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BAFF-driven B cell hyperplasia underlies lung disease in common variable immunodeficiency
Paul J. Maglione, Gavin Gyimesi, Montserrat Cols, Lin Radigan, Huaibin M. Ko, Tamar Weinberger, Brian H. Lee, Emilie K. Grasset, Adeeb H. Rahman, Andrea Cerutti, Charlotte Cunningham-Rundles
Paul J. Maglione, Gavin Gyimesi, Montserrat Cols, Lin Radigan, Huaibin M. Ko, Tamar Weinberger, Brian H. Lee, Emilie K. Grasset, Adeeb H. Rahman, Andrea Cerutti, Charlotte Cunningham-Rundles
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Clinical Research and Public Health Immunology

BAFF-driven B cell hyperplasia underlies lung disease in common variable immunodeficiency

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Abstract

BACKGROUND. Common variable immunodeficiency (CVID) is the most common symptomatic primary immunodeficiency and is frequently complicated by interstitial lung disease (ILD) for which etiology is unknown and therapy inadequate. METHODS. Medical record review implicated B cell dysregulation in CVID ILD progression. This was further studied in blood and lung samples using culture, cytometry, ELISA, and histology. Eleven CVID ILD patients were treated with rituximab and followed for 18 months. RESULTS. Serum IgM increased in conjunction with ILD progression, a finding that reflected the extent of IgM production within B cell follicles in lung parenchyma. Targeting these pulmonary B cell follicles with rituximab ameliorated CVID ILD, but disease recurred in association with IgM elevation. Searching for a stimulus of this pulmonary B cell hyperplasia, we found B cell–activating factor (BAFF) increased in blood and lungs of progressive and post-rituximab CVID ILD patients and detected elevation of BAFF-producing monocytes in progressive ILD. This elevated BAFF interacts with naive B cells, as they are the predominant subset in progressive CVID ILD, expressing BAFF receptor (BAFF-R) within pulmonary B cell follicles and blood to promote Bcl-2 expression. Antiapoptotic Bcl-2 was linked with exclusion of apoptosis from B cell follicles in CVID ILD and increased survival of naive CVID B cells cultured with BAFF. CONCLUSION. CVID ILD is driven by pulmonary B cell hyperplasia that is reflected by serum IgM elevation, ameliorated by rituximab, and bolstered by elevated BAFF-mediated apoptosis resistance via BAFF-R. FUNDING. NIH, Primary Immune Deficiency Treatment Consortium, and Rare Disease Foundation.

Authors

Paul J. Maglione, Gavin Gyimesi, Montserrat Cols, Lin Radigan, Huaibin M. Ko, Tamar Weinberger, Brian H. Lee, Emilie K. Grasset, Adeeb H. Rahman, Andrea Cerutti, Charlotte Cunningham-Rundles

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Figure 5

CD14+ monocytes are a prominent source of BAFF in CVID ILD.

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CD14+ monocytes are a prominent source of BAFF in CVID ILD.
(A) Whole bl...
(A) Whole blood was analyzed by mass cytometry, showing the highest phosphorylated STAT1 (p-STAT1) in monocytes and dendritic cells of CVID with progressive (P) ILD. CVID patients with no ILD and stable (S) ILD were grouped together because the cost of mass cytometry limited the number of samples that could be done and there was no difference in serum BAFF or STAT1 expression between these groups. (B) Monocyte and dendritic cells express the highest levels of intracellular BAFF in CVID ILD as detected by mass cytometry of 6 subjects. Displayed as density-normalized events (left) and plot of median intensity (right). (C) CD14+CD16– monocytes are elevated in CVID P ILD patients compared with CVID patients with stable (S) or no ILD and healthy controls (HCs), making CD14+ monocytes the most prevalent BAFF-producing subset. (D) A greater proportion of CD14+ monocytes produce BAFF in CVID P ILD compared with other CVID patients and controls. (E) Immunofluorescence of CVID ILD biopsies identified CD14+ monocytes as sources of BAFF in the lungs (white arrows). IgD+ B cell follicle highlighted with dotted white circle. Immunofluorescence shown is representative of 3 non-serial sections of lung biopsies from 3 CVID ILD patients. Original magnification, ×200 and ×1,600 (insets). (F) There was no difference in the proportion of lineage–CD11c+ dendritic cells producing BAFF between groups. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001. Error bars represent standard deviation. Multiple group comparison by Kruskal-Wallis test.

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