Vaccination with formalin-inactivated respiratory syncytial virus (FI-RSV) vaccine or RSV G glycoprotein results in enhanced pulmonary disease after live RSV infection. Enhanced pulmonary disease is characterized by pulmonary eosinophilia and is associated with a substantial inflammatory response. We show that the absence of the G glycoprotein or G glycoprotein CX3C motif during FI-RSV vaccination or RSV challenge of FI-RSV-vaccinated mice, or treatment with anti-substance P or anti-CX3CR1 antibodies, reduces or eliminates enhanced pulmonary disease, modifies T-cell receptor V usage, and alters CC and CXC chemokine expression. These data suggest that the G glycoprotein, and in particular the G glycoprotein CX3C motif, is key in the enhanced inflammatory response to FI-RSV vaccination, possibly through the induction of substance P.Respiratory syncytial virus (RSV) is the most common cause of lower respiratory tract infections in infants and young children (1,50,54,59). RSV can also cause serious lower respiratory tract disease in patients of any age with compromised immune, respiratory, or cardiac systems (7,13,14,20,26,60,62). Despite the importance of RSV as a respiratory pathogen, there is presently no safe and effective RSV vaccine available. The first RSV vaccine trial with a formalin-inactivated RSV (FI-RSV) vaccine yielded disastrous results in young vaccinees who were subsequently naturally infected with RSV, as many developed enhanced pulmonary disease leading to hospitalization, and even to death in a few vaccine recipients (5,17,73). This outcome prompted investigators to search for viral and/or host factors that may contribute to enhanced disease in the effort to ensure that RSV vaccines would be safe.Studies with BALB/c mice have provided some indication of the mechanisms that may have contributed to FI-RSV-enhanced pulmonary disease. BALB/c mice vaccinated with vectors expressing G glycoprotein, purified G glycoprotein, or FI-RSV develop extensive enhanced pulmonary disease characterized by pulmonary eosinophilia, weight loss, exaggerated Th2-type cytokine responses, selective priming of V14 ϩ
CD4ϩ T cells, and augmented substance P (SP) expression when challenged with RSV (23,27,51,68,70,71). Interestingly, the soluble form of the G glycoprotein has been shown to be most effective at sensitizing for enhanced disease (34, 35). Studies from our laboratory comparing the immune responses to infection with wild-type RSV or an RSV mutant lacking the G and SH genes have shown that RSV G and/or SH glycoprotein expression alters pulmonary trafficking of innate immune cells (CD11b ϩ cells, polymorphonuclear cells [PMN], and NK cells), Th1-and Th2-type cytokine patterns, and CC and CXC chemokine mRNA expression by bronchoalveolar lavage (BAL) cells and is associated with increased pulmonary SP expression (64,67,68). In addition, recent studies from our laboratory have shown that the G glycoprotein contains a CX3C chemokine motif that interacts with the CX3C chemokine receptor CX3CR1, induces leukocyte chemo...
