Induction of dermal-epidermal separation in mice by passive transfer of antibodies specific to type VII collagen
Cassian Sitaru, … , Akira Ishiko, Detlef Zillikens
Cassian Sitaru, … , Akira Ishiko, Detlef Zillikens
Published April 1, 2005
Citation Information: J Clin Invest. 2005;115(4):870-878. https://doi.org/10.1172/JCI21386.
View: Text | PDF
Article Autoimmunity

Induction of dermal-epidermal separation in mice by passive transfer of antibodies specific to type VII collagen

Abstract

Epidermolysis bullosa acquisita (EBA) is a subepidermal blistering disorder associated with tissue-bound and circulating autoantibodies specific to type VII collagen, a major constituent of the dermal-epidermal junction. Previous attempts to transfer the disease by injection of patient autoantibodies into mice have been unsuccessful. To study the pathogenic relevance of antibodies specific to type VII collagen in vivo, we generated and characterized rabbit antibodies specific to a murine form of this antigen and passively transferred them into adult nude, BALB/c, and C57BL/6 mice. Immune rabbit IgG bound to the lamina densa of murine skin and immunoblotted type VII collagen. Mice injected with purified IgG specific to type VII collagen, in contrast to control mice, developed subepidermal skin blisters, reproducing the human disease at the clinical, histological, electron microscopical, and immunopathological levels. Titers of rabbit IgG in the serum of mice correlated with the extent of the disease. F(ab′)2 fragments of rabbit IgG specific to type VII collagen were not pathogenic. When injected into C5-deficient mice, antibodies specific to type VII collagen failed to induce the disease, whereas C5-sufficient mice were susceptible to blister induction. This animal model for EBA should facilitate further dissection of the pathogenesis of this disease and development of new therapeutic strategies.

Authors

Cassian Sitaru, Sidonia Mihai, Christoph Otto, Mircea T. Chiriac, Ingrid Hausser, Barbara Dotterweich, Hitoshi Saito, Christian Rose, Akira Ishiko, Detlef Zillikens

×

Figure 2

Options: View larger image (or click on image) Download as PowerPoint
Serum IgG from rabbit SA2954 binds to the DEJ, recognizes type VII colla...
Serum IgG from rabbit SA2954 binds to the DEJ, recognizes type VII collagen, and activates complement and leukocytes in vitro. IF microscopy of rabbit SA9254 serum on frozen skin sections shows no specific staining before immunization (A); in contrast, after immunization with type VII collagen, IgG binds to the DEJ of mouse (B) and human (C) skin (magnification, ×250). (D) By immunoelectron microscopy, IgG purified from immune rabbit serum binds to the lamina densa of mouse skin. Scale bar: 0.5 μm. (E) Extract of murine dermis (lane 1) and equimolar amounts of GST-mCOL7C (lane 2) and GST (lane 3) were separated by gradient 4–20% SDS-PAGE and immunoblotted with immune and preimmune rabbit serum preadsorbed against GST. IgG from immune serum, but not preimmune serum, binds to both full-length cell-derived (arrow) and recombinant fragment C (arrowhead) of type VII collagen. (F) Frozen murine skin sections were incubated with immune rabbit serum and subsequently with fresh serum as a source of complement. Bound murine C3 was visualized at the DEJ by FITC-labeled antibody (magnification, ×250). When incubated with frozen sections of human skin in the presence of human leukocytes, IgG from the immune (G), but not preimmune (H) rabbit–induced dermal-epidermal separation was observed (magnification, ×400).