Respiratory challenge of mice with murine gammaherpesvirus 68 (γHV68) results in acute replication in respiratory epithelial cells and persistent, latent infection of B cells and macrophages. γHV68 elicits virus-specific Ab, and also nonspecifically activates B cells to Ab production through a CD4+ T cell-dependent process. The current analysis characterizes virus-specific and nonspecific Ab production at the single cell level and investigates the requirements and nature of the nonspecific response. Virus-specific Ab-forming cell (AFC) numbers were dwarfed by the increase in total AFC in all sites examined, indicating substantial nonspecific Ab production. Clear increases and decreases in specific and total AFC numbers occurred in the lymph nodes draining the respiratory tract and the spleen, but AFC numbers in the bone marrow (BM) increased to a plateau and remained constant. The longevity of the BM response was reflected in a sustained increase in virus-specific and total serum Ab levels. Generally, the IgG2a and IgG2b isotypes predominated. Analysis of cytokine-deficient mice, CD40 ligand-deficient mice, and radiation BM chimeras lacking MHC class II expression specifically on B cells indicated that nonspecific Ab production is independent of IL-6 or IFN-γ, and dependent on cognate CD4+ T cell help. Several observations were consistent with polyclonal B cell activation by γHV68, including the induction of durable serum levels of IgG reactive with mammalian dsDNA and murine type II collagen. Our findings indicate new directions for studies of this valuable model of γ-herpesvirus pathogenesis.
Two neutralizing antibodies specific for the V3 sequence of HIV envelope were used to generate escape variants from the HTLV(IIIB) founder virus. The full gp120 sequence of each variant was then analyzed to identify mutations responsible for immune escape. As predicted, most escape variants harbored amino acid changes in the V3 crown sequence. However, one variant differed from its founder only within the conserved C2 region. These findings, when analyzed in conjunction with crystallographic data, suggest a new three-dimensional model for HIV envelope folding, in which the V3 loop extends across the CD4-binding face of gp120 to associate with discontinuous C2 residues. This envelope configuration may provide an effective immune defense mechanism for HIV, as the highly variable residues of the V3 loop may shield conserved amino acids pertinent to viral infection.
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