Anna Wańkowicz-Kalińska scite author profile

SUMMARY:Vitiligo is an autoimmune condition characterized by loss of epidermal melanocytes. High frequencies of melanocyte-reactive cytotoxic T cells in the peripheral blood of vitiligo patients and the observed correlation between perilesional T-cell infiltration and melanocyte loss in situ suggest the important role of cellular autoimmunity in the pathogenesis of this disease. We isolated T cells from both perilesional and nonlesional skin biopsies obtained from five vitiligo patients, then cloned and analyzed their profile of cytokine production after short-term, nonspecific expansion in vitro. Perilesional T-cell clones (TCC) derived from patients with vitiligo exhibited a predominant Type-1-like cytokine secretion profile, whereas the degree of Type-1 polarization in uninvolved skin-derived TCC correlated with the process of microscopically observed melanocyte destruction in situ. Detailed analysis of broad spectrum of cytokines produced by perilesional-and nonlesional-derived CD4 ϩ and CD8 ϩ TCC confirmed polarization toward Type-1-like in both CD4 and CD8 compartments, which paralleled depigmentation process observed locally in the skin. Furthermore, CD8 ϩ TCC derived from two patients also were analyzed for reactivity against autologous melanocytes. The antimelanocyte cytotoxic reactivity was observed among CD8 ϩ TCC isolated from perilesional biopsies of two patients with vitiligo. Finally, in two of five patients, tetramer analysis revealed presence of high frequencies of Mart-1-specific CD8 T cells in T-cell lines derived from perilesional skin. Altogether our data support the role of cellular mechanisms playing a significant part in the destruction of melanocytes in human autoimmune vitiligo. (Lab Invest 2003, 83:683-695).

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Autoimmune Aspects of Depigmentation in Vitiligo

Poole

Wańkowicz-Kalińska

Wijngaard

et al. 2004

Journal of Investigative Dermatology Symposium Proceedings

115

102

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Autoimmune depigmentation of the skin, vitiligo, afflicts a considerable number of people, yet no effective therapeutic modalities have been developed to treat it. In part, this can be attributed to the obscure etiology of the disease, which has begun to reveal itself only recently. It is known that pigment is lost as a function of reduced melanocyte numbers in the epidermis, and that depigmentation is accompanied by T cell influx to the skin in the vast majority of patients. Characterizing such infiltrating T cells as type 1 proinflammatory cytokine-secreting cells reactive with melanocyte-specific antigen is a major step toward effective therapy. Melanoma research has shown that differentiation antigens, also expressed by normal melanocytes, can be immunogenic when expressed in the melanosomal compartment of the cell. Similar reactivity to melanosomal antigens is apparent for T cells infiltrating vitiligo skin. It may eventually be possible to treat patients with decoy antigens that anergize such Tcells, or to prevent recruitment of the T cells to the skin altogether. In this respect, it is important that T cells are recruited to the skin as a function of dendritic cell activation and that dendritic cells are likely activated at sites of epidermal trauma as a consequence of stress proteins that spill over into the microenvironment. Stress proteins chaperoning antigens representative of the cells from which they were derived are then processed by dendritic cells and contribute to their activation. Activated dendritic cells not only migrate to draining lymph nodes to recruit T cells but may execute cytotoxic effector functions as well. The contribution of the effector functions to actual depigmentation of the skin remains to be investigated.

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Anna Wańkowicz-Kalińska

α-Type-1 Polarized Dendritic Cells

Immunopolarization of CD4+ and CD8+ T Cells to Type-1–Like is Associated with Melanocyte Loss in Human Vitiligo

Autoimmune Aspects of Depigmentation in Vitiligo

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