We analyzed the expression of 13 chemokine receptors in mycosis fungoides, in order to assess the contribution of chemotaxis to the pathogenesis of the disease. Material from skin biopsies of six patients with early disease and six patients at the tumor stage of mycosis fungoides was analyzed by immunohistochemistry and partly also by flow cytometry. The receptors CCR1, CCR2, CCR3, CCR5, CCR6, CXCR1, CXCR2, CXCR5, and CX3CR1 were rarely and inconsistently detected in lesional skin and thus their participation in mycosis fungoides could largely be ruled out. In contrast, CCR4, CXCR3, and CXCR4 were substantially expressed on both mycosis fungoides cells and the surrounding reactive T cells in the early patch and plaque stages of the disease, indicating an involvement of these chemokine receptors in the disease process. In the tumor stage of mycosis fungoides, we interestingly observed a loss of a relevant chemokine receptor in four out of six patients. In three patients CXCR3 and in one patient CCR4 was absent on tumor mycosis fungoides cells, whereas the reactive T cells showed normal levels of expression. Within these samples, tumor mycosis fungoides cells exhibited high levels of CCR7, a chemokine receptor central for the entry of T cells to lymphatic tissue. Taken together, our data suggest that the loss of one or more of the chemokine receptors involved in the homing of the mycosis fungoides cells to the skin may trigger the latent potential of these cells to metastasize into regional lymphatic tissue.
Lichen sclerosus et atrophicus is a chronic dermatosis of unknown etiology and pathogenesis. Lichen sclerosus et atrophicus associated skin lesions show T cell enriched infiltrates, sometimes resembling the histologic picture of early mycosis fungoides. It is supposed that the infiltrating T cells participate in the pathogenesis of atrophy and sclerosis. We investigated skin biopsies from 39 lichen sclerosus et atrophicus patients by histology, immunohistochemistry and, in order to establish the status of T cell clonality, by polymerase chain reaction amplifying the T cell receptor-gamma rearrangements. A stage-dependent shift of the CD3-positive T cells was observed from a predominantly CD4-positive to a predominantly CD8-positive phenotype. The increase of CD8-positive cells was associated with more pronounced epidermotropism and basal degeneration. Nearly all CD8-positive cells expressed cytotoxic granules (TIA1), possibly causing the basal destruction. In the late fibrotic stage of the disease, only a weak or no infiltrate was found. Regarding the T cell receptor-gamma polymerase chain reaction, the presence of clonally expanded T cells was demonstrated in 19 of 39 patients (49%) by at least one of two different high resolution electrophoresis techniques applied to separate the amplification products. Thus, for the first time clonally expanded infiltrating T cells were detected in lichen sclerosus et atrophicus. Furthermore, this is one of the first reports on the detection of clonally expanded infiltrating T cells in an inflammatory skin disease. The clonal T cells could not be assigned to the CD4 or CD8 subtype. Most likely, their presence is not the result of a malignant transformation but a response to an as yet unknown lichen sclerosus et atrophicus associated antigen.
Information on chromosomal aberrations in cutaneous T cell lymphomas (CTCL), is scarce. In this study, comparative genomic hybridization (CGH) was used to analyze chromosomal imbalances (CI) in 32 patients with CTCL. CI were detected in 21 patients (66%). Euchromatic loss (dim) was localized most frequently (>16%) at the chromosomal regions 17p (28%), 13q (25%), 10q (16%), and 6q (19%), and gain of chromatin (enh) at 7 (25%), 8q (25%), and 17q (16%). The pattern dim6q-enh7-enh8-dim13 was the most frequent combination of CI. The number of aberrations per tumor sample varied between 0 and 19 and correlated with clinical tumor stages: from none in stage Ia to 8.75+/-1.8 (mean+/-SEM) in stage IVa. CI occurred more frequently in aggressive subtypes (9.33+/-2.16) than in indolent (2.88+/-0.8) subtypes. A high number of CI (>/=5) was associated with shorter survival. Gain of chromatin in 8q and loss of 6q and 13q correlated with a significantly shorter survival, whereas the most frequently observed aberrations (loss in 17p and gain in 7) did not influence the prognosis. In summary, CGH analysis revealed a characteristic pattern of recurring chromosomal gains and losses in CTCL. The association of the imbalances with the clinical course of the disease suggests that genes encoded at these loci may influence tumor development and progression.
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