Ted B. Taylor

Elevation of IgA anti-epidermal transglutaminase antibodies in dermatitis herpetiformis

Background  Dermatitis herpetiformis (DH) is a papulovesicular eruption caused by ingestion of gluten. It is characterized by the deposition of IgA in the dermal papillae. IgA antibodies directed at tissue transglutaminase (TG2) are elevated in gluten‐sensitive diseases including DH and coeliac disease (CD). More recently, antibodies directed at epidermal transglutaminase (TG3) were identified in patients with DH, and this may be the dominant autoantigen in this disease.

Antigenic Specificity of Antibodies from Patients with Linear Basement Membrane Deposition of IgA

We reviewed the immunoreactivity of sera binding to the epidermal side of basement membrane split skin from 13 adults and 8 children with IgA alone, 9 adults with IgA and IgG and 7 adults with IgA and ocular pemphigoid. Immunoblots were done against previously described 45-, 97-, 180- and 230-kD antigens, and reactivity was confirmed by elution of antibody from nitrocellulose and binding to the basement membrane. Ten of 13 adults and 7 of 8 children reacted with the 97-kD antigen. Sera with both IgA and IgG reacted in varying patterns and on occasion with more than 1 antigen. All 7 patients with ocular cicatricial pemphigoid reacted uniquely with a 45-kD antigen.

Dermatitis Herpetiformis Sera or Goat Anti–Transglutaminase-3 Transferred to Human Skin-Grafted Mice Mimics Dermatitis Herpetiformis Immunopathology

Dermatitis herpetiformis (DH) is characterized by deposition of IgA in the papillary dermis. However, indirect immunofluorescence is routinely negative, raising the question of the mechanism of formation of these immune deposits. Sárdy et al. (2002. J. Exp. Med. 195: 747–757) reported that transglutaminase-3 (TG3) colocalizes with the IgA. We sought to create such deposits using passive transfer of Ab to SCID mice bearing human skin grafts. IgG fraction of goat anti-TG3 or control IgG were administered i.p. to 20 mice. Separately, sera from seven DH patients and seven controls were injected intradermally. Biopsies were removed and processed for routine histology as well as direct immunofluorescence. All mice that received goat anti-TG3 produced papillary dermal immune deposits, and these deposits reacted with both rabbit anti-TG3 and DH patient sera. Three DH sera high in IgA anti-TG3 also produced deposits of granular IgA and TG3. We hypothesize that the IgA class anti-TG3 Abs are directly responsible for the immune deposits and that the TG3 is from human epidermis, as this is its only source in our model. These deposits seem to form over weeks in a process similar to an Ouchterlony immunodiffusion precipitate. This process of deposition explains the negative indirect immunofluorescence results with DH serum.

Antigen identification in drug-induced bullous pemphigoid

Immunobullous diseases usually develop spontaneously, but drug-induced bullous disease develops in a small subgroup of patients. We examined a patient in whom bullous pemphigoid developed after she received enalapril for treatment of hypertension. IgG antibody directed against a 230 kd antigen was identified. The eluted IgG autoantibody was shown to bind to the basement membrane zone on split skin. This study demonstrates that drug-induced bullous pemphigoid autoantibody in this patient was directed against the same antigen as the spontaneous bullous pemphigoid antigen.

Linear IgA bullous dermatosis responsive to a gluten-free diet

Dermatitis herpetiformis is associated with a gluten-sensitive enteropathy in >85% of cases. Both the skin lesions and the enteropathy respond to gluten restriction. Linear IgA bullous dermatosis has a much lower prevalence of histological small bowel abnormalities, and lesions are not known to respond to gluten restriction. We report a patient with linear IgA bullous dermatosis and gluten-sensitive enteropathy. This report addresses the issue of whether linear IgA bullous dermatosis can be associated with gluten-sensitive enteropathy. We evaluated the response to gluten restriction and normal diet by following the status of the patients jejunal biopsies and skin lesions. The patient responded to gluten restriction, as shown by resolution of jejunal abnormalities and skin lesions and subsequently by recurrence of jejunal abnormalities and skin lesions with reinstitution of a gluten-containing diet. This report demonstrates that linear IgA bullous dermatosis can respond to gluten restriction if an underlying gluten-sensitive enteropathy is present.

IgA1 is the major IgA subclass in cutaneous blood vessels in Henoch–Schönlein purpura

Henoch–Schönlein purpura (HSP) is characterized by palpable purpura predominantly involving the lower extremities. On direct immunofluorescence IgA can be seen deposited in the blood vessel walls of the superficial dermis. The subclass distribution of antibodies to this IgA was studied in the biopsies of 28 patients with HSP by direct immunofluorescence using anti‐IgA1 and anti‐IgA2 specific monoclonal antibodies. All 28 patients’ biopsies demonstrated deposition of IgA1 while only one patient had IgA2 deposition. Positive and negative controls stained appropriately. This demonstrates that IgA1 is the dominant IgA subclass found in the skin in Henoch–Schönlein purpura.

The site of blister formation in dermatitis herpetiformis is within the lamina lucida

BACKGROUND Because the initial neutrophilic infiltrate in dermatitis herpetiformis is within the dermal papillae, most investigators have assumed the vesicles occur in this same area. This was supported by electron microscopy studies. In 1983 Klein et al. refuted this concept, suggesting that vesicle formation was within the lamina lucida above the lamina densa. Despite this study, current literature continues to state that blister formation is below the lamina densa. OBJECTIVE Our purpose was to determine the ultrastructural site of blister formation in early and late vesicles of dermatitis herpetiformis. METHODS We evaluated eight biopsy specimens from four patients by immunomapping with antibodies to bullous pemphigoid antigen, laminin, type IV collagen, and epidermolysis bullosa acquisita antigen. RESULTS In both early and late vesicles blister formation was found to be above the lamina densa in the lamina lucida. CONCLUSION These findings are contrary to the commonly held concept that the blister in dermatitis herpetiformis is below the lamina densa and confirm the findings of Klein et al. that the site of blister formation in dermatitis herpetiformis is above the lamina densa within the lamina lucida.

The Immunoglobulin A Antibody Response in Clinical Subsets of Mucous Membrane Pemphigoid

Background: Mucous membrane pemphigoid (MMP) is an immunobullous disease. In MMP there is frequently a mixed antibody response with the presence of IgA and/or IgG antibodies directed toward basement membrane zone antigens. The IgG antibody response in MMP has been studied, but the antigens to which the IgA antibodies react have not been studied. Objective: To determine the IgA autoantibody reactivity profiles in patients with MMP. Methods: Patients who had both ocular and oral MMP were compared with patients who had ocular or oral MMP and with patients who had cutaneous linear IgA disease (LABD) by Western immunoblot studies. Results: Five of 15 MMP patients and 1 of 5 LABD patients had IgA antibodies reactive with the 180-kD bullous pemphigoid antigen. Seven of 15 MMP patients had IgA antibodies reactive with the 97-kD LABD antigen. Conclusion: Major antigens in IgA MMP are the 180-kD bullous pemphigoid antigen and the 97-kD LABD antigen.

Characterization of the antibody response in oesophageal cicatricial pemphigoid

Cicatricial pemphigoid (CP) is a subepidermal, autoimmune bullous dermatosis. It is classified as a clinical subset of bullous pemphigoid (BP). However, it differs from BP in some significant ways: (i) in CP mucosal involvement with clinical scarring is prominent; (ii) there is a prominent IgA class antibody response alone or in addition to the IgG class antibody response; and (iii) there is a heterogeneous antibody response in CP, whereas in BP the majority of the antibodies are directed against a 180‐kDa hemidesmosomal protein, bullous pemphigoid antigen 2 (BPAg2). Oesophageal involvement in CP is a rare, but often devastating manifestation. In this study we examined the humoral autoimmune response in oesophageal CP, in an attempt to characterize the autoantibody reactivity profile. We used direct and indirect immunofluorescence and Western immunoblotting using normal human skin and oesophagus substrates. We studied patient sera over time in order to search for evidence of epitope spreading in these patients. All patients had positive direct immunofluorescence of perilesional oesophageal epithelium. All patients had positive circulating antibasement membrane zone autoantibody titres. There was a significant IgA class in addition to an IgG class autoantibody response. IgA and IgG antibodies demonstrated significant reactivity with BPAg2 and the 97 kDa linear IgA disease antigen on Western immunoblot suggesting intraprotein epitope spreading. There was no evidence of interprotein epitope spreading over time. Our findings suggest that there is a heterogeneous antibody response in oesophageal CP with the predominant antigen being BPAg2.

IgA Antibodies Recognizing LABD97 Are Predominantly IgA1 Subclass

Linear IgA bullous dermatosis is a rare acquired subepidermal blistering disease of the skin. A recognized antigen in linear IgA bullous dermatosis is a 97-kDa basement membrane zone protein termed LABD97. Previous studies, using immunofluorescent techniques, have suggested that the IgA response is restricted to the IgA1 subclass. We studied the IgA antibody subclasses in the sera of 6 patients that contained circulating IgA antibodies reactive with LABD97. The methods used included direct and indirect immunofluorescence and Western immunoblot. All patients tested had IgA1 anti-LABD97 antibodies detected by all 3 methods. Two patients had IgA2 antibodies detected by direct immunofluorescence. Three patients had IgA2 antibodies on indirect immunofluorescence. Two of these also had anti-LABD97 IgA2 antibodies and 1 had secretory component containing anti-LABD IgA antibodies on Western immunoblot. We conclude that the predominant IgA antibody subclass reactive with LABD97 in LABD is IgA1, although the IgA2 subclass may be involved in some cases.