Abstract
The gammaherpesviruses (γHVs), human Kaposi sarcoma-associated herpesvirus (KSHV), EBV, and murine γHV68 are prevalent infections associated with lymphocyte pathologies. After primary infection, EBV and γHV68 undergo latent expansion in germinal center (GC) B cells and persists in memory cells. The GC reaction evolves and selects antigen-specific B cells for memory development but whether γHV passively transients or manipulates this process in vivo is unknown. Using the γHV68 infection model, we analyzed the Ig repertoire of infected and uninfected GC cells from individual mice. We found that infected cells displayed the hallmarks of affinity maturation, hypermutation, and isotype switching but underwent clonal expansion. Strikingly, infected cells displayed distinct repertoire, not found in uninfected cells, with recurrent utilization of certain Ig heavy V segments including Ighv10-1 In a manner observed with KSHV, γHV68 infected cells also displayed lambda light chain bias. Thus, γHV68 subverts GC selection to expand in a specific B cell subset during the process that develops long-lived immunologic memory.
Highlights
The human gammaherpesviruses, Kaposi sarcoma-associated herpesvirus (KSHV/HHV8) and EBV (HHV4) and the murine γHV are lymphotropic viruses that establish lifelong, persistent infections in hosts
To understand how germinal center (GC) repertoire is affected by a γHV in the context of the initial colonization of the lymphoid tissue, we established a protocol to analyze individual MHV68+ cells from the GC population of infected mice
To determine if MHV68 impacts somatic hypermutation (SHM) in cells, we investigated the frequency and location of mutations in GC cells
Summary
The human gammaherpesviruses (γHVs), Kaposi sarcoma-associated herpesvirus (KSHV/HHV8) and EBV (HHV4) and the murine γHV (murine γHV68/MuHV4/MHV68) are lymphotropic viruses that establish lifelong, persistent infections in hosts. They are associated with a number of neoplastic and lymphoproliferative diseases (Cesarman, 2014), upon immunosuppression (Damania & Munz, 2019). Because γHV can infect various B cell types (Barton et al, 2011; Collins & Speck, 2012; Dong et al, 2017), direct infection of GCs is a potential route. Because B cells express unique immunoglobulin receptors, the antigen specificity and origin of the infected GCs could be consequential to both the host and virus
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