Abstract
Human respiratory syncytial virus (RSV) is a leading cause of lower respiratory tract infection in infants and young children worldwide. The attachment (G) protein of RSV is synthesized by infected cells in both a membrane bound (mG) and secreted form (sG) and uses a CX3C motif for binding to its cellular receptor. Cell culture and mouse studies suggest that the G protein mimics the cytokine CX3CL1 by binding to CX3CR1 on immune cells, which is thought to cause increased pulmonary inflammation in vivo. However, because these studies have used RSV lacking its G protein gene or blockade of the G protein with a G protein specific monoclonal antibody, the observed reduction in inflammation may be due to reduced virus replication and spread, and not to a direct role for G protein as a viral chemokine. In order to more directly determine the influence of the soluble and the membrane-bound forms of G protein on the immune system independent of its attachment function for the virion, we expressed the G protein in cotton rat lungs using adeno-associated virus (AAV), a vector system which does not itself induce inflammation. We found no increase in pulmonary inflammation as determined by histology and bronchoalveolar lavage after inoculation of AAVs expressing the membrane bound G protein, the secreted G protein or the complete G protein gene which expresses both forms. The long-term low-level expression of AAV-G did, however, result in the induction of non-neutralizing antibodies, CD8 T cells and partial protection from challenge with RSV. Complete protection was accomplished through co-immunization with AAV-G and an AAV expressing cotton rat interferon α.
Highlights
Human respiratory syncytial virus (RSV) is the leading cause of lower respiratory disease in infants and children worldwide
Forty-eight hours post-inoculation with phosphate-buffered saline (PBS), cotton rats had a mean white blood cell count (WBC) of 349 +/79 per μL, cotton rats inoculated with 5 μg of CX3CL1 had 478 +/- 62 WBC/μL, those inoculated with G protein had a mean WBC of 404 +/- 96 per μL, and those inoculated with 105 TCID50 RSV had 421 +/- 133 WBC/μL
Our studies demonstrated that the G protein itself does not induce an inflammatory response in the cotton rat lung
Summary
Human respiratory syncytial virus (RSV) is the leading cause of lower respiratory disease in infants and children worldwide. In order to separate the receptor binding function of the G protein from any chemokine function, we used soluble G protein and expressed the G protein in an adeno-associated virus vector either as the membrane bound and/or secreted form and investigated its inflammatory potential in a cotton rat model. Immune and inflammatory response of RSV G protein in cotton rats able to determine the effects of the G protein in its various forms on the immune response and its ability to protect against RSV challenge
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