Abstract: The present invention provides methods of making engineered viral proteins and protein complexes that are useful as vaccine immunogens, engineered viral proteins and protein complexes made using such methods, and pharmaceutical compositions comprising such engineered viral proteins and protein complexes. Such engineered viral proteins and protein complexes may comprise one or more cross-links that stabilize the conformation of an antibody epitope, such as a quaternary neutralizing antibody, and may exhibit an enhanced ability to elicit a protective immune response when administered to a subject as a component of a vaccine.

Abstract: Improved (safer and more effective) methods of therapy using TNF-R agonists, e.g., CD40 agonists are provided. These methods provide for the addition of an amount of a type 1 interferon and/or a TLR agonist that is effective to prevent or reduce the toxicity (liver toxicity) that may otherwise result in some patients of the TNF-R agonist is used as a monotherapy (without the type 1 interferon and/or TLR agonist).

Abstract: The present invention relates to a method for reducing the percentage of concomitant infections in pigs or a herd of pigs caused by pathogens other than PCV2 comprising the step administering to said pig(s) an effective amount of PCV2 antigen or an immunogenic composition comprising PCV2 antigen. It also refers to a method for improving the resistance of pigs against concomitant infections with pathogens other than PCV2, comprising the step administering to said pig(s) an effective amount of PCV2 antigen or an immunogenic composition comprising PCV2 antigen.

Abstract: The invention provides RSV fusion (F) protein ectodomain polypeptide sequences and nucleotide sequences encoding them, as well as cells containing the invention's polypeptide and nucleotide sequences. The invention further provides VLPs that contain the invention's polypeptides, and methods for using the VLPs for protein expression and vaccine formulation. Also provided are methods for distinguishing between subjects immunized with the invention's compositions and subjects infected with RSV.

Abstract: The present disclosure provides compositions and methods useful for treating viral infections. As described herein, the compositions and methods are based on the development of immunogenic compositions that include an attenuated or inactivated virus in combination with a non-ionic surfactant vesicle (NISV).

Abstract: Gas-filled microvesicles comprising an antigen bound thereto and to aqueous suspensions containing said microvesicles, for use in immunomodulating formulations, in particular as a vaccine. The antigen is covalently bound to a component of the microvesicles envelope. The microvesicles of the invention are particularly effective in the uptake by antigen-presenting cells, in particular dendritic cells.

Abstract: The present invention relates to lipoparticles. The invention also relates to producing lipoparticles. The invention further relates to lipoparticles comprising a viral structural protein. The invention further relates to a lipoparticle comprising a membrane protein, and the lipoparticle can be attached to a sensor surface. The invention further relates to methods of producing and using the lipoparticle to, inter alia, assess protein binding interactions.

Abstract: Polypeptides, polynucleotides, methods, compositions, and vaccines comprising influenza hemagglutinin and neuraminidase variants are provided.

Abstract: The present invention provides a method for the manufacture of a preparation comprising virus antigens comprising a) inoculation of cells with infectious virus in a fluid, b) propagation of said virus in said cells, c) collecting said propagated virus, d) inactivating said collected virus, and e) treating said inactivated virus with a detergent, resulting in a preparation comprising viral antigens.

Abstract: The present invention provides compositions and systems for delivery of nanocarriers to cells of the immune system. The invention provides vaccine nanocarriers capable of stimulating an immune response in T cells and/or B cells, in some embodiments, comprising at least one immunomodulatory agent, and optionally comprising at last one targeting moiety and optionally at least one immunostimulatory agent. The invention provides pharmaceutical compositions comprising inventive vaccine nanocarriers. The present invention provides methods of designing, manufacturing, and using inventive vaccine nanocarriers and pharmaceutical compositions thereof. The invention provides methods of prophylaxis and/or treatment of diseases, disorders, and conditions comprising administering at least one inventive vaccine nanocarrier to a subject in need thereof.

Abstract: The invention relates to virus-modified bacteria ghosts and the use thereof, for example, as carrier and targeting vehicles for active ingredients.

Abstract: Disclosed are immunogenic compositions, and methods for their use in the formulation and administration of therapeutic and prophylactic pharmaceutical agents. In particular, the invention provides immunogenic compositions and methods for preventing, treating, managing, and/or ameliorating a viral or microbial infection, or one or more symptoms thereof, including, for example, those infections giving rise to shipping fever, bovine respiratory disease complex, and/or bovine viral diarrhea, particularly in susceptible or infected animals.

Abstract: An affinity-conjugated antigen system (ACAS) comprising one or more antigens conjugated via a plurality of affinity moieties to a papaya mosaic virus (PapMV) or virus-like particle (VLP) derived from the coat protein of PapMV is provided. The affinity moieties are molecules or compounds that are capable of specifically binding to the antigen(s) of interest and which can be attached, for example by chemical or genetic means, to the coat protein of the PapMV or PapMV VLP. The ACAS can optionally further comprise one or more additional antigens, which may be the same as, or different to, the conjugated antigen(s) comprised by the ACAS. Also provided are immunogenic compositions, including vaccines, comprising an ACAS. The immunogenic compositions are useful in the treatment, including prevention, of various diseases and disorders for which a humoral and/or cellular response in the animal is required.

Abstract: The invention relates to means and methods for preparing aqueous composition comprising aluminium and a protein said composition comprising less than 700 ppm heavy metal on the basis of weight with respect to the aluminium content. The invention further relates to aqueous compositions comprising a protein and an aluminium-salt, said composition comprising less than 350 ppb heavy metal based on the weight of the aqueous composition.

Abstract: The present invention relates to an immunostimulating agent comprising at least one chemically modified RNA. The invention furthermore relates to a vaccine which comprises at least one antigen in combination with the immunostimulating agent. The immunostimulating agent according to the invention and the vaccine according to the invention are employed in particular against infectious disease or cancer diseases.

Abstract: The invention contemplates a new synthetic, codon-optimized Puumala virus (PUUV) full-length M gene open reading frame (ORF) that encodes a unique consensus amino acid sequence. The PUUV ORF was cloned into a plasmid to form the first stable PUUV full-length M gene that elicits neutralizing antibodies. The gene can be engineered into a molecular vaccine system, and is useful to protect mammals against infection with Puumala virus.

Abstract: The present invention relates to the use of an immunogenic composition comprising a porcine circovirus type 2 (PCV2) antigen for the prevention and treatment of sub-clinical PCV2 infection in animals, preferably in pigs.

Abstract: The present invention relates to single dose parenteral vaccine compositions comprising mixtures of monovalent Norovirus virus-like particles. Methods of conferring protective immunity against Norovirus infections in a human subject by administering such compositions are also disclosed.

Abstract: Fusion protein with directioning of vaccinal antigens toward antigen-presenting cells and the applications thereof. This invention relates to a gene construct that comprises, operatively bound, at least one nucleotide sequence (A) that encodes a polypeptide with SEQ ID NO: 1, which has a region that recognizes the ? chain of the class-II DR antigen present on the surface of antigen-presenting cells; and one nucleotide sequence (B) that encodes a vaccinal antigen of interest. Moreover, this invention relates to recombinant vectors useful for the expression of the gene construct of the invention, transgenic cells and plants transformed or transfected with said vectors, fusion proteins encoded by the gene construct of the invention and vaccines that comprise said fusion proteins.

Abstract: Multilayer films comprised of polypeptide epitopes and a toll-like receptor ligand. The multilayer films are capable of eliciting an immune response in a host upon administration to the host. The multilayer films can include at least one designed peptide that includes one or more polypeptide epitopes from a virus, bacteria, fungus or parasite.

Abstract: Disclosed are compositions and the use of the compositions for protection against pathogens comprising an isolated internal pathogenic protein, a TLR agonist and an aluminum salt.

Abstract: SARS (severe acute respiratory syndrome virus, a coronavirus) immunogens, antigens, or epitopes, nucleic acid molecules encoding such immunogens, antigens, or epitopes; vectors containing such nucleic acid molecules, e.g., viral vectors such as baculovirus vectors, DNA vectors, such as DNA plasmid vectors, e.g., DNA plasmids that express a nucleic acid molecule in a mammalian cell, uses for such immunogens, antigens or epitopes and vectors, e.g., as an active component immunogenic, immunological or vaccine compositions, or to generate antibodies, such as monoclonal antibodies, and methods for making, and using such immunogens, antigens or epitopes, vectors, antibodies, including in methods for eliciting an immunological or immunogenic or vaccine response, as well as in assays or diagnostic kits or methods, are discussed, as well as a seamless fusion of sequences in a plasmid or vector, e.g., a sequence encoding a leader sequence and a sequence encoding a protein, epitope or immunogen or antigen.

Abstract: A process for preparing a lyophilised vaccine antigen, comprising steps of (i) increasing the concentration of an antigen in a liquid composition including that antigen using centrifugal filtration and/or ultrafiltration, to provide a concentrated antigen, and (ii) lyophilising the concentrated antigen, to provide the lyophilised vaccine antigen. The lyophilised material can be reconstituted and used for vaccine formulation. The process is particularly useful with influenza vaccine antigens.

Abstract: Certain embodiments of the invention are directed to methods and compositions for inhibiting dsRNA-dependent protein kinase (PKR) and augmenting the immunogenicity of Bunyavirus live-attenuated vaccines.

Abstract: The present invention relates to DNA vaccines that are capable of generating a protective immune response in mammals against a pox virus, and comprises at least one DNA plasmid capable of expressing a plurality of VACV MV antigens, and at least one DNA plasmid capable of expressing a plurality of VACV EV antigens. Also, the present invention relates to methods of inducing a protective immune response in a mammal to pox virus, including a neutralizing antibody response, comprising: injecting into tissue of said mammal said DNA vaccine.

Abstract: The invention relates to methods of producing infectious bunyavirus replicon particles. These bunyavirus replicon particles are safe and can be used outside a biosafety containment. The invention further relates to recombinant bunyavirus replicon particles and uses of these recombinant bunyavirus replicon particles.

Abstract: The invention provides, inter alia, immunogenic compositions comprising a first antigen, at least two adjuvants, wherein a first adjuvant comprises a polymer derived from poly(lactides) and/or poly(lactide-co-glycolides), and wherein a second adjuvant comprises an imidazoquinoline, wherein said first antigen is encapsulated within, adsorbed or conjugated to, co-lyophilized or mixed with said first adjuvant, and a pharmaceutically acceptable excipient, wherein said composition elicits a cellular immune response when administered to a vertebrate subject. The invention also provides methods of producing immunogenic compositions, methods for producing a cytotoxic-T lymphocyte (CTL) response in a vertebrate subject, and methods of immunization.

Abstract: The compound N-(4-{[4-amino-2-butyl-1H-imidazo[4,5-c]quinolin-1-yl]oxy}butyl)octadecanamide is a useful drug compound for enhancing immune response and can be used, for example, as a vaccine adjuvant and a cancer treatment.

Abstract: A vaccine for treating melanoma, comprising at least one melanoma antigen and a viral-like particle comprising potato virus A coat protein. Use of vaccine for treating melanoma, including protein and DNA vaccines, based on potato virus A coat protein.

Abstract: A viral vaccine in the dried state is described. Methods for drying viral vaccine in the liquid state into viral vaccine in the dried state are presented. The methods may include introducing the viral vaccine in the liquid state into a gas stream and recovering viral vaccine in the dried state from the gas stream.

Abstract: The preset invention relates to an oral vaccine with an enhanced protective efficacy for aquatic animals comprising an antigen, which is expressed in Listonella sp., such as L. anguillarum, as an expression host transformed with an expression vector comprising the nucleic acid encoding the antigen, such as a viral subunit.

Abstract: Reovirus can be used to selectively remove ras-mediated neoplastic cells from a cellular composition. It is of particular interest to purge autographs which may contain neoplastic cells with reovirus before transplanting the autographs back into the recipient, thereby reducing the risk of introducing or reintroducing neoplastic cells into the recipient.

Abstract: An isolated protein comprising a VP1 amino acid sequence wherein one or more exposed loops within said VP1 has an insertion of an amino acid sequence from a virus protein other than VP1, and encoding nucleic acid, are provided. Typically, the virus protein other than VP1 is derived from an influenza virus and in particular, avian influenza virus. The isolated protein may have an insertion of amino acid sequence from a single protein or a plurality of proteins. Also provided are expression constructs, VLPs, pharmaceutical compositions, vaccines and methods of treatment that may be useful in the prophylactic and/or therapeutic treatment of any disease of viral origin, and in particular, influenza virus.

Abstract: The present invention provides vectors that contain and co-express in vivo or in vitro immunogenic polypeptides or antigens together with an OX40L polypeptide, which functions as a genetic adjuvant. Together, the immunogenic polypeptide and the OX40L polypeptide elicit an immune response in animal or human, which is greater than the immune response elicited by the immunogenic polypeptide alone.

Abstract: The invention provides methods of producing vaccines directed against microorganisms, with the methods comprising culturing, harvesting and/or suspending the microorganism in the presence of a radiation-protective composition and irradiating the bacteria or viruses with a dose of radiation sufficient to render the microorganism replication-deficient and/or non-infective. The radiation-protective compositions used in the methods of the present invention comprise at least one nucleoside, at least one antioxidant and at least one small peptide. The invention also provides methods of rendering bacteria in culture resistant to ionizing radiation (IR), with these methods comprising culturing the bacteria in the presence of a radiation-protective composition.

Abstract: Genotype 7a has been identified recently, thus not much is known about the biology of this new, major HCV genotype. The present inventors developed hepatitis C virus 7a/2a intergenotypic recombinants in which the JFH1 structural genes (Core, E1 and E2), p7 and the complete NS2 were replaced by the corresponding genes of the genotype 7a strain QC69 and characterized them in Huh7.5 cells. Sequence analysis of 7a/JFH1 recombinants recovered after viral passage in Huh7.5 cells following 4 independent transfection experiments revealed adaptive mutations in Core, E2, NS2, NS5A and NS5B. In reverse genetic studies the importance of these mutations for improved growth kinetics was shown. Adapted 7a/JFH1 viruses showed growth kinetics, infectivity and RNA titers comparable to a previously developed 3a/JFH1 reference virus. Conclusion: The developed 7a/JFH1 viruses provide a robust in vitro tool for research in HCV genotype 7, including vaccine studies and functional analyses.

Abstract: Methods and products for treating and/or delaying onset of dysplastic lesions, and wafers for oral administration employ dry powder compositions including myo-inositol. Methods for administering a vaccine for a virus or bacteria to an individual comprising administering a first portion of the vaccine to the individual via one route and administering a second portion via a second, different route. In a specific embodiment, the first route is sublingually. Vaccines are provided in the form of dry powder compositions comprising a combination of nanoparticles and microparticles, or in the form of a wafer which dissolves in water at room temperature in less than about one minute. Storage stable unit dosages of a vaccine are provided by individually packaging individual unit dosages of a dry powder composition comprising the vaccine and a carrier in blister compartments formed of gas and moisture resistant material.

Abstract: The invention relates to live attenuated parvoviruses, their uses, vaccines comprising such live attenuated parvoviruses, as well as methods for their production.

Abstract: Nucleic acid immunisation is achieved by delivering a self-replicating RNA encapsulated within a small particle. The RNA encodes an immunogen of interest, and the particle may deliver this RNA by mimicking the delivery function of a natural RNA virus. Thus the invention provides a non-virion particle for in vivo delivery of RNA to a vertebrate cell, wherein the particle comprises a delivery material encapsulating a self-replicating RNA molecule which encodes an immunogen. These particles are useful as components in pharmaceutical compositions for immunising subjects against various diseases.

Abstract: Microparticles with adsorbent surfaces, methods of making such microparticles, and uses thereof, are disclosed. The microparticles comprise a polymer, such as a poly(?-hydroxy acid), a polyhydroxy butyric acid, a polycaprolactone, a polyorthoester, a polyanhydride, and the like, and are formed using cationic, anionic, or nonionic detergents. The surface of the microparticles efficiently adsorb biologically active macromolecules, such as DNA, polypeptides, antigens, and adjuvants. Also provided are compositions of an oil droplet emulsion having a metabolizable oil and an emulsifying agent. Immunogenic compositions having an immunostimulating amount of an antigenic substance, and an immunostimulating amount of an adjuvant composition are also provided.

Abstract: The disclosure provides compositions that include microparticles or nanoparticles of beta inulin or inulin acetate and an active agent, where the active agent is contained within individual microparticles or nanoparticles. The active agent can be, for example, a vaccinating antigen, an antigenic peptide sequence, or an immunoglobulin. The compositions can be incorporated into various formulations for administration to a subject such as a human or animal. The invention further provides methods of using the compositions and formulations, including methods of stimulating an immune response in a subject, or enhancing an immune response in a subject, for the purpose of treating, preventing, or inhibiting an infectious disease, autoimmune disease, immunodeficiency disorder, neoplastic disease, degenerative disease, an aging disease, or a combination thereof.

Abstract: The present invention relates to the use of an immunogenic composition comprising a porcine circovirus type 2 (PCV2) antigen for the prevention and treatment of sub-clinical PCV2 infection in animals, preferably in pigs.

Abstract: Stem cell reprogramming genes cloned into a single sustained expression-type Sendai viral vector are shown to reprogram differentiated somatic cells into induced pluripotent stem (iPS) cells without integration of vector sequences into the host cell's genome. The genes are transduced into normal differentiated somatic cells via infection with recombinant Sendai virus. After expression of the reprogramming genes and subsequent induction of pluripotency, the vector genome RNA including the reprogramming genes is removed from the cell to establish an iPS cell that is genetically identical to the parent somatic differentiated cell thus reducing the risk of tumorigenic transformation caused by random integration of vector sequences into the host genome. The method promises to provide safe, autologous iPS cells that can be used for human cell replacement and regeneration therapeutic applications.

Abstract: The disclosure herein relates generally to immunotherapy and, more specifically, to the use of immunotherapy for treating tumors and pathogen infected tissues. The immunotherapy relates to first priming patients with allogeneic cells designed to be rejected by a Th1 mediated mechanism, then inducing in situ necrosis or apoptosis in a tumor or pathogen infected lesion. Necrosis or apoptosis can be induced by methods such as cryotherapy, irreversible electroporation, chemotherapy, radiation therapy, ultrasound therapy, ethanol chemoablation, microwave thermal ablation, radiofrequency energy or a combination thereof applied against at least a portion of the tumor or pathogen infected tissue. One or more doses of allogeneic cells (e.g., Th1 cells) are then delivered within or proximate to the tumor or pathogen-infected tissue in the primed patient. The present invention provides an immunotherapeutic strategy to develop de-novo systemic (adaptive) immunity to a tumor or pathogen.

Abstract: Provided is immunotherapy of cancer or infection utilizing activation of dendritic cell (DC) by innate immunity, namely, a method of preparing an artificial adjuvant vector cell co-expressing a target antigen and CD1d and having an ability to activate immunity against the target antigen, comprising treating the target antigen and CD1d co-expressing cell with a CD1d ligand in a culture medium.

Abstract: RNA is encapsulated within a liposome for in vivo delivery. The RNA encodes a polypeptide of interest, such as an immunogen for immunisation purposes. The liposome includes at least one compound selected from the group consisting of compounds of formula (I) and formula (XI).

Abstract: Substantially avirulent forms of atypical porcine reproductive and respiratory syndrome (PRRS) virus and corresponding vaccines are provided which result from cell culture passaging of virulent forms of PRRS. The resultant avirulent atypical PRRS virus is useful as a vaccine in that PRRS specific antibody response is elicited by inoculation of host animals, thereby conferring effective immunity against both previously known strains of PRRS virus and newly isolated atypical PRRS virus strains. The preferred passaging technique ensures that the virus remains in a logarithmic growth phase substantially throughout the process, which minimizes the time required to achieve attenuation. The present invention also provides diagnostic testing methods which can differentiate between animals infected with field strains and attenuated strains of PRRSV.

Abstract: Described is an immunostimulatory oligodeoxynucleic acid molecule (ODN) having the structure according to formula (I), wherein any NMP is a 2? deoxynucleoside monophosphate or monothiophosphate, selected from the group consisting of deoxyadenosine-, deoxyguanosine-, deoxyinosine-, deoxycytosine-, deoxyuridine-, deoxythymidine-, 2-methyl-deoxyinosine-, 5-methyl-deoxycytosine-, deoxypseudouridine-, deoxyribosepurine-, 2-amino-deoxyribosepurine-, -6-S-deoxyguanine-, 2-dimethyl-deoxyguanosine- or N-isopentenyl-deoxyadenosine-monophosphate or -monothiophosphate, NUC is a 2? deoxynucleoside, selected from the group consisting of deoxyadenosine-, deoxyguanosine-, deoxyinosine-, deoxycytosine-, deoxyuridine-, deoxythymidine-, 2-methyl-deoxyinosine-, 5-methyl-deoxycytosine-, deoxypseudouridine-, deoxyribosepurine-, 2-amino-deoxyribosepurine-, 6-S-deoxyguanine-, 2-dimethyl-deoxyguanosine- or N-isopentenyl-deoxyadenosine, any X is O or S, a and b are integers from 0 to 100 with the proviso that a+b is between 4 and 150,

Abstract: A substituted Norovirus capsid protein monomer, having only the P-domain and called an antigen-Norovirus P-domain monomer, includes a foreign antigen inserted into one or more of three surface loops present on each P-domain monomer by molecular cloning. The antigen-P-domain monomer can assemble spontaneously into an octahedral form, called an antigen-Norovirus P-particle, that is composed of 24 copies of the antigen-P-domain monomer. Each substituted P-domain monomer will contain one to three copies of the foreign antigen, for a total of 24-72 antigen copies on each antigen-P-particle. The antigen-P-particle is useful in methods for diagnosing, immunizing and treating individuals infected with a foreign virus, for example Rotavirus, and can serve as a carrier for presentation of foreign antigens for development of novel vaccines against many infectious and non-infectious diseases. The substituted Norovirus P-particles can be readily produced in E.

Abstract: The present invention provides methods and compositions related to the generation of host cells permissive for virus growth, particularly Porcine Reproductive and Respiratory Syndrome (PRRS) virus.