Magdalena A Berkowska1, Jorn J Heeringa2, Enes Hajdarbegovic3, Mirjam van der Burg1, H Bing Thio3, P Martin van Hagen4, Louis Boon5, Alberto Orfao6, Jacques J M van Dongen1, Menno C van Zelm7. 1. Department of Immunology, Erasmus MC, University Medical Center, Rotterdam, The Netherlands. 2. Department of Immunology, Erasmus MC, University Medical Center, Rotterdam, The Netherlands; Department of Pediatrics, Erasmus MC, University Medical Center, Rotterdam, The Netherlands. 3. Department of Dermatology, Erasmus MC, University Medical Center, Rotterdam, The Netherlands. 4. Department of Immunology, Erasmus MC, University Medical Center, Rotterdam, The Netherlands; Department of Internal Medicine, Erasmus MC, University Medical Center, Rotterdam, The Netherlands. 5. Bioceros B.V., Utrecht, The Netherlands. 6. Centro de Investigación del Cáncer (IBMCC-CSIC/USAL Nucleus; IBSAL) and Service of Cytometry, Department of Medicine, University of Salamanca, Salamanca, Spain. 7. Department of Immunology, Erasmus MC, University Medical Center, Rotterdam, The Netherlands. Electronic address: m.vanzelm@erasmusmc.nl.
Abstract
BACKGROUND: The prevalence of IgE-mediated diseases has been increasing worldwide, yet IgE-expressing B cells are poorly characterized, mainly because of their scarcity and low membrane IgE levels. OBJECTIVE: We sought to study the immunobiology of human IgE-expressing B cells in healthy subjects and patients with allergic disease. METHODS: We used a stepwise approach for flow cytometric detection and purification of human IgE-expressing B cells in control subjects, CD40 ligand-deficient patients, and patients with atopic dermatitis. Molecular analysis of replication histories, somatic hypermutation (SHM), and immunoglobulin class-switching was performed. RESULTS: Using multicolor flow cytometry, we reliably detected IgE-expressing plasma cells and 2 IgE-expressing memory B-cell subsets. These IgE-expressing cells showed molecular and phenotypic signs of antigen responses. The replication history and SHM levels of IgE(+) plasma cells and CD27(+)IgE(+) memory B cells fitted with a germinal center (GC)-dependent pathway, often through an IgG intermediate, as evidenced from Sγ remnants in Sμ-Sε switch regions. CD27(-)IgE(+) cells showed limited proliferation and SHM and were present in CD40 ligand-deficient patients, indicating a GC-independent origin. Patients with atopic dermatitis had normal numbers of blood IgE(+) plasma cells and CD27(+)IgE(+) memory B cells but increased numbers of CD27(-)IgE(+) memory B cells with high SHM loads compared with those seen in healthy control subjects and patients with psoriasis. CONCLUSIONS: We delineated GC-dependent and GC-independent IgE(+) B-cell responses in healthy subjects and indicated involvement of the GC-independent pathway in a human IgE-mediated disease. These findings provide new insights into the pathogenesis of IgE-mediated diseases and might contribute to accurate monitoring of IgE(+) B cells in patients with severe disease undergoing anti-IgE treatment.
BACKGROUND: The prevalence of IgE-mediated diseases has been increasing worldwide, yet IgE-expressing B cells are poorly characterized, mainly because of their scarcity and low membrane IgE levels. OBJECTIVE: We sought to study the immunobiology of human IgE-expressing B cells in healthy subjects and patients with allergic disease. METHODS: We used a stepwise approach for flow cytometric detection and purification of human IgE-expressing B cells in control subjects, CD40 ligand-deficient patients, and patients with atopic dermatitis. Molecular analysis of replication histories, somatic hypermutation (SHM), and immunoglobulin class-switching was performed. RESULTS: Using multicolor flow cytometry, we reliably detected IgE-expressing plasma cells and 2 IgE-expressing memory B-cell subsets. These IgE-expressing cells showed molecular and phenotypic signs of antigen responses. The replication history and SHM levels of IgE(+) plasma cells and CD27(+)IgE(+) memory B cells fitted with a germinal center (GC)-dependent pathway, often through an IgG intermediate, as evidenced from Sγ remnants in Sμ-Sε switch regions. CD27(-)IgE(+) cells showed limited proliferation and SHM and were present in CD40 ligand-deficient patients, indicating a GC-independent origin. Patients with atopic dermatitis had normal numbers of blood IgE(+) plasma cells and CD27(+)IgE(+) memory B cells but increased numbers of CD27(-)IgE(+) memory B cells with high SHM loads compared with those seen in healthy control subjects and patients with psoriasis. CONCLUSIONS: We delineated GC-dependent and GC-independent IgE(+) B-cell responses in healthy subjects and indicated involvement of the GC-independent pathway in a human IgE-mediated disease. These findings provide new insights into the pathogenesis of IgE-mediated diseases and might contribute to accurate monitoring of IgE(+) B cells in patients with severe disease undergoing anti-IgE treatment.
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