Neonatal infection of FVB mice with lactate dehydrogenase-elevating virus (LDV) prevented the normal formation of anti-LDV antibodies observed in mice infected at 5 days of age or older. Even 22 weeks post-infection, the concentration of circulating anti-LDV antibodies in neonatally infected mice was insignificant. However, the time course and level of persistent viraemia were the same in neonatally infected mice lacking anti-LDV antibodies as in mice infected at 5 or 15 days of age which developed normal antiviral immune responses. The results support the view that LDV replication in mice is unaffected by antiviral immune responses and instead is primarily dependent on the rate of regeneration of LDV-permissive macrophages. This view is further supported by the following findings. Treatment of mice with cyclophosphamide or dexamethasone, which are known to increase plasma LDV levels, increased the proportion of LDV-permissive macrophages in the peritoneum. Injection of mice with interleukin-3, which is known to stimulate macrophage development, increased plasma LDV levels in persistently infected mice 10-to 100-fold. During the first month of age when mice possess a higher proportion of LDV-permissive macrophages than older mice and peritoneal macrophages exhibit self-sustained growth, the persistent plasma LDV titres were also 10-to 100-fold higher than in older mice. The polyclonal activation of B cells induced by LDV that results in a permanent elevation of IgG2a or IgG2b in the circulation, and the formation of 180K to 300K immune complexes containing IgG2a or IgG2b were also the same in neonatally infected mice and mice infected 5 or 15 days after birth. Thus, the polyclonal activation of B cells occurs in the absence of an antiviral humoral immune response and the immune complexes do not contain anti-LDV antibodies. The immune complexes probably consist of autoantibodies formed in the course of the polyclonal activation of B cells and their cellular antigens.
Concentrations of IgM and IgG isotypes were determined by capture ELISA in plasma of Swiss, BALB/c and C58/M mice. Plasma IgG isotype concentrations, especially of IgM, IgG1 and IgG2a, varied considerably between mouse strains, batches of mice of the same strain and individual mice and as a function of age. Infection of the mice with LDV, which is known to replicate primarily in a subpopulation of macrophages, consistently resulted in a rapid elevation of plasma IgG2a (or of IgG2b in some Swiss nu/+ mice), but no plasma IgG increases were observed in mice immunized with inactivated LDV. Plasma IgG2a elevation after LDV infection was greatly delayed and reduced by depletion of the mice of CD4+, but not of CD8+, T cells by administration of protein-G-purified anti-CD4 or anti-CD8 mAbs, and completely inhibited by repeated treatment of the mice with cyclophosphamide. Treatment with anti-CD4 mAbs, or cyclophosphamide also greatly reduced the production of anti-LDV antibodies, while not significantly affecting the replication of LDV in these mice. Nude Swiss mice also failed to produce anti-LDV antibodies, though supporting normal LDV replication. Plasma IgM, IgG1, IgG2a and IgG2b levels increased in LDV-infected nu/nu mice, but similar changes were observed in uninfected mice. The results indicate that the LDV-induced polyclonal activation of B cells requires productive LDV infection of mice and is, at least partly, dependent on functioning CD4+ cells. They suggest that productive infection of the LDV-permissive subpopulation of macrophages leads to the activation of CD4+ T lymphocytes of subset 1 and their Spleen cells from 5-day LDV-infected BALB/c mice incorporated [3H]thymidine 2-3 times more rapidly in vitro than spleen cells from companion uninfected mice, whereas their responses to concanavalin A and lipopolysaccharide were reduced 60-70%.
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