J P H Depta scite author profile

Acute generalized exanthematous pustulosis (AGEP) is an uncommon eruption most often provoked by drugs, by acute infections with enteroviruses, or by mercury. It is characterized by acute, extensive formation of nonfollicular sterile pustules on erythematous background, fever, and peripheral blood leukocytosis. We present clinical and immunological data on four patients with this disease, which is caused by different drugs. An involvement of T cells could be implied by positive skin patch tests and lymphocyte transformation tests. Immunohistochemistry revealed a massive cell infiltrate consisting of neutrophils in pustules and T cells in the dermis and epidermis. Expression of the potent neutrophil-attracting chemokine IL-8 was elevated in keratinocytes and infiltrating mononuclear cells. Drug-specific T cells were generated from the blood and skin of three patients, and phenotypic characterization showed a heterogeneous distribution of CD4/CD8 phenotype and of T-cell receptor Vβ-expression. Analysis of cytokine/chemokine profiles revealed that IL-8 is produced significantly more by drug-specific T cells from patients with AGEP compared with drug-specific T cells from patients that had non-AGEP exanthemas. In conclusion, our data demonstrate the involvement of drug-specific T cells in the pathomechanism of this rather rare and peculiar form of drug allergy. In addition, they indicate that even in some neutrophil-rich inflammatory responses specific T cells are engaged and might orchestrate the immune reaction. T cells from the circulation (19,20) and an enhanced eotaxin production by endothelial cells and infiltrating T cells (19). Interestingly, previous studies in patients with AGEP have revealed a high rate of strongly positive patch tests to drugs compared with patients with other drug eruptions (21)(22)(23)(24). This suggests that T cells are involved in AGEP as well. They may contribute to the accumulation of polymorphonuclear neutrophils (PMN) at the site of the lesions by the preferential release of PMN-attractive chemokines, mainly CXC chemokines such as 26).To understand the function of T cells in AGEP patients we generated drug-specific TCLs and TCCs from the circulation and skin biopsy specimens and analyzed their phenotypes, specificities, and cytokine and chemokine profiles in vitro. Immunohistochemical analysis of the acute and patch-test lesions ex vivo was performed to determine the nature of the inflammatory cell infiltrate in vivo and to supplement the in vitro studies. The data point to an important role of drug-specific T cells in AGEP, which clearly exert distinct functions compared with other cutaneous drug eruptions. MethodsPatients. A summary of the patients' clinical characteristics is given in Table 1. Patient AP developed a generalized erythema after oral administration of Augmentin (amoxicillin and clavulanic acid; SmithKline Beecham Pharmaceuticals, Irvine, United Kingdom), which was given to treat an otitis media. She had fever (40°C) and developed pustules on the back, arms, and f...

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Hypersensitivity Reactions to Carbamazepine: Characterization of the Specificity, Phenotype, and Cytokine Profile of Drug-Specific T Cell Clones

Naisbitt

et al. 2003

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Administration of carbamazepine (CBZ) causes hypersensitivity reactions clinically characterized by skin involvement, eosinophilia, and systemic symptoms. These reactions have an immune etiology; however, the role of T cells is not well defined. The aim of this study was to characterize the specificity, phenotype, and cytokine profile of CBZ-specific T cells derived from hypersensitive individuals. Proliferation of blood lymphocytes was measured using the lymphocyte transformation test. CBZ-specific T cell clones were generated by serial dilution and characterized in terms of their cluster of differentiation and T cell receptor V␤ phenotype. Proliferation, cytotoxicity, and cytokine secretion were measured by [ 3 H]thymidine incorporation, 51 Cr release, and enzyme-linked immunosorbent assay, respectively. HLA blocking antibodies were used to study the involvement of antigen-presenting cells. The specificity of the drug T cell receptor interaction was studied using CBZ metabolites and other structurally related compounds. Lymphocytes from hypersensitive patients (stimulation index: 32.1 Ϯ 24.2 [10 g ml Ϫ1 ]) but not control patients (stimulation index: 1.2 Ϯ 0.4 [10 g ml Ϫ1 ]) proliferated upon stimulation with CBZ. Of 44 CBZ-specific T cell clones generated, 10 were selected for further analysis. All 10 clones were either CD4ϩ or CD4ϩ/ CD8ϩ, expressed the ␣␤ T cell receptor, secreted IFN-␥, and were cytotoxic. T-cell recognition of CBZ was dependent on the presence of HLA class II (DR/DQ)-matched antigen-presenting cells. The T cell receptor of certain clones could accommodate some CBZ metabolites, but no cross-reactivity was seen with other anticonvulsants or structural analogs. These studies characterize drug-specific T cells in CBZ-hypersensitive patients that are phenotypically different from T cells involved in other serious cutaneous adverse drug reactions.

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Characterization of drug-specific T cells in lamotrigine hypersensitivity

Naisbitt¹,

Farrell²,

Wong³

et al. 2003

Journal of Allergy and Clinical Immunology

195

138

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J P H Depta

T-cell involvement in drug-induced acute generalized exanthematous pustulosis

Hypersensitivity Reactions to Carbamazepine: Characterization of the Specificity, Phenotype, and Cytokine Profile of Drug-Specific T Cell Clones

Characterization of drug-specific T cells in lamotrigine hypersensitivity

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