A mouse model for the Sézary syndrome.

BACKGROUND: The Sézary syndrome is an aggressive leukemic form of cutaneous T cell lymphoma and there is no cure of this disease. Until now there is no true animal model for Sézary syndrome, by which new drugs against the disease could be tested. METHODS: Immune deficient CB-17 SCID beige mice were injected subcutaneously with HUT78 cells, a cell line, derived from a Sézary syndrome patient. Developing tumors were analyzed by immunohistochemistry. RESULTS: Injected HUT78 cells formed tumors at the site of injection. In contrast to the Sézary syndrome in man, no malignant cells were observed in the blood of tumor bearing CB-17 SCID beige mice. The tumors appeared 44-62 days after injection and tumor bearing mice survived further 25 - 62 days until they had to be euthanized according to the guidelines of the Swiss animal protection law, since the tumors had reached the maximal allowed size. CONCLUSION: Although the mouse model does not exactly match the human disease, it will be suited for tests of new substances for the treatment of the Sézary syndrome. The formation of an isolated tumor on the skin has the advantage that the effect of a potential drug can be directly monitored without the use of invasive methods.

Recent advances in cutaneous lymphomas.

Cutaneous lymphomas are a heterogeneous group of extranodal lymphomas that are characterized by an initial accumulation of mononuclear, mostly lymphocytic cells in the skin. Recent discoveries of changes in molecular biology and immunology of these tumors have paved the way to a better understanding of the processes that govern lymphomagenesis in the skin and more importantly, they have contributed to the development of the new WHO-EORTC classification system. Only now has the field of cutaneous lymphomas gained a novel, long-awaited basis that may act as a new starting point in the collection of clinical as well molecular and immunological data on comparative basis. This review will try to highlight the newest findings in the pathogenesis of primary cutaneous T- and B-cell lymphomas, hematodermic neoplasm and HTLV-1 positive disorders as well as their translation into efficient therapeutic strategies.

Standard and experimental therapy in cutaneous T-cell lymphomas.

Cutaneous T-cell lymphomas are a heterogeneous group of lymphoproliferative disorders, characterized by the accumulation of clonal lymphocytes in the skin. Skin-directed therapies are the preferred first-line modalities. There are interesting new developments in topical therapy using retinoids and gene-therapy products such as adenovirus- interferon (IFN)-gamma. Systemic treatment uses biologicals such as fusion molecules, monoclonal antibodies and immune response modifiers (IFNs and retinoids), and well-tolerated antiproliferative drugs such as methotrexate. Evidence-based treatment recommendation exists but is hampered by the lack of large multicenter randomized trials.

Apoptosis in CD30-positive lymphoproliferative disorders of the skin.

The spectrum of CD30-positive cutaneous lymphoproliferative disorders (CD30+ CLPD) includes lymphomatoid papulosis (LyP), primary cutaneous CD30+ large T-cell lymphoma (LTCL) and rare borderline patients. Despite their malignant histopathology, CD30+ CLPD exhibit a low-grade malignant course with an excellent prognosis and a characteristic tendency for spontaneous regression. Apoptosis of tumour cells is considered a principal mechanism of tumour regression. We examined the proliferation and apoptosis rates as well as the expression of apoptosis-related proteins in various clinical entities, tumour cell lines and evolutional (evolving and regressing) stages of CD30+ CLPD. Skin biopsies of LyP (n = 20) and LTCL (n = 19) and five CD30+ lymphoma cell lines were analysed by means of immunohistochemistry and Western blotting in order to evaluate the proliferation (Ki67), apoptosis (FragEl) and expression of Bax, Bcl-x, C-kit and Mcl-1. A significantly higher apoptotic index (AI) was found in LyP (AI = 12.5%) than in LTCL (AI = 3.1%, P < 0.005). Bax was expressed by the majority of tumour cells in all forms of CD30+ CLPD and CD30+ cell lines. However, no Bax expression was found in tumour cell lines derived from systemic CD30+ lymphomas, which lack spontaneous regression and display an aggressive clinical course. No significant correlation was found between the expression of apoptosis-related proteins and the tumour type and evolutional stage of CD30+ CLPD. We conclude that the higher AI in LyP may contribute to the regression of LyP lesions and the excellent prognosis of the disease. Pro-apoptotic protein Bax is expressed at high levels in CD30+ CLPD and may play a crucial role in mediating apoptosis of tumour cells.