Development of antigen-specific ELISA for circulating autoantibodies to extracellular matrix protein 1 in lichen sclerosus

Lichen sclerosus is a common, acquired chronic inflammatory skin disease of unknown etiology, although circulating autoantibodies to the glycoprotein extracellular matrix protein 1 (ECM1) have been detected in most patients’ sera. We have examined the nature of ECM1 epitopes in lichen sclerosus sera, developed an ELISA system for serologic diagnosis, and assessed clinicopathological correlation between ELISA titer and disease. Epitope-mapping studies revealed that lichen sclerosus sera most frequently recognized the distal second tandem repeat domain and carboxyl-terminus of ECM1. We analyzed serum autoantibody reactivity against this immunodominant epitope in 413 individuals (95 subjects with lichen sclerosus, 161 normal control subjects, and 157 subjects with other autoimmune basement membrane or sclerosing diseases). The ELISA assay was highly sensitive; 76 of 95 lichen sclerosus patients (80.0%) exhibited IgG reactivity. It was also highly specific (93.7%) in discriminating between lichen sclerosus and other disease/control sera. Higher anti-ECM1 titers also correlated with more longstanding and refractory disease and cases complicated by squamous cell carcinoma. Furthermore, passive transfer of affinity-purified patient IgG reproduced some histologic and immunopathologic features of lichen sclerosus skin. This new ELISA is valuable for the accurate detection and quantification of anti-ECM1 autoantibodies. Moreover, the values may have clinical significance in patients with lichen sclerosus

Autoantibodies to extracellular matrix protein 1 in lichen sclerosus

BACKGROUND: Lichen sclerosus is a common acquired inflammatory disorder of skin and mucous membranes. The aetiology is unknown, although HLA-subtype susceptibility and high rates of other autoimmune disorders suggest that autoantibodies to specific mucocutaneous antigens are involved. The clinicopathological similarities between lichen sclerosus and lipoid proteinosis, which results from mutations in extracellular matrix protein 1 (ECM1), suggest this protein as an autoantigen. METHODS: We analysed serum autoantibody profiles in 171 individuals (86 with lichen sclerosus, 85 healthy controls) by immunoblotting of extracts from normal human skin and lipoid proteinosis skin (lacking ECM1). We generated a full-length glutathione-S-transferase fusion protein for ECM1 to confirm specific immunoreactivity. We affinity-purified serum from patients with lichen sclerosus and did indirect immunofluorescence microscopy on normal skin with or without preabsorption with recombinant ECM1. FINDINGS: By immunoblotting, IgG autoantibodies were found in 20 (67% [95% CI 45-84]) of 30 lichen sclerosus serum samples. The highest titre was 1 in 20. The bands were not detected in ECM1-deficient substrate. These samples, and those from 56 other patients with lichen sclerosus, showed immunoreactivity to the recombinant ECM1 protein (64 of 86 positive; 74% [65-84]). Only six (7% [2-13]) of 85 control serum samples were positive. Affinity-purified IgG from serum of patients with lichen sclerosus labelled skin similarly to a polyclonal antibody to ECM1. The positive staining was blocked by preabsorption with excess recombinant ECM1 protein. INTERPRETATION: These findings provide evidence for a specific humoral immune response to ECM1 in lichen sclerosus and offer insight into disease diagnosis, monitoring, and approaches to treatment