The present disclosure generally relates to, inter alia, to nucleic acid constructs encoding a modified enterovirus genome that is devoid of partial or complete nucleic acid sequences encoding viral structural proteins. The disclosure also provides compositions and methods useful for producing defective interfering particles (DIPs) of enteroviruses, and for the prevention and/or treatment of various health conditions such as immune diseases and viral infections.

A fusion protein is provided which is based on a self-assembling gene-regulatory NSP10 protein and a protein or peptide capable of being fused to NSP10 without interfering with the assembly or aggregation of the resulting fusion protein. The disclosure also relates to any nanoparticle formed thereby whether complete or not, and methods for the use of the NSP10 fusion protein are also disclosed, including use as vaccines for any indication in humans or animals, therapeutic methods involving the use of the fusion proteins such as using the protein to targeted an antibody or receptor, such as for treating or diagnosing cancer, biosensors using the fusion protein, or the use of the fusion proteins in cell sorting or any imaging application.

A plant produced vaccine for Porcine Epidemic Diarrhea Virus (PEDV) is provided where the Spike protein of the virus is expressed in a plant by introducing into a plant a construct comprising a promoter preferentially directing expression to seed of said plant, a nucleoic acid encoding the Spike protein and a nucleic acid targeting expression to the endoplasmic reticulum of the plant. The plant expresses the S1 polypeptide at levels of at least 10 mg/kg of seed of said plant. When orally administered to an animal, a protective response is observed including a serum antibody response.

The present invention relates to the production of the receptor binding domain (RBD) of the Spike glycoprotein 1 of the SARS-CoV-2 in mammalian cell expression systems, and the successive method of purification thereof. A recombinant plasmid containing the coding sequence of said RBD is produced and transfected in said mammalian cells, for example, Expi293. A high level of the protein is secreted in the medium and subsequently purified using the N-terminal tag, that can be removed by a specific protease. The present invention also includes a recombinant expression vector carrying the RBD gene, the successive methods for protein purification, the strategy for establishing a stable cell line producing the RBD, methods of use of the recombinant protein in formulating a pharmaceutical composition, including but not limited to, vaccines for preventing SARS-CoV-2 induced diseases.

Provided is a novel coronavirus vaccine using replication-deficient human type 5 adenovirus as a vector. The vaccine takes the replication-deficient human type 5 adenovirus that is lack of E1 and E3 in a combined mode as a vector, and HEK293 cells that integrate adenovirus E1 genes serve as a packaging cell line, and protective antigenic genes carried are optimized COVID-19 (SARS-CoV-2) S protein genes (Ad5-nCoV). The vaccine has good immunogenicity in both mouse and guinea pig models and can induce the body to produce a strong cellular and humoral immune responses in a short time. Research on the protective effect of hACE2 transgenic mice shows that 14 days after a single Ad5-nCoV immunization, the viral load in lung tissues can be significantly reduced. It shows that the vaccine has a good immune protection effect against COVID-19.

The invention relates to the field of immunity against Coronaviruses. In this respect, the invention provides vectorized antigens derived from Coronaviruses that trigger an immune response against Coronaviruses. The invention accordingly relates to an active ingredient which is a live attenuated recombinant measles virus expressing Coronavirus antigen(s) and to its use in eliciting immunity, in particular protective immunity against SARS-CoV-2 strain and advantageously broad-spectrum protective immunity against various strains of Coronaviruses.

Complexes of coronavirus spike proteins, as well as fragments or mutants thereof wherein the fragment or mutant thereof at least contains a receptor binding domain of said coronavirus spike protein, with linoleic acid, or a derivative or a salt or a mimetic thereof. Methods for producing the complexes of the invention by incubating coronavirus spike proteins with linoleic acid or a derivative or a salt or a mimetic thereof. . In vitro methods for identifying molecules which have therapeutic potential for diseases caused by coronaviruses by contacting the molecule with a coronavirus spike protein and linoleic acid or a derivative or salt or mimetic thereof. A method of treatment of coronavirus infection by administration of linoleic acid, or a derivative, a salt or a mimetic thereof to a subject in need thereof, by administration of an aerosol formulation or dry powder formulation to the respiratory tract, preferably by nasal administration.

A vaccine for preventing CoV infection includes at least one DNA, RNA or protein sequence for S protein with at least one modification which is a full deletion or partial deletion of the SI region or a partial or full replacement of the SI region. A method of vaccinating a mammal subject against infection from at least one group of CoV includes separating a broad group of CoV into homology groups, creating a modified S protein containing at least one modification at its S1 region, and identifying at least one consensus sequence for each homology group which has a sequence identity of greater than 60% to all other members of the homology group. The consensus sequence is a protein sequence for the modified S protein, a DNA sequence encoding the modified S protein, and an RNA sequence encoding the modified S protein.

An active or inactivated recombinant vaccine against COVID-19 is described that comprises a Newcastle disease viral vector and a pharmaceutically acceptable carrier, adjuvant and/or excipient, characterized in that the viral vector is a virus capable of generating a cellular immune response that has a SARS-CoV-2 exogenous nucleotide sequence inserted,

Compositions and methods for treating a viral infection may comprise use of an adenoviral vector. An adenoviral vector of the present disclosure may comprise a non-human adenoviral genome with one or more gene locus functionally removed and a transgene. A method of treating a viral infection may comprise administering a composition comprising an adenoviral vector of the present disclosure, to a subject and reducing the infectivity or transmission of the virus. Intranasal administration provides enhance protection of the upper respiratory tract of a subject relative to intramuscular administration.