Epitope-Specific Regulatory CD4 T Cells Reduce Virus-Induced Illness while Preserving CD8 T-Cell Effector Function at the Site of Infection

The role of epitope-specific regulatory CD4 T cells in modulating CD8 T-cell-mediated immunopathology during acute viral infection has not been well defined. In the murine model of respiratory syncytial virus (RSV) infection, CD8 T cells play an important role in both viral clearance and immunopathology. We have previously characterized two RSV epitope-specific CD4 T-cell responses with distinct phenotypic properties. One of them, the IA b M209-specific subset, constitutively expresses FoxP3 and modulates CD8 T-cell function in vitro .W e show here that the IA b M209-specific CD4 T-cell response regulates CD8 T-cell function in vivo and is associated with diminished RSV-induced illness without affecting viral clearance at the site of infection. Achieving the optimal balance of regulatory and effector T-cell function is an important consideration for designing future vaccines. A subset of CD4 T cells with regulatory function (Treg) has been shown to play an important role in modulating adaptive immune responses. Natural Tregs are characterized by the expression of FoxP3 and participate in reducing the activation of CD8 T-cell responses in peripheral lymphoid organs (11, 20, 35). This modulation can diminish the ability of adaptive immune responses to control systemic infections (4). However, the presence of natural regulatory CD4 T cells can have a beneficial effect on immune-mediated pathology, particularly at the site of infection. Tregs have been shown to limit pulmonary inflammation and lung injury induced by pneumocystis infection (29) and to modulate herpes simplex virus-induced inflammatory lesions of the eye (46). Natural Tregs also reduce the symptoms of West Nile virus infections in both humans and mice; Treg-deficient mice were more likely to develop lethal infection (25). Viral infection can also induce antigen-specific CD4 T cells that express FoxP3 (27), and their role in protective immunity and immunopathology needs more detailed investigation. T lymphocytes are key components of adaptive immunity against respiratory syncytial virus (RSV) infection. Children with T-cell deficiencies have delayed virus clearance and are more susceptible to fatal RSV infection (10, 18). The absence of T cells infiltrating into lung is associated with fatal RSV infections in children without recognized underlying disease (49). In the murine model, CD8 T cells play a major role in RSV clearance, presumably through direct cytotoxicity to in