Abstract: The present invention relates to methods for purification of Vaccinia viruses (VV) and/or Vaccinia virus (VV) particles, which can lead to highly pure and stable virus preparations of predominantly biologically active viruses. The invention encompasses purifying a virus preparation in a sterilized way with high efficiency and desirable yield in terms of purity, biological activity and stability, aspects advantageous for industrial production.

Abstract: Methods of delivering a cargo moiety to a cell is provided according to embodiments of the present invention which includes contacting a cell expressing sialoadhesin with a conjugate including a sialoadhesin binding moiety and a cargo moiety. The sialoadhesin binding moiety binds to the sialoadhesin expressed by the cell and is internalized along with the cargo, delivering the cargo moiety to the cell. Particular methods provided by the present invention include induction or enhancement of sialoadhesin expression in a cell which naturally produces little or no sialoadhesin. Induction or enhancement of sialoadhesin expression includes transfection of a sialoadhesin expression construct and/or administration of an agent effective to induce or enhance sialoadhesin expression. Methods and compositions for stimulating an immune response in a subject are detailed. Particular methods and compositions for stimulating an immune response to a virus are provided by the present invention.

Abstract: Antitoxin and vaccine compositions based on nodavirus VLPs are provided. Anthrax antitoxin and vaccine compositions are provided. Methods of treating toxins with VLP-based antitoxins are provided. Methods of raising an immune response with immunogen decorated VLPs are provided.

Abstract: The disclosure provides fusion proteins comprising a carbohydrate recognition domain of an innate immunity receptor and a heterologous polypeptide. The fusion proteins of the disclosure may be used, for example, to fingerprint polysaccharide compositions and to purify polysaccharide compositions. Polysaccharide compositions include those isolated from Ganoderma lucidum (Reishi). The methods and reagents of the disclosure may also be used to identify innate immunity receptors and cell types that bind to polysaccharide compositions (including polysaccharide compositions associated with pathogens), whereupon modulators of the identified receptors can then be obtained. The fusion proteins also may be used to inhibit the interaction between a polysaccharide composition and an innate immunity receptor on a cell surface.

Abstract: A liquid or liquid-frozen composition comprising: a modified vaccinia Ankara (MVA) virus or variant or derivative thereof and mannitol, wherein mannitol is the sole stabilization agent of the composition. The mannitol may provide a stabilizing effect at 0 to +10° C. or in a liquid-frozen composition, for example between ?10° C. and ?30° C. or between ?20° C. and ?23.5° C. The MVA may be used as a vaccine or for use in gene therapy, virotherapy, immunotherapy, or cancer therapy in a mammal, preferably a human.

Abstract: The subject invention pertains to influenza vaccines and particularly avian influenza vaccines (AIV). The invention includes methods for preparing transgenic plant cells to express know HA1 polypeptides having specified homologies that are used to prepare vaccine compositions and methods for inducing protective immunity in an individual, animal, mammal or human.

Abstract: This disclosure is directed, inter alia, to polynucleotides, polypeptides, vectors, cells and compositions comprising the same, and their use in affecting viral pathogenesis, in particular for influenza viral infection.

Abstract: The present invention relates to compositions comprising antibodies or fragments thereof that immunospecifically bind to one or more antigens of a flavivirus, particularly of West Nile Virus (WNV), and methods for preventing, treating or ameliorating symptoms associated with a flavivirus, particularly of West Nile Virus (WNV), infection utilizing said compositions. In particular, the present invention relates to methods for preventing, treating or ameliorating symptoms associated with WNV infection, said methods comprising administering to a human subject an effective amount of one or more antibodies or fragments thereof that immunospecifically bind to a WNV antigen. The present invention also relates to detectable or diagnostic compositions comprising antibodies or fragments thereof that immunospecifically bind to a WNV antigen and methods for detecting or diagnosing WNV infection utilizing said compositions.

Abstract: An isolated protein construct comprising a polyepitope derived from multiple human cytomegalovirus protein antigen epitopes conjugated to an extracellular domain of glycoprotein B, which isolated protein is capable of eliciting a cytotoxic T-lymphocyte immune response as well as a neutralizing antibody response to human cytomegalovirus. Also provided are pharmaceutical compositions comprising the isolated protein or an adenoviral expression construct for delivery and expression of a nucleic acid encoding the isolated protein for prophylactic and/or therapeutic treatment of human cytomegalovirus infection, particularly in humans.

Abstract: A vaccine composition for combating Pox viridae viral infections in living organisms such as mammals (including humans) comprises TAP-1 and/or TAP-2 to augment the antigen processing capability of infected cells and hence their immunogenicity. The composition may be used alone or, preferably, as an immunogenicity-enhancing adjuvant with a pox antigen-based vaccine, especially in the treatment or prophylaxis of viral infections such as smallpox.

Abstract: The present invention is based on the development of a dual promoter system (preferably a RNA pol I-pol II system) for the efficient intracellular synthesis of viral RNA. The resultant minimal plasmid-based system may be used to synthesize any RNA virus, preferably viruses with a negative single stranded RNA genome. The viral product of the system is produced when the plasmids of the system are introduced into a suitable host cell. One application of the system is production of attenuated, reassortant influenza viruses for use as antigens in vaccines. The reassortant viruses generated by cotransfection of plasmids may comprise genes encoding the surface glycoproteins hemagglutinin and neuraminidase from an influenza virus currently infecting the population and the internal genes from an attenuated influenza virus. An advantageous property of the present invention is its versatility; the system may be quickly and easily adapted to synthesize an attenuated version of any RNA virus.

Abstract: The present invention relates, in general, to vaccines and, in particular, to a modified vaccinia Ankara (MVA) virus, to a composition comprising such a virus and to methods of using same to induce an immune response.

Abstract: Means and methods for producing mammalian viruses, the method comprising infecting a culture of immortalized human cells with a virus, incubating the culture infected with virus to propagate the virus under conditions that permit growth of the virus, and to form a virus-containing medium, and removing the virus-containing medium. The viruses can be harvested and be used for the production of vaccines. Advantages include that human cells of the present invention can be cultured under defined serum-free conditions and the cells show improved capability for propagating virus. Methods are provided for producing, in cultured human cells, influenza virus and vaccines derived thereof. This method eliminates the necessity of using whole chicken embryos for the production of Influenza vaccines. The method also provides for the continuous or batch-wise removal of culture media. As such, the present invention allows the large-scale continuous production of viruses to a high titer.

Abstract: The present invention provides pharmaceutical antibody formulations, in particular liquid pharmaceutical formulations comprising anti-rabies virus antibodies. The formulations can be used in the post exposure prophylaxis of rabies.

Abstract: Antigen and adjuvant components of an adjuvanted influenza vaccine are not mixed during manufacture, but are provided as separate components for extemporaneous mixing at the time of use, for example as a kit comprising (i) an antigen component, comprising an influenza virus antigen; and (ii) an adjuvant component, comprising an aluminium salt.

Abstract: The present invention is in the fields of medicine, public health, immunology, molecular biology and virology. The present invention provides, inter alia, a composition comprising a virus-like particle (VLP) and at least one antigen, wherein said antigen is a GIP protein or a GIP fragment linked to the VLP respectively. The invention also provides a method for producing the aforesaid composition. The compositions of this invention are useful in the production of vaccines, in particular, for the prevention and/or treatment of obesity and hereby, in particular, by inducing efficient immune responses, in particular antibody responses. Furthermore, the compositions of the invention are particularly useful to efficiently induce self-specific immune responses within the indicated context. Accordingly, the invention further provides for methods of treating and/or preventing obesity and other conditions.

Abstract: A series of potent and highly specific insecticidal toxins characterized by an amino acid sequences SEQ ID NO: 2-35.

Abstract: The present invention is related to the obtaining of chimeric chains coding for proteins capable of inducing, in the recipient, a serotype-specific and protective humoral immune response against the infection by the Dengue virus, thus eliminating the effects of the serotype-nonespecific viral immunoenhancement that causes hemorrhagies and clinical complications described for this kind of pathology. These chimeric chains of nucleic acids are composed by the specific combination of fragments belonging to the gene of a mutated protein from Neisseria meningitidis with dehydrogenase activity and fragments that codify for a region of the envelope (E) protein from the Dengue virus which, when inserted to an expression vector, give rise to chimeric proteins with particular properties. The resultant chimeric molecules from this invention are applicable to the pharmaceutical industry for the obtaining of vaccine preparations and diagnostic means of high serotype-specificity to be used in humans.

Abstract: A process is described for the preparation of storage-stable, multiple emulsions of the water/oil/water (W/O/W) type which comprise one or more active ingredients. The process comprises the steps a) stirring the active ingredient into an aqueous phase, b) emulsifying the aqueous phase by passing the aqueous phase through a large-pored, porous membrane into an oil phase, c) phase inversion of the emulsion from b), by cooling the mixture at a cooling rate of at least 0.3 K/min, where an emulsifier is added either to the aqueous phase in a) or to the oil phase in b) or to both phases.

Abstract: There is provided an HSV Complex which comprises an avirulent HSV and a targeting agent which allows the HSV particle to infect and lyse a specific targeted cell. The inventors have found a way in which avirulent HSV can be targeted to disease cells, e.g. cancer cells, by incorporating an antibody binding domain into one or more viral glycoproteins.