Abstract: The present invention discloses liquid stable bovine vaccines that comprise a live attenuated virus, and a sugar alcohol. The present invention also discloses the manufacture of such vaccines and methods of protecting an animal by administration of such vaccines.

Abstract: The invention provides an adenovirus or adenoviral vector characterized by comprising a nucleic acid sequence encoding one or more Respiratory Syncytial Virus (RSV) antigens and one or more particular nucleic acid sequences or one or more particular amino acid sequences, or portions thereof, pertaining to, for example, an adenoviral pIX protein, DNA polymerase protein, penton protein, hexon protein, and/or fiber protein, as well as a method of inducing an immune response against RSV in a mammal by administering the adenovirus or adenoviral vector to the mammal.

Abstract: The present invention discloses liquid stable bovine vaccines that comprise a live attenuated virus, in sucrose, arginine, and methionine. The present invention also discloses the manufacture of such vaccines and methods of protecting an animal by administration of such vaccines.

Abstract: Methods and compositions for enhancing an immune response to a selected antigen are described. The methods are useful for the treatment and prevention of microbial infections, such as infections caused by bacteria, viruses, fungi and parasites. The methods and compositions include host defense peptides, polyphosphazenes and immunostimulatory sequences to enhance the immune response to a coadministered antigen.

Abstract: The invention relates to pre-fusion RSV F protein and polypeptides that contain one or more amino acid mutations that stabilize the pre-fusion conformation or destabilize the post-fusion conformation. The invention also relates to methods for inducing an immune response to pre-fusion RSV F.

Abstract: Compositions and methods are provided for the treatment or prevention of RSV disease by modulating RSV infection and immunity. In particular, amino acid sequences in the RSV G glycoprotein, containing the chemokine motif defined as C-X-X-X-C (or CX3C), are identified that are essential in causing RSV infection and disease. The chemokine motif is biologically active and participates in virus binding to and infection of susceptible cells. The prevention or treatment of RSV infection is achieved by interfering with the motif, such as by administering a vaccine in which the motif is altered or by administration or induction of blocking molecules that inhibit the biological activity of the motif.

Abstract: Immunogenic polypeptides corresponding to one or more RSV G glycoproteins, or analogs thereof, are provided as components of vaccines. The inventive compositions are useful as both a prophylactic and therapeutic for the prevention and treatment of RSV infections and associated pulmonary or other diseases. The inventive immunogens include regions of the RSV G protein, specifically, amino acid residues 164-176 of RSV G A2 protein or analogs thereof. This inventive immunogen is operable alone or in combination with other polypeptides such as the RSV G protein amino acid residues 155-206, or other vaccines such as live RSV vaccines, or inactivated RSV vaccines or immunogenic analogs thereof.

Abstract: The present invention relates to a Sendai virus or recombinant Sendai virus vector. In particular the present invention provides methods, vectors, formulations, compositions, and kits for a modified Enders strain Sendai viral vector. An immunogenic vector can be used in any in vitro or in vivo system. Moreover, some embodiments include vectors for imaging virus growth, location and transmission.

Abstract: The present invention pertains to an emulsion comprising an aqueous phase and an oily phase, the aqueous phase containing a non-live medicinal substance, wherein the aqueous phase comprises at least 30% w/w sugar. The invention also pertains to a method to shield a medicinal substance present in an aqueous phase emulsified with an oily phase, from interaction with the oily phase, and to a vaccine comprising as an antigen a killed micro-organism or a subunit of a micro-organism, the antigen being present in an aqueous phase that is dispersed in an oily phase, wherein the aqueous phase comprises at least 30% w/w sugar.

Abstract: Disclosed are compositions, vectors, kits, and methods for inducing an immune response against avian infectious bronchitis virus (IBV). In particular, the compositions, vectors, kits, and methods may be utilized to immunize poultry against disease associated with IBV infection or to protect poultry from IBV infection altogether.

Abstract: The invention relates to an expression system comprising polynucleotides encoding proteins, wherein the expression system comprises a first polynucleotide encoding at least one protein, peptide or variant thereof, which induces a T cell response, and a second polynucleotide encoding at least one protein peptide or variant thereof, which induces an anti-pathogenic B cell response. The invention further relates to protein mixtures encoded by the expression system and cells comprising the expression system or the protein mixture and pharmaceutical compositions comprising the expression system or the protein mixture. The expression system, polynucleotides, proteins, cells, and pharmaceutical compositions are useful in the prophylaxis or treatment of infections. The invention further relates to nucleotide constructs which comprises, essentially consists or consists of a polynucleotide encoding a modified influenza hemagglutinin (HA).

Abstract: The present invention shows that intranasal administration of E1/E3-defective adenovirus particles may confer rapid and broad protection against viral and bacterial pathogens in a variety of disease settings. Protective responses lasted for many weeks in a single-dose regimen in animal models. When a pathogen-derived antigen gene was inserted into the E1/E3-defective adenovirus genome, the antigen-induced protective immunity against the specific pathogen was elicited before the adenovirus-mediated protective response declined away, thus conferring rapid, prolonged, and seamless protection against pathogens. In addition to E1/E3-defective adenovirus, other bioengineered non-replicating vectors encoding pathogen-derived antigens may also be developed into a new generation of rapid and prolonged immunologic-therapeutic (RAPIT).

Abstract: The disclosure relates to a composition added to animal feed used in combination with a vaccine to enhance the effectiveness of the vaccine. Amongst other effects, the composition raises the titer of antibodies to the vaccine.

Abstract: The present invention is generally related to modified or mutated respiratory syncytial virus fusion (F) proteins and methods for making and using them, including immunogenic compositions such as vaccines for the treatment and/or prevention of RSV infection.

Abstract: The present invention relates to recombinant RNA virus templates derived from and applicable to negative strand naturally non-segmented viruses, including the families Bornaviridae, Filoviridae, and Paramyxoviridae, and methods for generating such recombinant RNA virus templates, wherein the templates are generated from two or more recombinant RNA molecules. The invention relates to the use of segmented recombinant RNA virus templates for naturally non-segmented RNA viruses to express heterologous gene products in appropriate host cell systems and/or to construct recombinant viruses taken from that family and that express, package, and/or present the heterologous gene product. The invention includes the expression products and recombinant and chimeric viruses thus prepared and vaccine and therapeutic formulations comprising the recombinant RNA viruses.

Abstract: The present invention provides methods and compositions for the stimulation of immune responses. In particular, the present invention provides immunogenic nanoemulsion compositions and methods of administering the same (e.g., via a heterologous prime/boost protocol (e.g., utilizing the same nanoemulsion in each the prime and boost administrations)) to induce immune responses (e.g., innate and/or adaptive immune responses (e.g., for generation of host immunity against an environmental pathogen)). Compositions and methods of the present invention find use in, among other things, clinical (e.g. therapeutic and preventative medicine (e.g., vaccination)) and research applications.

Abstract: The present invention pertains to an antigenic formulation comprising a biological antigen, wherein the formulation comprises an oil containing as a principle constituent a fatty acid ester of eleostearic acid. The invention also pertains to the use of the said oil to manufacture an antigenic formulation.

Abstract: The present invention discloses liquid stable vaccines that comprise a live attenuated virus, 10-30% sugar additive, and an amino acid. The present invention also discloses the manufacture of such vaccines and methods of protecting an animal by administration of such vaccines.

Abstract: The invention relates to an immunization regimen whereby an infant is protected against respiratory syncytial virus (RSV) through administration of a first anti-RSV immune response inducing composition to his or her mother during pregnancy, followed by administration of a second anti-RSV immune response inducing composition to the infant after birth.

Abstract: The present invention relates to immunogenic compositions for modulating the immune system, comprising a therapeutically effective quantity of two or more immuno-active antigenic agents with pathogen-associated molecular patterns (PAMPs) and/or danger-associated molecular patterns (DAMPs) and one or more physiologically acceptable carriers, excipients, diluents or solvents. The immunogenic compositions according to the present invention are used for producing medicaments for preventing and/or treating, and for preventing and/or treating infectious diseases, auto-immune diseases, allergic diseases, inflammation, arthritis, inflammatory diseases, transplant rejection, affections caused by vascular disorders, diseases caused by haemorrhagic or ischaemic cardiovascular accidents, ischaemia, heart attack and haemorrhagia leading to tissue destruction, heart, kidney, respiratory or liver insufficiency, cancer, malign and benign tumours and neoplasia.

Abstract: This disclosure provides methods for protecting infants against disease caused by respiratory syncytial virus (RSV) through maternal immunization using recombinant respiratory syncytial virus (RSV) antigens to reduce the incidence or severity of RSV infection in young infants.

Abstract: The present invention provides a new means of restoring the immune system in aging and immunocompromised individuals using an antioxidant nutraceutical. The nutraceutical stimulates the aging immune system through the Nrf2 master gene regulatory pathway. The invention is based in part on the discovery that the Nrf2 has antioxidant and immune restorative activity. The nutraceutical improves function of both the innate and adaptive immune systems.

Abstract: The invention relates to methods for producing storage stable virus compositions. In certain embodiments, the invention relates to one or more formulations and process steps which result in storage stable virus compositions, wherein the composition is storage stable as a lyophilized solid composition or a frozen liquid composition.

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

Abstract: A plant-derived vaccine against respiratory syncytial virus (RSV) is disclosed. The vaccine includes an immunogenic complex that includes plant cells transformed with a chimeric gene containing a nucleotide sequence adapted for protein expression in plants and an RSV coding sequence that encodes an antigenic protein of RSV. Also disclosed are methods of making the plant-derived vaccine of the invention, as well as transgenic plants, transgenic plant cells, and nucleic acid constructs useful in immunizing a mammal against RSV.

Abstract: The invention provides immunotherapeutic and prophylactic bacteriophage viral-like particle (VLPs) which are useful in the treatment and prevention of Respiratory Syncytial Virus (RSV) infections and related disorders, including bronchiolitis and viral pneumonia. Related compositions (e.g. vaccines), nucleic acid constructs, and therapeutic methods are also provided. VLPs and related compositions of the invention induce high titer antibody responses against RSV. VLPs, VLP-containing compositions, and therapeutic methods of the invention induce an immunogenic response against RSV infection, confer immunity against RSV infection, protect against RSV infection, and reduce the likelihood of infection by RSV infection.

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 invention provides antibodies and functional equivalents thereof which are capable of specifically binding RSV. Nucleic acid sequences encoding said antibody, as well as antibody producing cells and methods for producing said antibody are also provided.

Abstract: The invention provides antibodies and functional equivalents thereof which are capable of specifically binding RSV, and means and methods for producing them.

Abstract: This disclosure provides recombinant respiratory syncytial virus (RSV) antigens and methods for making and using them, including immunogenic compositions (e.g., vaccines) for the treatment and/or prevention of RSV infection.

Abstract: A vaccine composition for vaccinating dogs comprising any one or more of (a) an agent capable of raising an immune response against Streptococcus equi sub species zooepidemicus in a dog, (b) an agent capable of raising an immune response against Mycoplasma cynos in a dog, and (c) an agent capable of raising an immune response against a Chlamydophila in a dog.

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: 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: 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: The present invention encompasses engineered APMV compositions or vaccines. The vaccine or composition may be a recombinant APMV composition or vaccine. The present invention encompasses methods for modifying the genome of APMV to produce recombinant APMV; modified APMV prepared by such methods; DNA and protein sequences; and methods for infecting cells and host animals with such recombinant APMV.

Abstract: RNA encoding an immunogen is co-delivered to non-immune cells at the site of delivery and also to immune cells which infiltrate the site of delivery. The responses of these two cell types to the same delivered RNA lead to two different effects, which interact to produce a strong immune response against the immunogen. The non-immune cells translate the RNA and express the immunogen. Infiltrating immune cells respond to the RNA by expressing type I interferons and pro-inflammatory cytokines which produce a local adjuvant effect which acts on the immunogen-expressing non-immune cells to upregulate major histocompatibility complex expression, thereby increasing presentation of the translated protein to T cells. The effects on the immune and non-immune cells can be achieved by a single delivery of a single RNA e.g. by a single injection.

Abstract: RNA encoding an immunogen is co-delivered to non-immune cells at the site of delivery and also to immune cells which infiltrate the site of delivery. The responses of these two cell types to the same delivered RNA lead to two different effects, which interact to produce a strong immune response against the immunogen. The non-immune cells translate the RNA and express the immunogen. Infiltrating immune cells respond to the RNA by expressing type I interferons and pro-inflammatory cytokines which produce a local adjuvant effect which acts on the immunogen-expressing non-immune cells to upregulate major histocompatibility complex expression, thereby increasing presentation of the translated protein to T cells. The effects on the immune and non-immune cells can be achieved by a single delivery of a single RNA e.g. by a single injection.

Abstract: This invention relates to soluble forms of G glycoprotein from Hendra and Nipah virus. In particular, this invention relates to compositions comprising soluble forms of G glycoprotein from Hendra and Nipah virus and also to diagnostic and therapeutic methods using the soluble forms of G glycoprotein from Hendra and Nipah virus. Further, the invention relates to therapeutic antibodies including neutralizing antibodies, and vaccines for the prevention and treatment of infection by Hendra and Nipah viruses.

Abstract: A pharmaceutical composition including an adjuvant effective amount of a protected inosine monophosphate (IMP) compound. The pharmaceutical composition includes the protected IMP compound alone, or in combination with vaccine agents with or without additional adjuvants. The pharmaceutical composition can be utilized as a vaccine composition or can be included with existing vaccine compositions in order to increase a specific T lymphocyte mediated immune response thereto. Various methods relating to the pharmaceutical composition and the vaccine are described herein. The vaccines can be employed to prevent or treat infections. Additionally, the pharmaceutical compositions not only increase T-cell responses, but also confer, by pretreatment, non-specific protection against a variety of pathogens. This combination of actions is appropriate for enhancing defense against bioterrorism with organisms like smallpox and anthrax.

Abstract: This invention relates to soluble forms of G glycoprotein from Hendra and Nipah virus. In particular, this invention relates to compositions comprising soluble forms of G glycoprotein from Hendra and Nipah virus and also to diagnostic and therapeutic methods using the soluble forms of G glycoprotein from Hendra and Nipah virus. Further, the invention relates to therapeutic antibodies including neutralizing antibodies, and vaccines for the prevention and treatment of infection by Hendra and Nipah viruses.

Abstract: RNA encoding an immunogen is delivered to a large mammal at a dose of between 2 ?g and 100 ?g. Thus the invention provides a method of raising an immune response in a large mammal, comprising administering to the mammal a dose of between 2 ?g and 100 ?g of immunogen-encoding RNA. Similarly, RNA encoding an immunogen can be delivered to a large mammal at a dose of 3 ng/kg to 150 ng/kg.

Abstract: A chimeric viral particle that comprises a RV fusion gene is disclosed. The RV fusion gene comprises a first nucleotide sequence encoding a RV that is devoid of RV E1 protein, and a second nucleotide sequence that linked in translation frame to the first nucleotide sequence and encodes a humoral immunogenic viral protein. The chimeric viral particle is free of RV E1 protein-encoding gene. A virus packaging cell that generates the chimeric viral particle comprising a RV fusion gene and an isolated expression vector comprising a RV fusion gene linked in translation frame to a promoter are also disclosed.

Abstract: The present invention relates to the use of a therapeutically effective amount of abscisic acid (ABA) or its analogs to treat or prevent inflammation induced by exposure to lipopolysaccharide (LPS) or respiratory inflammation. The invention also relates to methods and composition for enhancing vaccine efficacy using ABA.

Abstract: A sensor chip for detecting an immune response against a virus, the sensor chip including a substrate having a surface and a plurality of virus-like particles or capsid fragments bound to discrete locations on the surface of the substrate. Detection devices containing the sensor chip and methods of detecting anti-viral immune responses are also described herein.

Abstract: The present invention generally relates to homogeneous suspensions of small molecule immune potentiators (SMIPs) that are capable of stimulating or modulating an immune response in a subject in need thereof. The homogeneous suspensions may be used in combinations with various antigens or adjuvants for vaccine therapies.

Abstract: The present invention describes an immunogenic formulation to be used in mammals against the respiratory syncytial virus (RSV), consisting in the Calmette-Guérin bacillus (BCG) strain or other attenuated Mycobacterium strain that expresses heterologously at least one protein or immunogenic fragment of the RSV subtype A or RSV subtype B strains, originated from proteins NS1, NS2, N, P, M, SH, M2 (ORF1), M2 (ORF2), L, F or G. The genetic material that encodes for these proteins or immunogenic fragments is inserted into the BCG genome or extrachromosomally in one or several copies, which expression is regulated by endogenous or exogenous BCG promoters, either constitutive or inducible. The viral proteins or immunogenic fragments can be expressed by BCG as cytoplasmic-soluble, extracellularly-secreted or cell membrane-bound proteins. The preparation can further contain combinations of previously described formulations. The formulation can be stabilized by freeze-drying (conservation range from 4° C. and 25° C.

Abstract: The present application relates to the field of immunology, in particular, a vaccine composition of respiratory syncytial virus (RSV) surface proteins, Fusion (F) and Glycoprotein (G) proteins subunit vaccine preferentially mixed with the immune cell targeting and enhancer, nanoemulsion to induce a protective immune response and avoid vaccine-induce disease enhancement.

Abstract: A new clone of Newcastle disease virus which is interferon insensitive and has an ICPI between 1.2 and 2.0 and which may be used in the treatment of cancer and other diseases.

Abstract: The present invention relates to a nucleic acid molecule, which codes for the F-protein of the respiratory syncytial virus (RSV) or a fragment thereof, for the expression in a human cell environment of codon optimized variants of said nucleic acid molecule, vectors and compositions comprising said nucleic acid molecules and the use thereof as vaccines and polypeptides coded by the nucleic acid molecules and method for the production thereof.

Abstract: Recombinant human parainfluenza virus type 2 (HPIV2) viruses and related immunogenic compositions and methods are provided. The recombinant HPIV2 viruses, including HPIV2 chimeric and chimeric vector viruses, provided according to the invention are infectious and attenuated in permissive mammalian subjects, including humans, and are useful in immunogenic compositions for eliciting an immune responses against one or more PIVs, against one or more non-PIV pathogens, or against a PIV and a non-PIV pathogen. Also provided are isolated polynucleotide molecules and vectors incorporating a recombinant HPIV2 genome or antigenome.