The present invention describes a liquid vaccine composition of a live enveloped virus and a pharmaceutically acceptable carrier, whereby the carrier is a natural deep-eutectic solvent (NADES), and the vaccine has a water activity of less than about 0.8. The NADES provides a stabilisation of the sensitive virus for prolonged time and at ambient temperature. In general, the liquid vaccine compositions according to the invention, in different compositions for the various enveloped viruses, show remarkable capabilities of stabilisation. This overcomes the need for lyophilisation, a great economic benefit. Also the liquid nature of the vaccines facilitates administration to human or animal targets.

Embodiments of a recombinant human Parainfluenza Virus (hPIV) F ectodomain trimer stabilized in a prefusion conformation are provided. Also disclosed are nucleic acids encoding the hPIV F ectodomain trimer and methods of producing the hPIV F ectodomain trimer. Methods for inducing an immune response in a subject are also disclosed. In some embodiments, the method can be a method for treating or inhibiting a hPIV infection in a subject by administering a effective amount of the recombinant hPIV F ectodomain trimer to the subject.

Nanostructures and nanostructure-based vaccines that display antigens capable of eliciting immune responses to infectious agents such as bacteria, viruses, and pathogens are provided. Some vaccines are useful for preventing or decreasing the severity of infection with an infectious agent, including, for example and without limitation, lyme disease, pertussis, herpes virus, orthomyxovirus, paramyxovirus, pneumovirus, filovirus, flavivirus, reovirus, retrovirus, meningococcus, or malaria. The antigens may be attached to the core of the nanostructure either non-covalently or covalently, including as a fusion protein or by other means. Multimeric antigens may optionally be displayed along a symmetry axis of the nanostructure. Also provided are proteins and nucleic acid molecules encoding such proteins, vaccine compositions, and methods of administration.

Described herein are RSV polynucleotide sequences that make use of multiple codons that are containing silent nucleotide substitutions engineered in multiple locations in the genome, wherein the substitutions introduce a numerous synonymous codons into the genome. Due to the large number of defects involved, the attenuated viruses disclosed herein provide a means of producing attenuated, live vaccines against RSV.

Reported herein are presumptively de-attenuating mutations that are useful, either individually or in combinations that may include other known mutations, in producing recombinant strains of human respiratory syncytial virus (RSV) exhibiting attenuation phenotypes. Also described herein is a novel RSV construct, Min_L-NPM2-1(N88K)L, which exhibits an attenuated phenotype, is stable and is as immunogenic as wild type RSV. The recombinant RSV strains described here are suitable for use as live-attenuated RSV vaccines. Exemplary vaccine candidates are described. Also provided are polynucleotide sequences capable of encoding the described viruses, as well as methods for producing and using the viruses.

Reported herein are presumptively de-attenuating mutations that are useful, either individually or in combinations that may include other known mutations, in producing recombinant strains of human respiratory syncytial virus (RSV) exhibiting attenuation phenotypes. Also described herein is a novel RSV construct, Min_L-NPM2-1(N88K)L, which exhibits an attenuated phenotype, is stable and is as immunogenic as wild type RSV. The recombinant RSV strains described here are suitable for use as live-attenuated RSV vaccines. Exemplary vaccine candidates are described. Also provided are polynucleotide sequences capable of encoding the described viruses, as well as methods for producing and using the viruses.

Polypeptides useful in the preparation of vaccine compositions against RSV are provided. Also disclosed are methods of enhancing subdominant antibody responses in a subject.

The invention relates to an immunogenic formulation containing the bacillus Calmette-Guerin (BCG) strain in a concentration between 10.sup.4-10.sup.9 bacteria, expressing at least one protein or immunogenic fragment of Andesvirus (ANDV), in a pharmaceutically acceptable saline buffer solution, which serves to prepare a vaccine useful for preventing, treating or attenuating ANDV infections. ANDV belongs to the Hantavirus family and is a highly virulent human pathogen, which annually affects dozens of people in Chile generating in some infected a Hantavirus Cardiopulmonary Syndrome (HCPS).

The present invention relates to the provision of immunogenic or vaccine compositions comprising at least one recombinant Zika virus antigen, wherein the at least one recombinant Zika virus antigen is encoded by at least one nucleic acid sequence encoding at least one E-protein of a Zika virus or a functional fragment thereof. Further provided are nucleic acid molecules and a recombinant chimeric virus encoding and/or comprising selected antigens from a Zika virus, which are suitable as vaccine compositions. Preferably, the sequences encoding at least one Zika virus antigens suitable for eliciting an immune response are operably linked to a non-flavivirus derived vector backbone. Further provided are methods for purifying the recombinant chimeric virus particles or the immunogenic composition. Finally, there is provided an immunogenic/vaccine composition for use in a method of preventing or treating a Zika virus disease.

A method of manufacturing a biological medicament comprising at least one biological molecule or vector is provided. One or more steps of the method are performed in an aseptic enclosure which has been surfaced sterilized using hydrogen peroxide, the steps including: formulating the biological molecule or vector with one or more excipients including an antioxidant, to produce a biological medicament comprising an antioxidant; filling containers with the biological medicament; and sealing or partially sealing the containers. Methods may be used to manufacture biological medicaments, immunogenic compositions and vaccines comprising antioxidants.