Likewise, new clues to understanding disease pathology in lichen sclerosus have been gleaned from the discovery of pathogenic mutations in the skin protein, extracellular matrix protein 1, in the rare sclerosing inherited skin disorder, lipoid proteinosis.
The purpose of this study was to investigate the architecture of the cutaneous microvasculature in lipoid proteinosis and lichen sclerosus to better determine the role of ECM1 in the skin pathology observed in these disorders.
Epitope-mapping studies revealed that lichen sclerosus sera most frequently recognized the distal second tandem repeat domain and carboxyl-terminus of ECM1.
Moreover, other recent studies have identified circulating autoantibodies against the ECM1 protein in most patients with lichen sclerosus, a common chronic inflammatory condition that shares some clinicopathological features with lipoid proteinosis.