Thomas N. Darling

Passive Transfer of Anti-Laminin 5 Antibodies Induces Subepidermal Blisters in Neonatal Mice

Patients with a recently identified subepithelial blistering disease have IgG anti-laminin 5 autoantibodies. To determine if such antibodies can be pathogenic in vivo, we developed and characterized rabbit anti-laminin 5 IgG, and passively transferred these antibodies to neonatal mice. Immune rabbit IgG specifically bound human and murine epidermal basement membranes, immunoblotted and immunoprecipitated all laminin 5 subunits from extracts of human and murine keratinocytes, and showed no reactivity to other keratinocyte proteins or epithelial basement membranes that do not contain laminin 5. Mice (n = 29) receiving purified anti-laminin 5 IgG developed, in a dose-related fashion, circulating anti-laminin 5 antibodies, deposits of rabbit IgG and murine C3 in epidermal basement membranes, and subepidermal blisters of skin and mucous membranes. No alterations developed in controls (n = 14) receiving identical amounts of normal rabbit IgG. Passive transfer of anti-laminin 5 (but not control) IgG to neonatal C5- (n = 3) or mast cell-deficient (n = 3) mice produced subepidermal blisters with the same clinical, histologic, and immunopathologic features as those documented in BALB/c mice. These studies establish an animal model of a human blistering disease that can be used to define disease mechanisms and treatment modalities.

Anti-epiligrin cicatricial pemphigoid and relative risk for cancer

It is not known whether patients with anti-epiligrin cicatricial pemphigoid (AECP) have an increased risk of malignancy. We calculated the expected numbers of cancers in a cohort of 35 such patients based on respective incidence rates for all cancers in the National Cancer Institutes Surveillance, Epidemiology, and End Results (NCI SEER) Registry. Ten patients in this cohort had solitary solid cancers; eight patients developed cancer after onset of AECP (seven within 14 months). The relative risk (RR) for cancer in this cohort was 6.8 (95% confidence intervals [CI]: 3.3-12.5). AECP seems to be associated with an increased relative risk for cancer.

Clinical differentiation between Proteus syndrome and hemihyperplasia: description of a distinct form of hemihyperplasia.

Proteus syndrome is a rare and highly variable hamartomatous syndrome that can affect multiple organ systems. It is characterized by hyperplastic lesions of connective tissue, vascular malformations, linear verrucous epidermal nevi, and hyperostoses. The cause of the disorder is unknown, but the current working hypothesis is that it is caused by a mosaic alteration that leads to a highly variable phenotype, equal sex ratio, sporadic occurrence, and discordant monozygotic twins. Herein we describe our experience with 18 patients with a referring diagnosis of Proteus syndrome. It was found that imaging studies are very useful for the characterization of the syndrome. One finding was that splenic hyperplasia can be a manifestation of Proteus syndrome. Analysis of the clinical data shows that Proteus syndrome is frequently confused with hemihyperplasia. A distinct subtype of hemihyperplasia is defined that includes static or mildly progressive hemihyperplasia and multiple lipomata.

Revertant mosaicism: partial correction of a germ-line mutation in COL17A1 by a frame-restoring mutation

Generalized atrophic benign epidermolysis bullosa is an autosomal recessive subepidermal blistering disease typified by null mutations in COL17A1. In 1 large kindred, affected individuals were homozygous for a 2-bp deletion in COL17A1, 4003delTC, which resulted in a downstream premature termination codon, nonsense-mediated mRNA decay, and abrogation of type XVII collagen synthesis. Interestingly, 1 of these patients, although phenotypically identical to her affected siblings, showed focal expression of type XVII collagen in epidermal basement membrane in a pattern suggestive of revertant mosaicism. When studies of randomly obtained epidermal, oromucosal, and peripheral blood cells failed to identify the genetic basis of this apparent mosaicism, microscopic subpopulations of potentially revertant epidermal cells (i.e., those overlying basement membrane containing type XVII collagen) were selectively isolated using laser capture microdissection. Analysis of DNA and RNA from these cells revealed a second mutation, 4080insGG, on 1 allele of COL17A1. This 2-bp insertion corrected the reading frame just proximal to the premature termination codon, countered nonsense-mediated mRNA decay, and allowed protein production by patient keratinocytes in vivo and in vitro. These studies elucidate the molecular basis of a novel form of revertant mosaicism in humans.

Sex-specific lung diseases: effect of oestrogen on cultured cells and in animal models

Sex prevalence in lung disease suggests that sex-specific hormones may contribute to the pathogenesis and/or progression of at least some lung diseases, such as lung adenocarcinoma, lymphangioleiomyomatosis (LAM) and benign metastasising leiomyoma (BML). Oestrogen is an important hormone in normal lung development and in the pathogenesis of female predominant pulmonary diseases. In vivo and in vitro studies have facilitated our understanding of disease pathogenesis and discovery of potential therapeutic targets. Oestrogen promoted disease progression in cell and animal models of lung adenocarcinoma, LAM and BML. Specifically, oestrogen enhanced tumour growth and metastasis in animal models of these diseases. Furthermore, 17&bgr;-estradiol (E2), the most abundant form of oestrogen in humans, increased the size and proliferation of cultured cells of lung adenocarcinoma and LAM. Coupled with the known mechanisms of oestrogen metabolism and signalling, these model systems may provide insights into the diverse effects of oestrogen and other hormones on lung diseases. Anti-oestrogen treatments that target key events of oestrogen synthesis or signalling, such as aromatase activity, oestrogen receptors and signalling pathways, may offer additional opportunities for clinical trials.