A recombinant measles viral vector comprising a nucleic acid sequence encoding a Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) spike glycoprotein is provided. Polypeptides comprising the SARS-CoV-2 spike glycoprotein also are provided, as well as related nucleic acids, vectors, and compositions. The polypeptides, nucleic acids, vectors, and compositions can be used in methods of preventing, inhibiting, reducing, eliminating, protecting, or delaying the onset of an infection or an infectious clinical condition caused by coronavirus and methods for inducing an immune response against a coronavirus.

The present invention relates to the field of (vector) vaccines, and especially to an enhanced arrangement of nucleotide sequences for expressing a Paramyxoviridae virus containing an exogenous gene of interest. The present invention further concerns related expression cassettes and vectors, which are suitable to express genes of interest, especially antigen encoding sequences. The viral vectors of the present invention are useful for producing an immunogenic composition or vaccine.

The present invention generally relates to the field of immunomodulation and provides various costimulatory polypeptides comprising at least one 4-1BBL ectodomain comprising a (core) minimal TNF Homology Domain. Further provided are vectors and oncolytic viruses expressing the 4-1BBL ectodomain and methods for producing the same. Additionally provided are 5 methods and uses for obtaining and optionally purifying the inherently oligomerizing 4-1BBL ectodomain polypeptides and associated oncolytic viruses for highly targeted cancer treatment, including the treatment of tumors. Finally, there are provided kits and uses of the polypeptides and vectors as disclosed.

Disclosed herein is a live attenuated recombinant measles virus (rMeV)-based coronavirus vaccine containing a SARS-CoV-2 spike (S) protein that has at least one mutation to remove a glycosylation site. In some embodiments, the rMeVs-based coronavirus vaccine contains full-length stabilized pre-fusion and native S proteins, S proteins of SARS-CoV-2 variants, truncated S proteins lacking its transmembrane and cytoplasmic domains, S proteins lacking glycosylation sites, the monomeric and trimeric receptor-binding domain (RBD), the monomeric and trimeric S1 protein, Fc-fused RBD, or Fc-fused S1 protein. Also disclosed is a live attenuated recombinant coronavirus vaccine, wherein a stabilized prefusion spike (S) protein is inserted into a viral vector genome.

This invention comprises: compositions comprising a derivative, plasmids, a reagent kit and methods of making these compositions a derivative, vaccine- and non-vaccine-compositions of above for causing death of cancer cells that form part of a tumour and virus infected Dengue, Measles and other diseased cells; the derivative comprising replicating as well as non-replicating derivatives of an attenuated negative stranded RNA virus belonging to family paramyxoviridae, including Measles Virus, comprising a single additional transcriptional unit carrying either only one or two or more non-viral genes, and the non-replicating derivatives being free from contaminating replicating Measles Virus (b) a Measles Virus packaging cell line for making above compositions, expressing the M, F and H proteins of MV stably. And (c) a reagent kit for producing the Measles Virus derivatives described above.

The purpose of the present invention is to develop a virus vector, the activity of which is rendered controllable. A virus protein gene derived from an RNA virus is provided in which a gene encoding an optical switch protein is inserted into a foreign gene introducible region of the virus protein so as to enable expression of the gene. By means of this virus vector, it is possible to control, with irradiation of light, enzyme activity of the virus protein and virus vector activity based thereon.

A recombinant measles viral vector comprising a nucleic acid sequence encoding a Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) spike glycoprotein is provided. Polypeptides comprising the SARS-CoV-2 spike glycoprotein also are provided, as well as related nucleic acids, vectors, and compositions. The polypeptides, nucleic acids, vectors, and compositions can be used in methods of preventing, inhibiting, reducing, eliminating, protecting, or delaying the onset of an infection or an infectious clinical condition caused by coronavirus and methods for inducing an immune response against a coronavirus.

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.

The invention is in the field of prevention or treatment of diseases, in particular infectious diseases, and more particularly in the field of multivalent vaccines. The inventors characterized 5′ copy-back DI-RNAs produced by recombinant MV strains, including rMV-based vaccines and wild-type MV (wt-MV). The efficiency of these DI-RNAs productions in different cell types was compared. For the first time 5′ copy-back DI-RNAs specific binding to RIG-I, MDA5 and LGP2 was assessed and linked to functional outcome in type-I IFN signalling. The inventors provide a composition of products comprising at least (i) a mixture of particles of a rescued recombinant MV-derived virus encoding at least one antigen (ii) a recombinant and/or purified protein, comprising at least one antigen. Regardless of the presentation of the products, and in particular regardless of whether the products are separated or readily separable or presented as a mixture.

Provided is a method for producing and/or purifying measles virus (MV) particles from a sample, the method comprising in sequential order the following steps loading a sample containing MV particles and one or more impurities onto a stationary phase material for carrying out flow-through chromatography to bind at least a fraction of the impurities contained in the sample and to produce a flow-through comprising at least a fraction of the MV particles contained in the sample; carrying out filtration, preferably ultrafiltration, and obtaining a retentate having an increased MV titer relative to the MV titer comprised in the flow-through. Further provided is a system for producing and/or purifying MV particles, comprising at least one bioreactor; a clarification unit, preferably a dead end filter unit, downstream to the bioreactor; a flow through chromatography unit downstream to the clarification unit; and a filtration unit, downstream to the flow through chromatography unit.