The interaction of pemphigus autoimmunoglobulins with epidermal cells: activation of the fas apoptotic pathway and the use of caspase activity for pathogenicity tests of pemphigus patients

Abstract

Pemphigus is a fatal autoimmune disease in which autoimmunoglobulins PV-IgG (binding to desmoglein 3) and PF-IgG (binding to desmoglein 1) in pemphigus vulgaris and pemphigus foliaceus, respectively, cause intraepidermal blisters, cell-cell separation (acantholysis), and cell death. The mechanism of acantholytic lesion formation has not yet been elucidated. Recently, we have reported that an apoptotic mechanism might be operative in PV-IgG-induced acantholysis: (1) in patients' lesional and some perilesional skin portions, the FasR pathway is activated as its components were enriched; (2) in cultured keratinocytes, PV-IgG upregulates effectors of the FasR pathway (including the mitochondrial loop), as found by immunodetermination (cytochemistry, Western blot of pathway effectors) and determination of caspases 1, 3, and 8 activity/activation; (3) in organ cultures of skin incubated with PV-IgG, activated caspase 8 was found also in perilesional cells and coaggregated with bound PV-IgG; (4) caspase 8 activation in DISCs precedes caspase 3 activation in keratinocytes in cultures upon incubation with PV-IgG. Because caspase activation was shown to accompany lesion formation in cell and organ cultures incubated with PV-IgG, we used caspase activity to monitor the pathogenicity of PV-IgG in relation to PV-IgG binding to epithelia. A rough correlation was found between sera titers, determined by IIF and by immunoblot binding to desmoglein 3, and activation of caspase 3.