Les lymphomes T épidermotropes comme modèles de progression tumorale

Les lymphomes T cutanés sont liés à l’accumulation, dans la peau, de lymphocytes T matures mémoires à tropisme cutané. La forme la plus fréquente est le mycosis fongoïde, le syndrome de Sézary représentant la forme disséminée avec cellules tumorales circulantes. La physiopathologie et la progression tumorale restent mal comprises, mais plusieurs découvertes récentes suggèrent le développement possible de nouvelles possibilités thérapeutiques : mise en évidence de plusieurs antigènes exprimés par les lymphocytes T tumoraux, voies de signalisation impliquées dans la résistance à l’apoptose, possibilités de stimulation de l’immunité innée. La mise en évidence récente de signatures moléculaires devrait également permettre de mettre au point de nouveaux marqueurs diagnostiques et pronostiques.Primary cutaneous T cell lymphomas (CTCL) represent the most frequently occurring group of extra-nodal T cell lymphomas, originating from skin-homing memory T cells. Sezary syndrome (SS) is a leukemic variant of CTCL that presents with erythroderma, lymphadenopathies and presence of malignant T cells in peripheral blood. SS has an unfavourable prognosis, and is refractory to current treatments. Progress in understanding the pathogenesis and tumor progression of SS is limited. In the past few years, we have identified and reported several CTCL-associated antigens, CD158k/KIR3DL2, CD85j/ILT2, and SC5/vimentin. KIR3DL2 is the first phenotypic marker of Sezary cells that can be used for the diagnostic and follow-up of Sezary syndrome. The SC5 antibody is the only monoclonal antibody reacting with vimentin on the surface of viable Sezary cells. CTCL are characterized by a predominance of Th2 cytokines. The recent suggestion that CTCL cells could be regulatory T (Tr) cells remains controversial. Gene expression studies suggest that in the future we may develop new diagnostic and prognostic tools, and identify subsets of patients who would benefit from more appropriate treatment protocols. Future challenges are to render tumor cells sensitive to apoptosis by inhibiting specific signalling pathways such as the constitutively activated NF-KB pathway, to identify specific surface kinase receptors and to develop specific inhibitors, to develop humanized monoclonal antibodies directed against tumor specific antigens, able to kill tumor cells via complement-dependent and antibody-dependent cytotoxicity, and to stimulate innate immunity

Nécrolyse épidermique : Mécanisme de l’apoptose des kératinocytes

Les syndromes de Stevens-Johnson et de Lyell sont regroupés sous le nom de nécrolyse épidermique. Il s’agit de maladies bulleuses mucocutanées aiguës, rares mais extrêmement graves, provoquées le plus souvent par une « allergie » médicamenteuse. Le mécanisme conduisant à la mort par apoptose brutale et disséminée des cellules de l’épithélium de la peau et des muqueuses a longtemps été un mystère. Les connaissances accumulées suggèrent toutefois l’existence d’un phénomène de cytotoxicité lymphocytaire dirigé contre des cellules épidermiques, reconnues comme étrangères après fixation du médicament inducteur de la réaction sur certaines molécules HLA de classe I. Tout semble se passer comme s’il s’agissait d’un rejet aigu d’une greffe d’épiderme.Toxic epidermal necrolysis and Stevens-Johnson syndrome are acute and severe adverse reaction to drugs, characterized by the widespread destruction of the epithelium of the skin and mucous membranes. This destruction by massive apoptosis leads to a clinical pattern of epidermal necrolysis resembling second degree burns, with sheets of necrotic epidermis detached from the underlying dermis. The mechanisms of acute and extensive destruction of the skin are not yet fully understood. At the onset of the reaction blisters develop from the fluid that accumulates between the dead epidermis and the dermis. High concentrations of mononuclear cells are present in this blister fluid, principally CD8 T-lymphocytes that may exhibit a drug specific MHC class I restricted cytotoxicity against autologous cells. The intervention of soluble mediators such as TNFα, perforin/granzyme, or Fas-Ligand may be necessary for amplifying the apoptosis of keratinocytes. A strong association between epidermal necrolysis to certain drugs and rare HLA-B genotypes suggests that direct interaction between these drugs and HLA-B molecules may initiate a reaction resembling the acute rejection of allogeneic epidermis

The dual (activating/suppressive) effect of extracellular TatHIV-1 is driven by the infalmmatory microenvironment of infected lymphoid foci

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Extranodal NK/T-Cell Lymphoma: Toward the Identification of Clinical Molecular Targets

Extranodal natural killer (NK)/T-cell lymphoma of nasal type (NKTCL) is a malignant disorder of cytotoxic lymphocytes of NK or more rarely T cells associated with clonal Epstein-Barr virus infection. Extranodal NKTCL is rare in Western countries, but in Asia and Central and South America it can account for up to 10% of non-Hodgkin's lymphomas. It is an aggressive neoplasm with very poor prognosis. Although the pathogenesis of extranodal NKTCL remains poorly understood, some insights have been gained in the recent years, especially from genome-wide studies. Based on our own experience and knowledge of the literature, we here review some of the genomic and functional pathway alterations observed in NKTCL that could provide a rationale for the development of innovative therapeutic strategies

Human and Mouse Mast Cells Express and Secrete the GPI-Anchored Isoform of CD160

CD160 is expressed by human and mouse natural killer (NK) cells and other cytotoxic lymphocyte subpopulations. CD160 is mostly expressed as a trimeric 83kDa glycosylphosphatidylinositol (GPI)-anchored activating NK receptor, cleaved upon IL-15 stimulation in a secreted trimeric soluble form (sCD160) that binds to major histocompatibility complex (MHC) class I molecules, while a transmembrane isoform appears. sCD160 exhibits immunoregulatory function as it inhibits CD8+ T-lymphocyte cytotoxic activity. We show that human mast cells (MCs) express CD160. In human and mouse skin, resident MCs expressed CD160, whereas in C57BL/6-KitW-sh/W-sh mice, CD160+ cells were only identified at the site of reconstitution with syngeneic cultured MCs. In the human mast cell line, HMC-1, we only identified the transcripts of the GPI-anchored CD160 isoform. Furthermore, CD160 was identified in HMC-1 and mouse MC supernatants, suggesting that MCs release sCD160. Supporting this hypothesis, HMC-1 express the GPI-specific phospholipase D variant 2 involved in the NK lymphocyte membrane cleavage of CD160, and morphological studies highlighted a relative loss of CD160 expression in inflammatory skin sites, where MC degranulation is expected to occur. We also demonstrated an inhibition of T-cell cytotoxicity by HMC-1 supernatant that was partially reversed by anti-CD160 mAb. In conclusion, sCD160, produced by MCs, may have a role in T-cell–MC interactions in vivo

Cytotoxic activity of peripheral blood mononuclear cells in patients with endometriosis: A cross-sectional study

Background: Endometriosis is believed to be associated with dysfunction of the lymphocyte population and cytotoxicity of natural killer (NK) cells, induced by the production of interleukin-2 (IL-2). Objective: This study aimed to investigate T lymphocytes and NK cell activity in the peripheral blood mononuclear cells (PBMCs) of women with endometriosis. Materials and Methods: PBMCs were obtained from the peripheral venous blood samples of 14 women with and without endometriosis (n = 7 for each group). Then, the PBMCs were co-cultured for 4 days and were treated with recombinant IL-2 for cytotoxic activity toward target cells (Daudi and K562 cells). The cytotoxicity activity was determined using the 51 chromium release assay before and after stimulation. Flow cytometry measurement was used to examine the expression of T lymphocytes and NK cells before and after being treated with IL-2. Results: The concentration of CD3+CD28+ (co-stimulatory) was significantly lower in the endometriosis group (65.62 ± 5.38) compared to in its counterpart (50.24 ± 4.22) (p = 0.04) before stimulation. However, no significant differences were observed in any other T lymphocytes and NK cells. It was also found that there was a significant increase of CD3-CD28+ after treatment with IL-2 only in the healthy control but not in women with endometriosis. Conclusion: Increased expression of CD160 and decreased CD28 play a role in inhibiting NK cell activation and T cell response in women with endometriosis. Key words: CD28, CD160, Cytotoxic, Endometriosis, PBMC

Identification of a Novel CD160+CD4+ T-Lymphocyte Subset in the Skin: A Possible Role for CD160 in Skin Inflammation

CD160 is a glycosylphosphatidylinositol-anchored cell surface molecule expressed by human circulating cytotoxic lymphocytes that correspond to the majority of natural killer cell (NK) expressing CD56dim, TCRγδ lymphocytes, and to a minor CD8 T-cell subset. CD160 engagement by major histocompatibility complex class I molecules triggers by itself both cytotoxic function and cytokine production in NK lymphocytes, whereas it provides co-activating signals to TCR-induced proliferation in T CD8+ lymphocytes. In this study, we analyzed by immunohistochemistry the phenotype of lymphocytes infiltrating normal skin and inflammatory skin lesions of atopic dermatitis, contact dermatitis, and psoriasis. We identified a minor original subset of CD4+CD160+ T cells infiltrating inflammatory lesions. We found that this lymphocyte subset localization is not restricted to the skin, as we demonstrated that CD160 transcripts could be induced in IL-2 or IL-15-activated CD4+ peripheral blood lymphocytes. Finally, we report that CD160 acts as a co-activator receptor for CD3-induced proliferation of CD4+CD160+ T cells isolated from inflammatory skin lesions. Thus, we hypothesize that the unique CD4+CD160+ lymphocyte subset plays a role in the pathogenesis of skin inflammation

Functional Characterization of Neurotensin Receptors in Human Cutaneous T Cell Lymphoma Malignant Lymphocytes

Cutaneous T cell lymphomas are a clonal proliferation of CD4+ T lymphocytes primarily involving the skin. Mycosis fungoides is an epidermotropic CD4+ cutaneous T cell lymphoma, and a more aggressive form, Sezary syndrome, occurs when the malignant cells become nonepidermotropic. The role of neuropeptides in the growth and chemotaxis capacity of cutaneous T cell lymphoma cells remains unknown. In this report, we found that cutaneous T cell lymphoma cells, similarly to normal resting or activated peripheral lymphocytes, were able to bind neurotensin. We used an interleukin-2-dependent cutaneous T cell lymphoma malignant T cell line derived from cutaneous T cell lymphoma lesions in order to study the role of neurotensin in the proliferation and migration of these malignant cells. First, we determined that the malignant cells expressed neurotensin receptors on their cell membrane. Functional results indicated that neurotensin did not stimulate the growth of the cell line. In contrast, this neuropeptide inhibited the proliferation of the tumor cells in response to exogenous interleukin-2. Furthermore, we found that neurotensin enhanced both spontaneous and chemoattractant-induced migration of the malignant cells. This suggests that neurotensin in skin can play a role in the disease by locally limiting the growth of the cutaneous T cell lymphoma tumor cells in response to cytokines and by enhancing their chemotaxis capacity