IL‐1Ra over IL‐1α and over IL‐1β were overall lower in the skin of PLE patients (P = 0.015 and P < 0.001, respectively.). This shift in cytokines in UVB‐irradiated skin of PLE patients reveals an amplified early pro‐inflammatory cytokine response, which may contribute to the allergic reaction to UVB radiation.

Exploring the IL-21-STAT3 Axis as Therapeutic Target for Sezary Syndrome

Sézary syndrome is an aggressive cutaneous T-cell lymphoma. The malignant cells (Sézary cells) are present in skin, lymph nodes, and blood, and express constitutively activated signal transducer and activator of transcription (STAT)3. STAT3 can be activated by IL-21 in vitro and the IL-21 gene itself is a STAT3 target gene, thereby creating an autocrine positive feedback loop that might serve as a therapeutic target. Sézary cells underwent apoptosis when incubated with Stattic, a selective STAT3 inhibitor. STAT3 activation in Sézary cells did not affect expression of the supposed anti-apoptotic STAT3 target genes BCL2, BCL-xL, and SURVIVIN, whereas expression of (proto)oncogenes miR-21, TWIST1, MYC, and PIM1 was significantly increased. CD3/CD28-mediated activation of Sézary cells induced IL-21 expression, accompanied by STAT3 activation and increased proliferation. Blocking IL-21 in CD3/CD28-activated cells had no effects, whereas Stattic abrogated IL-21 expression and cell proliferation. Thus, specific inhibition of STAT3 is highly efficient in the induction of apoptosis of Sézary cells, likely mediated via the regulation of (proto)oncogenes. In contrast, blocking IL-21 alone seems insufficient to affect STAT3 activation, cell proliferation, or apoptosis. These data provide further insights into the pathogenic role of STAT3 in Sézary syndrome and strengthen the notion that STAT3 represents a promising therapeutic target in this disease.

NOTCH1 signaling as a therapeutic target in Sézary syndrome.

NOTCH signaling is important for development and tissue homeostasis and is activated in many human cancers. We investigated a role for NOTCH1 signaling in Sézary syndrome (SS), a cutaneous T-cell lymphoma in which CD4+ tumor cells (Sézary cells) are present in the skin, lymph nodes, and peripheral blood. We show consistent expression of activated NOTCH1 by Sézary cells isolated from peripheral blood of SS patients, as well as the SS-derived cell lines SeAx and HuT78. In addition, immunohistochemical stainings of skin biopsies from SS patients showed consistent expression of nuclear NOTCH1 and its downstream target hairy/enhancer of split-1 (HES1) by Sézary cells. We demonstrate that this persistent NOTCH1 activation is not caused by mutations in the coding regions of NOTCH1 and F-box and WD40 domain protein 7 (FBWX7) genes. Inhibition of NOTCH1 signaling by gamma secretase inhibitors decreased cellular viability and induced apoptosis of Sézary cells. These observations argue that NOTCH1 signaling is functionally involved in the pathogenesis of SS, and inhibition of NOTCH1 signaling represents a new therapeutic target for the treatment of SS.