Epidermolysis bullosa acquisita is an acquired chronic blistering disease of the skin, in which separation of the skin occurs in the basement-membrane zone between the epidermis and the dermis. There is evidence that blistering is initiated by an immune process. Using serum samples from nine patients as a source of antibodies, we have identified a major protein of the basement membrane of human skin that serves as the antigen (or target) for autoantibodies in this disorder. This previously unrecognized protein, which consists of two components of 290,000 and 145,000 daltons, is distinct from other known components of the basement membrane. These studies provide evidence that epidermolysis bullosa acquisita is a specific disease that is different from other primary bullous diseases, such as bullous pemphigoid and pemphigus vulgaris, and suggest that the basement-membrane component that has been identified may have a role in normal epidermal-dermal adherence.
Sixty-one bullous disease sera containing IgG anti-BMZ antibodies were examined by indirect immunofluorescence on intact skin and skin separated through the lamina lucida by incubation in 1.0 M NaCl. All sera produced an indistinguishable pattern of linear immunofluorescence on intact skin at dilutions of 1:10 or higher. On separated skin, antibodies bound to either the epidermal (epidermal pattern), dermal (dermal pattern), or epidermal and dermal (combined pattern) sides of the separation. The binding patterns were consistent on separated skin from several donors and titers of anti-basement membrane zone antibodies on separated skin were comparable to those on intact skin. Sera from 3 patients with herpes gestationis (HG), 36 patients with bullous pemphigoid (BP), and 1 patient with clinical and histologic features of epidermolysis bullosa acquisita (EBA) showed an epidermal pattern. Sera from 9 patients with BP showed a combined pattern and sera from 6 patients with EBA and 6 patients with clinical and histologic features of BP showed a dermal pattern. Indirect immunoelectron microscopy of selected sera showed antibodies producing the epidermal and combined patterns were anti-lamina lucida antibodies and those producing the dermal pattern were anti-sublamina densa antibodies. These results show indirect immunofluorescence on separated skin is a dependable method for differentiating bullous disease anti-lamina lucida and anti-sublamina densa antibodies and that differentiating between the antibodies is essential for accurate diagnosis in some patients. The results also suggest BP anti-lamina lucida antibodies may have more than one antigenic specificity.
Epiligrin, the major component of human keratinocyte extracellular matrix, serves as the preferred integrin ligand for a3ft in plasma membranes and focal adhesions, and colocalizes with a684 in hemidesmosomes. In human skin, epiligrin is found in the lamina lucida subregion of epidermal basement membrane, where it is thought to be associated with anchoring filaments. We have identified three patients with an acquired mucosal predominant subepidermal blistering disease who have IgG anti-basement membrane autoantibodies that bind the lamina lucida/lamina densa interface of epidermal basement membrane, stain cultured human keratinocyte extracellular matrix, and immunoprecipitate disulfide linked polypeptides of 170, 145, 125, and 95 kD in human keratinocyte culture media in a pattern identical to that of PlEl, a murine monoclonal antiepiligrin antibody. Comparative immunoprecipitation studies of patient sera, PlEl, and GB3 monoclonal antibody show that epiligrin is identical to the antigen (i.e., BM600 or GB3 antigen) previously reported to be absent from the skin of patients with lethal junctional epidermolysis bullosa, an inherited subepidermal blistering disease. Moreover, skin from a fetus with this disease shows no evidence of reactivity to patient antiepiligrin autoantibodies or PlEl. These studies show that antiepiligrin autoantibodies are a specific marker for a novel autoimmune blistering disease and that the epidermal basement membrane antigen absent in patients with lethal junctional epidermolysis bullosa is epiligrin. (J. Clin. Invest. 1992.
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