An RSV reporter strain that can be used for high-throughput drug discovery is disclosed. Also disclosed is a recombinant RSV vector that contains an RSV genome encoding the disclosed RSV reporter strain operably linked to an expression control sequence. Also disclosed is an infectious RSV virion produce by expression of the disclosed recombinant RSV vector in a host cell. Also disclosed is a recombinant nucleic acid that comprises an RSV F protein having an escape mutation operably linked to a heterologous expression control sequence. Also disclosed are methods of screening for antiviral agents using the disclosed RSV reporter strains.

Provided herein are recombinant respiratory syncytial viruses that contain mutations that make the disclosed viruses attractive vaccine candidates. The viruses disclosed contain attenuating mutations designed to have increased genetic and phenotypic stability. Desired combinations of these mutations can be made to achieve desired levels of attenation. Exemplary vaccine candidates are described. Also provided are polynucleotides capable of encoding the described viruses, as wells as methods for producing the viruses and methods of use.

This disclosure relates to chimeric respiratory syncytial virus (RSV), live attenuated vaccine and immunogenic compositions, and methods of use. In certain embodiments, the chimeric respiratory syncytial virus has a mutated gene pattern encoding an RSV F protein having M at position 79, R at position 191, K at position 357, and/or Y at position 371.

Disclosed herein is an engineered cell line comprising a modification in an ISG15 gene, wherein the modification in the ISG15 gene results in an increase in total viral particle production and/or infectious viral particle production as compared to a control cell line that is identical to the engineered cell line except for the modification in the ISG15 gene. Also disclosed herein are methods of increasing viral particle production and methods of identifying a gene for deletion in a cell or cell line.

The present invention provides fully human antibodies that bind to respiratory syncytial virus F protein, compositions comprising the antibodies and methods of use. The antibodies of the invention are useful for preventing fusion of the virus with the cell membrane and preventing cell to cell spread of the virus, thereby providing a means of preventing the infection, or treating a patient suffering from the infection and ameliorating one or more symptoms or complications associated with the viral infection. The antibodies may also be useful for diagnosis of an infection by RSV.

The present invention provides a recombinant attenuated respiratory syncytial virus (RSV) comprising F protein of stabilized pre-fusion RSV, or comprising protein consisting of the amino acid sequence represented by SEQ ID NO: 2 or functional fragment thereof, and provides genome of the recombinant RSV and a recombinant vector comprising the genome. The recombinant attenuated RSV can be provided as a live vaccine strain which maintains infectability and has excellent safety and stability.

The disclosure relates to Respiratory Syncytial Virus (RSV) vaccine compositions having truncated mucin domains in the G-protein. In certain embodiments, this disclosure relates to virus particles, virus-like particles, virosomes, nucleic acids, vectors, or attenuated live RSV vaccines for uses reported herein. In certain embodiments, this disclosure relates to methods of vaccinating, treating, or preventing RSV infections by administering to a subject in need thereof an effective amount of a composition disclosed herein.