αv Integrins regulate germinal center B cell responses through noncanonical autophagy
Fiona Raso, … , Adam Lacy-Hulbert, Mridu Acharya
Fiona Raso, … , Adam Lacy-Hulbert, Mridu Acharya
Published July 12, 2018
Citation Information: J Clin Invest. 2018;128(9):4163-4178. https://doi.org/10.1172/JCI99597.
View: Text | PDF
Research Article Immunology

αv Integrins regulate germinal center B cell responses through noncanonical autophagy

Abstract

Germinal centers (GCs) are major sites of clonal B cell expansion and generation of long-lived, high-affinity antibody responses to pathogens. Signaling through TLRs on B cells promotes many aspects of GC B cell responses, including affinity maturation, class switching, and differentiation into long-lived memory and plasma cells. A major challenge for effective vaccination is identifying strategies to specifically promote GC B cell responses. Here, we have identified a mechanism of regulation of GC B cell TLR signaling, mediated by αv integrins and noncanonical autophagy. Using B cell–specific αv-KO mice, we show that loss of αv-mediated TLR regulation increased GC B cell expansion, somatic hypermutation, class switching, and generation of long-lived plasma cells after immunization with virus-like particles (VLPs) or antigens associated with TLR ligand adjuvants. Furthermore, targeting αv-mediated regulation increased the magnitude and breadth of antibody responses to influenza virus vaccination. These data therefore identify a mechanism of regulation of GC B cells that can be targeted to enhance antibody responses to vaccination.

Authors

Fiona Raso, Sara Sagadiev, Samuel Du, Emily Gage, Tanvi Arkatkar, Genita Metzler, Lynda M. Stuart, Mark T. Orr, David J. Rawlings, Shaun W. Jackson, Adam Lacy-Hulbert, Mridu Acharya

×

Figure 3

Loss of αv confers competitive advantage to GC cells.

Options: View larger image (or click on image) Download as PowerPoint
Loss of αv confers competitive advantage to GC cells. (A) Schematic for ...
(A) Schematic for the experimental plan. CD138-depleted BM cells from congenically marked CD45.1 mice (B6.SJL) were mixed at a 1:1 ratio with BM cells from CD45.2 αv-CD19 mice and injected into irradiated μ-MT mice to generate mixed BM chimeras. Control chimeras were generated with a 1:1 mix of B6.SJL BM and CD45.2 control CD19-Cre BM cells. Six weeks after reconstitution, mice were immunized with 2 μg VLP and harvested at day 14 for analysis of antigen-specific B cells by FACS. (B) Representative FACS panels for analysis of composition of CD45.1 and CD45.2 cells in CD19+, CD19+VLP+, or CD19+VLP+ GC B cell compartments. GC cells were identified as PNA+FAS+ cells. (C) Pie charts in top section of panel show relative proportions of CD45.2+ cells (solid regions of pie charts) in control chimeras (blue) and αv-CD19 chimeras (red) in indicated B cell compartments; each pie chart represents 1 mouse. Lower panel shows data from all mice in each group expressed as ratio of CD45.2/CD45.1 and geometric mean ± SD. Ratios of CD45.2/CD45.1 cells for VLP+ non-GC and GC B cells from WT/αv chimeras were compared by 2-tailed Student’s t test of log-transformed data. P value is shown. Data are from 1 representative experiment, with similar results seen in 3 independent experiments.