The present invention relates to a recombinant poxviral vector for use in vaccinating a subject against SARS-CoV-2. The present invention also provides vaccination regimens using the recombinant poxviral vector, which confers protective immunity against SARS-CoV-2.

The present invention relates to aqueous compositions conferring improved stability to poxvirus during storage as well as to the use of such compositions and methods for preparing the same. The compositions comprise recombinant human serum albumin (rHSA), gelatin or arginine, or combinations thereof.

Provided are HBV immunogenic polypeptides, polynucleotides encoding such polypeptides, vectors expressing such immunogenic polypeptides for use in eliciting an immune response against HBV; pharmaceutical and immunogenic compositions and kits comprising such polypeptides, polynucleotides or vectors, and methods of use in treating and/or preventing HBV.

The present invention relates to an adenoviral vector or adeno-associated virus vector comprising a nucleotide sequence encoding a single cancer specific CD8+ T cell epitope, wherein the vector is capable of inducing an inflating memory CD8+ T cell response wherein said vector does not comprise a nucleic acid encoding further cancer specific T cell epitopes. It also relates to methods and uses of the vector.

The present disclosure provides a recombinant oncolytic myxoma vims engineered to express a soluble form of an immune checkpoint protein in conjunction with a cytokine/chemokine and/or a tumor antigen. In certain aspects, the oncolytic myxoma virus is a replication competent virus such as myxoma vims. Methods of cancer treatment comprising administering the recombinant oncolytic myxoma virus expressing the soluble form of the immune checkpoint protein are also provided.

The present invention relates to nucleic acid constructs capable of encoding antigenic peptides or polypeptides derived from multiple Human Papilloma Virus (HPV) early proteins, and to immunogenic compositions comprising such nucleic acid constructs and a pharmaceutically acceptable carrier. Such nucleic acid constructs and immunogenic compositions are useful in the treatment of persistent HPV infection and low-grade HPV lesions, particularly infections and lesions of human anogenital epithelial tissue, such as cervical epithelia.

The invention concerns a multicistronic nucleic acid, in particular an isolated multicistronic nucleic acid, comprising: A) a sequence comprising successively: A1) a sequence encoding the light chain variable domain of an antibody of interest, fused in the frame with A2) a sequence encoding the constant region of the light chain of an immunoglobulin Ig; and B) a sequence comprising successively: B1) a sequence encoding the heavy chain variable domain of said antibody of interest, fused in the frame with B2) a sequence encoding the constant regions of the heavy chain of an immunoglobulin Ig′ in secretory form; B3) an intronic sequence of the gene of the heavy chain of said immunoglobulin Ig′, said intronic sequence comprising an internal 5′ splice site enabling the splicing of said intronic sequence B3) and a secretory-specific poly(A) (p AS) signal from the 3′ terminal exon of said gene; B4) a sequence, in frame with sequence B1), encoding the transmembrane and cytoplasmic domains M1 and M2 of the immunoglobulin Ig′ BCR, wherein said sequence B4) comprises, between the coding sequences of the M1 and M2 domains, an intronic sequence containing a splice site enabling the splicing of said intronic sequence between the M1 and M2 domains coding sequences; and B5) a membrane-anchored specific poly(A) signal (p AM), after the stop codon of the M2 domain, wherein the multicistronic nucleic acid enables the co-expression of the sequences A and B into separate proteins.

The invention relates to recombinant viral vectors for the insertion and expression of foreign genes for use in safe immunizations to protect against a variety of pathogens. The invention also relates to multivalent compositions or vaccine comprising one or more recombinant viral vectors for protection against a variety of pathogens. The present invention relates to methods of making an using said recombinant viral vectors.

Disclosed is an Ad35-vectored vaccine for preventing SARS-CoV-2 infection, comprising an Ad35 vector, wherein the Ad35 vector is loaded with a nucleic acid sequence shown in SEQ ID NO: 1. Some embodiments of the present disclosure have better safety and use convenience. Experiments have shown that the vaccine can produce more S proteins in human cells, which is expected to be developed as a vaccine for preventing SARS-CoV-2 infection. Some embodiments of the present disclosure may be used in combination with another vaccine or may also be used as a therapeutic vaccine for Corona Virus Disease 2019. When a patient is vaccinated with the Ad35-vectored vaccine of the present disclosure at the initial stage of infection, the vaccine quickly induces an immune response in the human body, thereby achieving a therapeutic effect.

Methods for generating immune responses using adenovirus vectors that allow multiple vaccinations with the same adenovirus vector and vaccinations in individuals with preexisting immunity to adenovirus are provided.