Linear Immunoglobulin IgA
Dermatosis and Chronic
Bullous
Disease of Childhood
Linear immunoglobulin A (IgA) dermatosis is a rare immune-mediated blistering skin disease that is defined by the presence of homogeneous linear deposits of IgA at the cutaneous basement membrane . Although in the original description of patients with linear IgA dermatosis it was considered to be a manifestation of dermatitis herpetiformis (DH), it has now been clearly separated from DH on the basis of its immunopathology, immunogenetics, and lack of consistent association with a gluten-sensitive enteropathy. Patients with linear IgA dermatosis can present with lesions suggestive of epidermolysis bullosa acquisita (EBA), DH, bullous pemphigoid (BP), lichen planus, or cicatricial pemphigoid. These different clinical presentations appear to result from the IgA binding to different epidermal antigens.
Chronic bullous disease of childhood (CBDC) is a rare blistering disease that occurs predominantly in children younger than 5 years of age and has an identical pattern of homogeneous linear IgA deposits at the epidermal basement membrane.6,7 Recent studies have demonstrated that in some patients CBDC and linear IgA dermatosis represent different presentations of the same disease process.
EPIDEMIOLOGY
Linear IgA dermatosis occurs most often after puberty, with most patients presenting after the fourth decade of life. A slight predominance of females has been noted in several studies. In contrast, CBDC presents most often before the age of 5 years.10 As in patients with linear IgA dermatosis, there is a slight female predominance in patients with CBDC.
Evaluation of the HLA association in patients with linear IgA dermatosis and CBDC has yielded conflicting results. Some investigators have found an increased frequency of the human histocompatibility antigen HLA-B8 in patients with linear IgA dermatosis, whereas others have found no increased frequency. In CBDC, an increased frequency of HLA-B8 has been noted, with up to 76 percent of patients expressing HLA-B8. Collier et al. demonstrated an increased frequency of HLA-B8, -DR3, and -DQ2 in CBDC that was not seen in adults with linear IgA dermatosis. These authors suggested that these haplotypes may have a role in earlier disease presentation. In addition, the TNF2 allele was found with increased frequency in both adults and children with linear IgA disease when compared with unaffected subjects. There was, however, no increase seen in either adults or children when compared with HLA-DR3+ controls.
ETIOLOGY AND PATHOGENESIS: IMMUNOPATHOLOGY
Linear IgA dermatosis and CBDC are defined by the presence of a homogeneous linear band of IgA at the dermal-epidermal basement membrane zone. A minority of patients in both groups have additional deposits of other immunoreactants, most often IgG and occasionally the third component of complement (C3). Because IgA is the predominant Ig of the secretory immune system, numerous investigators have attempted to determine if the IgA present in the skin of these patients is of mucosal origin. Characterization of the IgA subclass in the skin has revealed almost exclusively IgA1 and not the subclass most often associated with mucosa, IgA2. In addition, neither secretory piece nor J chain, both of which are present in secretory IgA, have been found in the IgA present in the skin of patients with linear IgA deposits.18 Although these data have led to suggestions that the IgA is not of mucosal origin, the true origin of the IgA deposits in the skin of these patients is not known.
Initially it was thought that patients with linear IgA dermatosis and CBDC rarely had circulating IgA antibodies against the epidermal basement membrane. Indirect immunofluorescence, using 1 M NaCl-split normal human skin as a substrate, demonstrates that the majority of patients with CBDC have low-titer circulating antibodies against the epidermal side of the split skin. Circulating low-titer IgA antibodies directed against the epidermal basement membrane also have been found in adults with linear IgA dermatosis. Others have reported binding of IgA antibodies from some patients to the dermal side of normal human split skin, suggesting that more than one antigen may be the target for the IgA anti-basement membrane antibodies. Immunoelectron microscopic studies have been performed to determine the exact location of the IgA in the skin of patients with both linear IgA dermatosis
and CBDC. Immunoelectron microscopy of the skin of patients with linear IgA deposits has revealed three distinct patterns of immunoreactants. In some patients with linear IgA dermatosis, the IgA deposits are found in the lamina lucida region of the basement membrane zone, similar to the location of immunoreactants present in the skin of patients with BP. A second pattern of IgA deposition has been detected in which the IgA deposits are present at and below the lamina densa in a pattern similar to that seen in EBA.20-22 Prost et al. have described a third pattern of immunoreactants in some patients with linear IgA dermatosis in which the IgA deposits are found both above and below the lamina densa.21 In a similar manner, immunoelectron microscopic studies of skin of patients with CBDC have shown the IgA immunoreactants to be in either the lamina lucida or a sublamina densa location.22,23 These findings further support the probability that multiple antigens may be involved as the targets in both adults and children with linear IgA deposits in the skin.
Although the relatively low titer of IgA antibodies against the basement membrane present in the sera of patients with both linear IgA dermatosis and CBDC has complicated the search for specific antigenic targets for the IgA, several investigators have made significant observations regarding the antigenic targets in these diseases. Zone et al.24 studied sera from patients who had circulating IgA antibodies that bound to the epidermal side of 1 M NaCl-split normal human skin, as shown by indirect immunofluorescence. They found that serum IgA from patients with either CBDC or linear IgA dermatosis bound to a 97-kd protein. Immunoelectron microscopy revealed that the 97-kd antigen is present in the lamina lucida, below the hemidesmosome of normal human skin, in a location similar to where the IgA is localized in patients with CBDC and linear IgA dermatosis.25 Subsequently, Zone et al. determined that the 97-kd linear IgA bullous disease antigen is identical to a portion of the extracellular domain of the 180-kd BP antigen (BPAG2 or collagen XVII), which is essential in anchoring basal keratinocytes to the epidermal basement membrane. The BP antigen (BPAG2) consists of a 180-kd transmembrane protein and 120-kd portion that corresponds to the collagenous ectodomain. Roh et al. and Schumann et al. have reported that autoantibodies in patients with linear IgA dermatosis recognize the soluble 120-kd ectodomain of type XVII collagen The 120-kd antigen target is not unique to linear IgA dermatosis because it is also the antigen targeted by autoantibodies in some patients with cicatricial pemphigoid and BP.27,28 Furthermore, IgA antibodies and T cells from patients with linear IgA bullous dermatosis have been found to be directed against the NC-16A region of collagen type XVII, which is the same region against which the IgG and T cells from patients with BP are directed.29,30 This may explain in part the overlap in clinical and histologic features of these conditions. Wojnarowska et al. have identified another possible target antigen in patients with linear IgA dermatosis and CBDC. Using sera from patients in whom the IgA bound to the epidermal side of 1 M NaCl-split skin on routine indirect immunofluorescence. They found that IgA in the sera of some patients with these diseases bound to a 285-kd protein (LAD 285) that was not the 230-kd BP antigen or type VII collagen, the EBA antigen.31 Allen and Wojnarowska have analyzed the sera of over 70 patients with both linear IgA dermatosis and CBDC and found that the predominant antigenic target in these patients is the BP180 antigen (collagen XVII), but that some patients react with multiple antigens including the BP230, LAD 285, and other yet to be identified proteins.32 In many patients, IgA appears to bind to several different antigenic targets, suggesting the possibility that there is epitope spreading. The clinical significance of these findings however, has not been established.
CLINICAL FINDINGS
Cutaneous Manifestations
The clinical manifestations of linear IgA dermatosis are heterogeneous and often indistinguishable from those seen in patients with DH. Patients may present with combinations of annular or grouped papules, vesicles, and bullae . Typically, these lesions are distributed symmetrically on extensor surfaces, including elbows, knees, and buttocks. Lesions most often are very pruritic, resulting in numerous crusted papules . The clinical presentation can be difficult to distinguish from that seen in patients with DH. However, the degree of pruritus seen in patients with linear IgA dermatosis is variable and, in general, less severe than that seen in patients with DH. Some patients with linear IgA dermatosis present with larger bullae, in a pattern more consistent with that seen in patients with BP, or occasionally with cutaneous findings similar to those seen in patients with EBA. Patients with drug-induced linear IgA bullous dermatosis have been reported with erythema multiforme-like findings and a toxic epidermal necrolysis-like presentation, with widespread bullae and mucosal involvement. Recovery has been reported with discontinuation of the offending agent alone, but these patients may benefit from dapsone therapy (see Treatment).
The clinical presentation of CBDC is characterized most often by the development of tense bullae, often on an inflammatory
base. These lesions occur most frequently in the perineum and perioral region and often may occur in clusters, giving a “cluster of jewels” appearance . New lesions sometimes appear around the periphery of previous lesions, with a resulting “collarette” of blisters. Patients often report significant pruritus and/or a burning of the skin with the development of skin lesions. Patients with CBDC often present with the acute development of large numbers of tense blisters, which may rupture and become secondarily infected.
Rarely, patients with linear IgA dermatosis may present with an acute febrile illness with arthritis, arthralgias, and generalized malaise. The presence of multiple papules and vesicles in a patient with systemic signs and symptoms has led to the evaluation of these patients for systemic infections, including viral infections. Routine direct immunofluorescence, however, has revealed linear deposits of IgA, and these patients have responded to conventional therapy.
Mucosal Involvement
Mucosal involvement is an important clinical manifestation seen in patients with linear IgA dermatosis and CBDC. This involvement can range from largely asymptomatic oral ulcerations and erosions to severe oral disease alone as well as to severe conjunctival and oral disease typical of that seen in cicatricial pemphigoid. Oral lesions may occur in up to 70 percent of patients with linear IgA disease.10 Although most patients with linear IgA dermatosis and mucosal involvement have significant cutaneous disease, cases have been reported in the literature in which the presenting and predominant clinical manifestations are lesions of the mucous membranes. These patients may present with desquamative gingivitis and oral lesions consistent with those seen in patients with cicatricial pemphigoid . Patients also may present with conjunctival disease and scar formation typical of that seen in patients with cicatricial pemphigoid . Patients with linear IgA bullous dermatosis have also been reported to present with severe laryngeal and pharyngeal involvement before the development of more typical cutaneous manifestitations.
Disease Associations
The similar clinical presentation of many patients with linear IgA disease to that seen in patients with DH led to the investigation of patients with linear IgA disease for an associated gluten-sensitive enteropathy. Although some investigators have found evidence of minimal inflammatory changes in the small bowel of patients with linear IgA disease, numerous investigators have been unable to show that the majority of patients with linear IgA disease have significant evidence of the villous atrophy characteristically seen in patients with DH. In addition, the clinical manifestations of linear IgA disease have not been controlled by the use of a gluten-free diet. Circulating autoantibodies against tissue transglutaminase, which occur in high frequency in patients with untreated gluten-sensitive enteropathy and DH, have not been found in most patients with linear IgA diseases.
Other conditions have been reported in association with linear IgA disease. One example is ulcerative colitis (UC), which can result in a clinical syndrome where the activity of both diseases is linked (i.e., as one disease flares, so does the other). Paige and co-workers reviewed 70 patients with linear IgA bullous dermatosis and found 7.1 percent had associated UC. The extent and reason for this association has yet to be established. Perhaps, the abnormal mucosal IgA1 production seen in patients with UC may play a role. Baldari et al. reported a case of CBDC occurring after acute mononucleosis.50 These authors suggest that this virus may have a role in initiation of the disease through immune stimulation. CBDC also has been reported in association with chronic granulomatous disease in the setting of Paecilomyces lung infection.51 The relationship between these conditions and CBDC has yet to be established.
The relatively acute onset of clinical, histologic, and immunopathologic findings
consistent with linear IgA disease has been seen in patients who have been taking a variety of drugs, including vancomycin, lithium phenytoin, sulfamethoxazole/trimethroprin, furosemide, atorvastatin, captopril, and diclofenac.36,38,52,53 Vancomycin is the most common drug that is associated with the development of linear IgA bullous dermatosis. The mechanism of this interaction is not known; however, a small number of patients with vancomycin-induced linear IgA disease have been reported to have circulating IgA antibodies directed against the BP180, BP230, and LAD 285 antigens. In one case of vancomycin-induced linear IgA bullous dermatosis, rechallenge with vancomycin in a gradual manner did not result in a recurrence of the eruption.
Linear IgA disease also has been associated rarely with a variety of malignancies. Patients with linear IgA disease have been reported with both lymphoid and nonlymphoid malignancies.57,58 Godfrey et al. reported three cases of lymphoid malignancies in 70 patients with linear IgA disease followed for a mean of 8.5 years. This represented an increase over the predicted number of 0.2 cases in an age- and sex-matched population.57 No increase in the rate of nonlymphoid malignancies was seen. These findings suggest a small risk of lymphoid malignancy in these patients. However, larger population-based studies need to be done to confirm these findings.
HISTOPATHOLOGY
Routine histopathology of an early lesion in patients with linear IgA dermatosis and CBDC reveals a sub-epidermal bulla with collections of neutrophils along the basement membrane, often accumulating at the papillary tips . A mild lymphocytic infiltrate may be present around the superficial dermal blood vessels without any evidence of neutrophilic vasculitis. Occasionally, the inflammatory infiltrate is composed of eosinophils, but most frequently neutrophils are the major component of the sub-epidermal inflammation. Electron microscopic examination of the blisters found in patients with both linear IgA dermatosis and CBDC has revealed that the blister forms either within the lamina lucida or in a sublamina densa location.20,23 Most often the histopathology seen in linear IgA disease is difficult to distinguish from that seen in patients with DH. Smith et al.60 reported that patients with linear IgA disease tended to have fewer papillary microabscesses and a more diffuse infiltrate of neutrophils at the basement membrane zone. However, Blenkinsopp et al. found no significant difference between the histopathology found in patients with linear IgA disease and those with DH. In general, the histopathology of blisters in linear IgA disease, CBDC, and DH is virtually indistinguishable.
DIFFERENTIAL DIAGNOSIS
Linear IgA dermatosis often closely mimics the clinical pattern seen in patients with DH. Some patients may have findings that resemble those seen in patients with BP, cicatricial pemphigoid, EBA, and, rarely, toxic epidermal necrolysis. In a similar manner, patients with CBDC must be differentiated from those with DH of childhood and childhood BP. The findings of linear IgA deposits at the basement membrane by direct immunofluorescence, most often in the absence of IgG and the third component of complement, can distinguish this disease from BP, cicatricial pemphigoid, and EBA, whereas granular IgA deposits are found at the basement membrane in patients with DH .
TREATMENT AND PROGNOSIS
Adults with linear IgA dermatosis have an unpredictable course. Many patients have disease that continues for years, with few, if any, episodes of remission. Occasionally, patients may have a spontaneous remission with loss of clinical features of the disease and disappearance of the linear IgA deposits in the skin. Patients with severe mucosal disease, especially of the eyes, may have persistent problems with symblepharon formation and resulting structural problems with the eyelids and cornea, even after active blistering has remitted.
Box 56-1 Linear Immunoglobulin A Bullous Dermatosis Differential Diagnosis
- · Dermatitis herpetiformis
- · Bullous pemphigoid
- · Epidermolysis bullosa acquisita
- · Bullous eruption of systemic lupus erythematosus
- · Cicatricial pemphigoid
- · Lichen planus
- · Toxic epidermal necrolysis
Patients with linear IgA disease most often respond dramatically to dapsone or sulfapyridine. This response usually occurs within 24 to 48 hours, in a manner similar to that seen with DH; as such, it is not a helpful diagnostic sign for linear IgA disease. Although most patients are well controlled with dapsone or sulfapyridine alone, some patients require low-dose prednisone therapy to suppress blister formation. The majority of patients with linear IgA disease cannot control their skin disease with a gluten-free diet.
CBDC is most often a self-limited disease, with most children going into remission within 2 years of the onset of the disease. Occasionally, the disease persists well into puberty but often is less severe than the initial eruption. Patients with CBDC respond in a similar dramatic fashion to dapsone or sulfapyridine. Many children, however, require the addition of relatively small doses of prednisone to bring the disease under control.6,7 Mycophenolate mofetil has been used as a steroid-sparing agent in isolated cases. Intravenous immunoglobulins have also been proposed in the rare patient not responding to, or intolerant of, dapsone therapy. Several case reports suggest that some patients with CBDC may respond to antibiotics, including sulfonamides, dicloxacillin, and erythromycin. In a recent case series, seven children with linear IgA disease treated with flucloxacillin demonstrated improvement,
with four achieving remission within 3 months. However, spontaneous remission in these patients cannot be ruled out.