Abstract: The invention provides for immunogenic compositions against West Nile Virus. The immunogenic compositions, in alternate embodiments, also include other equine pathogens. The West Nile Virus composition of the present invention advantageously provides for protection against North American Dominant West Nile Virus strains or isolates.

Abstract: The invention concerns recombinant DNA's comprising cDNA of genomic RNA of a Salmonidae alphavirus preceded by a spacer sequence, under the control of a suitable promoter. Said recombinant DNAs are useful for obtaining expression vectors, producing recombinant Salmonidae alphavirus, and for obtaining vaccines.

Abstract: This invention provides replication-defective flavivirus vaccines and vaccine vectors, and corresponding compositions and methods.

Abstract: The present invention relates to NS1 proteins or parts thereof of Flaviviruses, in particular of Dengue viruses useful for vaccination against said Flavivirus and against one or more other Flaviviruses. The invention further concerns the NS1 protein or parts thereof of one Dengue virus serotype, in particular serotype 2, useful for vaccination against Dengue viruses from all serotypes. The invention further concerns DNA comprising an expression cassette coding for a Flavivirus NS1 or parts thereof, vectors comprising said DNA and vaccines containing or expressing a Flavivirus NS1.

Abstract: Disclosed herein are compounds and related compositions for the treatment of viral infection, including RNA viral infection, and compounds that can modulate the RIG-I pathway in vertebrate cells, including compounds that can activate the RIG-I pathway.

Abstract: Disclosed herein are compounds and related compositions for the treatment of viral infection, including RNA viral infection, and compounds that can modulate the RIG-I pathway in vertebrate cells, including compounds that can activate the RIG-I pathway.

Abstract: The present invention provides virus-like particles (VLP) highly secreting or producing signal peptide obtained by altering a signal sequence derived from West Nile virus (WNV), the signal peptide, a WNV VLP secretion expression vector containing a nucleic acid encoding prM protein and E protein, a WNP VLP highly secreting or producing animal cell line harboring the vector, a WNV vaccine containing WNV VLP obtained by the cell line as an active ingredient, and a WNV DNA vaccine containing the VLP secretion expression vector as an active ingredient.

Abstract: The invention relates to live attenuated VDV2 (VERO-Derived Vaccine Dengue serotype 2) strains which have been derived from the wild-type dengue-2 strain 16681 by passaging on PDK and Vero cells and nucleic acids thereof. The invention further relates to a vaccine composition which comprises a VDV2 strain.

Abstract: The invention relates to the field of PRRS viruses and infectious clones obtained from PRRS viruses. Furthermore, the invention relates to vaccines and diagnostic assays obtainable by using and modifying such infectious clones of PRRS viruses. The invention provides a porcine reproductive and respiratory syndrome virus (PRRSV) replicon having at least some of its original PRRSV nucleic acid deleted, said replicon capable of in vivo RNA replication, said replicon further having been deprived of at least some of its original PRRSV nucleic acid and/or having been supplemented with nucleic acid derived from a heterologous microorganism.

Abstract: Disclosed is an attenuated flavivirus live vaccine comprising a flavivirus mutant, characterized in that the flavivirus mutant has a deletion in the capsid protein of at least more than 4 successive amino acids, wherein the carboxy-terminal hydrophobic region is not affected by the deletion.

Abstract: An antibody for activating plasminogen is provided. The antibody is produced from a hybridoma cell line deposited on Nov. 24, 2011 under accession number BCRC 960433 at Food Industry Research and Development Institute, 331 Shih-Pin Road, Hsinchu 300, Taiwan. The uses and producing method of the antibody, and an agent including the antibody used for treating stroke, myocardial infarction or syndromes cause by thrombus are also disclosed.

Abstract: The present invention relates to attenuated, immunogenic West Nile virus chimeras built on a dengue virus backbone for the production of immunogenic, live, attenuated West Nile virus vaccines.

Abstract: The invention belongs to the field of animal health and in particular Bovine Viral Diarrhea Virus (BVDV). The invention provides infectious BVDV clones and methods to produce said BVDV clones. The invention further relates to methods of attenuating said clones, attenuated BVDV clones and vaccines comprising said attenuated clones.

Abstract: The present invention is related to a biodegradable carrier with adjustable zeta potentials and particle sizes, a method for making the same, and a pharmaceutical composition comprising the same. In such a method, a first solution comprising a first biodegradable macromolecule is prepared, and a second solution comprising a second biodegradable macromolecule is also prepared according to a desired zeta potential of a biodegradable carrier and further added into the first solution to form a mixture solution. The biodegradable carrier with the desired zeta potentials is formed by the attraction force between the different electric properties. Then, the mole number of the first biodegradable macromolecule and the second biodegradable macromolecule in the mixture solution are proportionally adjusted according to a desired particle size of the biodegradable carrier. Therefore, the zeta potential and the particle size of the biodegradable carrier are adjustable artificially.

Abstract: The present invention relates to a dengue vaccine, a pharmaceutical composition comprising the same, a nucleotide sequence, and an antibody composition. The dengue vaccine of the present invention includes chimeric nonstructural protein 1, which comprises N-terminus of DV NS1 from amino-acid residues 1 to 270 and C-terminus of JEV NS1 from amino-acid residues 271 to 352 (designated DJ NS1). Therefore, the dengue vaccine without autoimmunity according to the present invention is able to avoid cross-reactions with endothelial cells and platelets, and is able to shorten the bleeding time.

Abstract: Described herein are iDNA vectors and vaccines and methods for using the same. The iDNA generates live attenuated vaccines in eukaryotic cells in vitro or in vivo for pathogenic RNA viruses, particularly yellow fever virus and Venezuelan equine encephalitis virus. When iDNA is injected into the vaccine recipient, RNA of live attenuated virus is generated by in vivo transcription in the recipient's tissues. This initiates production of progeny attenuated viruses in the tissues of the vaccine recipient, as well as elicitation of an effective immune response protecting against wild-type, non-attenuated virus.

Abstract: The invention features modified alphavirus or flavivirus virus-like particles (VLPs). The invention provides methods, compositions, and kits featuring the modified VLPs. The invention also features methods for enhancing production of modified VLPs for use in the prevention or treatment of alphavirus and flavivirus-mediated diseases. The invention also provides methods for delivering agents to a cell using the modified VLPs.

Abstract: A first composition comprising a ligand part being able to specifically bind to a target, the target being on a diseased cell of an organism, and an epitope part having a non-self epitope, or encoding a non-self epitope, the non-self epitope not naturally being encoded by the organism, wherein the target is internalized after forming a complex with the composition and the non-self epitope is presented on the cell surface of said diseased cell of an organism after internalization.

Abstract: The invention provides a an inactive, non-replicating vaccine comprising whole virion, chemically inactivated Yellow Fever virus which is inactivated using a method that ensures preservation of critical, neutralizing epitopes. The Yellow Fever virus has been adapted to propagate in cells to higher yields than the unadapted virus. The invention also provides methods for preventing Yellow Fever viral infection.

Abstract: The present invention relates to novel insertion sites useful for the integration of exogenous sequences into the Modified Vaccinia Ankara (MVA) virus genome. The present invention further provides plasmid vectors to insert exogenous DNA into the genome of MVA. Furthermore, the present invention provides recombinant MVA comprising an exogenous DNA sequence inserted into the new insertion site as medicine or vaccine.

Abstract: Nucleic acid immunisation is achieved by delivering a RNA encapsulated within a liposome comprising a cationic lipid, wherein the liposome and the RNA have a N:P ratio of between 1:1 and 20:1.

Abstract: Chimeric flaviviruses that are avirulent and immunogenic are provided. The chimeric viruses are constructed to contain amino acid mutations in the nonstructural viral proteins of a flavivirus. Chimeric viruses containing the attenuation-mutated nonstructural genes of the virus are used as a backbone into which the structural genes of a second flavivirus strain are inserted. These chimeric viruses elicit pronounced immunogenicity yet lack the accompanying clinical symptoms of viral disease. The attenuated chimeric viruses are effective as immunogens or vaccines and may be combined in a pharmaceutical composition to confer simultaneous immunity against several strains of pathogenic flaviviruses.

Abstract: The invention relates to a method for detecting, in vitro, an infection with a microorganism, such as the hepatitis C virus, in a biological sample, by simultaneously detecting an antigen of this microorganism and the antibodies against this same antigen, and also to the reagents and kits implementing this method.

Abstract: The invention encompasses nucleic acid molecules containing transcription units which encode the flavivirus M and E protein antigens. The flaviviruses include Japanese encephalitis virus, dengue, yellow fever virus and St. Louis encephalitis virus. The nucleic acids function to provide the M and E protein antigens when the nucleic acid resides in an appropriate host cell, especially when the host cell is the cell of a subject. The invention also encompasses a vaccine whose active agent is the nucleic acid. The invention further encompasses the cultured host cells when they contain within them nucleic acid molecules containing the transcription units. The invention in addition encompasses a method of immunizing a subject against flavivirus infection by administering to the subject an effective amount of a vaccine containing a nucleic acid molecule containing the transcription unit of the invention.

Abstract: Embodiments herein report compositions, methods and uses for dengue-4 (DENV-4) virus constructs. Some embodiments concern a composition that includes, but is not limited to, DENV-4 virus constructs alone or in combination with other constructs, can be used in a vaccine composition to induce an immune response in a subject. In certain embodiments, compositions can include constructs of more than one serotypes of dengue virus, such as dengue-1 virus, dengue-2 virus, or dengue-3 virus in combination with DENV-4 virus constructs disclosed herein. In other embodiments, DENV-4 constructs disclosed herein can be combined in a composition with other flavivirus constructs to generate a vaccine against more than one flavivirus. Other embodiments provide methods and uses for DENV-4 virus constructs in vaccine compositions that when administered to a subject induce an immune response in the subject against DENV-4 that is improved by modified constructs compared to other vaccine compositions.

Abstract: Neuroinvasive and neurovirulent strain of the West Nile virus, named IS-98-ST1, nucleic acid molecules derived from its genome, proteins and peptides encoded by said nucleic acid molecules, and uses thereof.

Abstract: The disclosure provides chimeric West Nile/Dengue viruses comprising non-coding regions, non-structural proteins, and a C protein from a West Nile virus and prM and E proteins from a Dengue virus. Also disclosed are methods of using the chimeric viruses in diagnosis of Dengue viral infection, assessment of candidate Dengue virus vaccine efficacy, and production of Dengue prM and E proteins.

Abstract: The invention provides polypeptides and virus-like particles having, for example, an ability to induce an immune response to flaviviruses. The polypeptides can include C15, prM, and E polypeptide sequences.

Abstract: Use of a recombinant lentiviral vector comprising a polynucleotide fragment encoding at least one protein of a virus of the family Flaviviridae or an immunogenic peptide of at least 8 amino acids of said protein, for preparing a pharmaceutical composition intended for the prevention and/or the treatment of a Flaviviridae infection in a sensitive species.

Abstract: The present disclosure provides TC-83 VEE-derived replicons, alphaviral replicon particles and immunogenic compositions containing TC-83 alphaviral replicon particles which direct the expression of at least one antigen when introduced into a suitable host cell. The TC-83 VEE-derived ARPs described herein are improved in that they are subject to a lower vector-specific immune response than prior art ARPs.

Abstract: The invention concerns a method for early detection of a flavivirus-induced infection, comprising the detection of the flavivirus non-structural glycoprotein NS1 in a biological sample during the clinical phase of the infection, by an immunological method using at least two identical or different antibodies, the first antibody consisting of polyclonal or monoclonal antibodies pre-selected for their high affinity for said NS1 protein hexameric in shape.

Abstract: The present invention provides formulations of an immunogenic composition containing a purified inactivated Dengue virus, and method for producing them.

Abstract: The invention provides attenuated Flavivirus vaccines, such as vaccines against Japanese encephalitis virus and West Nile virus, as well as methods of making and using these vaccines.

Abstract: The present invention relates to the production and uses of flavivirus replicons and flavivirus particles and reporter virus particles. The present invention relates to the production and uses of chimeric and codon-optimized flavivirus virus replicons and flavivirus virus particles and reporter virus particles.

Abstract: Described herein are iDNA vectors and vaccines and methods for using the same. The iDNA generates live attenuated vaccines in eukaryotic cells in vitro or in vivo for pathogenic RNA viruses, particularly yellow fever virus and Venezuelan equine encephalitis virus. When iDNA is injected into the vaccine recipient, RNA of live attenuated virus is generated by in vivo transcription in the recipient's tissues. This initiates production of progeny attenuated viruses in the tissues of the vaccine recipient, as well as elicitation of an effective immune response protecting against wild-type, non-attenuated virus.

Abstract: Novel attenuating deletions of Chikungunya virus E2 polypeptides are provided as are attenuated viruses comprising the deletions. Also provided are immunogenic compositions comprising the attenuated viruses and methods of producing such viruses in cells (such as insect cells). Viruses of the embodiments can be used for immunization of animals to provide protection from the pathogenic effects of Chikungunya virus infection.

Abstract: Chimeric flaviviruses that are avirulent and immunogenic are provided. The chimeric viruses are constructed to contain amino acid mutations in the nonstructural viral proteins of a flavivirus. Chimeric viruses containing the attenuation-mutated nonstructural genes of the virus are used as a backbone into which the structural genes of a second flavivirus strain are inserted. These chimeric viruses elicit pronounced immunogenicity yet lack the accompanying clinical symptoms of viral disease. The attenuated chimeric viruses are effective as immunogens or vaccines and may be combined in a pharmaceutical composition to confer simultaneous immunity against several strains of pathogenic flaviviruses.

Abstract: The present invention relates to novel druggable regions discovered in dengue virus envelope glycoprotein, or dengue virus E protein, which is a class II viral E protein. The present invention further relates to methods of using the druggable regions to screen potential candidate therapeutics for diseases caused by viruses having class II E proteins, e.g. viral fusion inhibitors.

Abstract: An amphipathic helix at the approximate N-terminus of Hepatitis C virus (HCV) nonstructural proteins mediates the association of these proteins with cytoplasmic membranes in infected cells. This association is essential for replication. Thus, assessing the ability of compounds or protocols to disrupt the association of such helices with cytoplasmic membranes permits identification of compounds and protocols which are useful in the treatment of HCV infection. Also useful in the invention are mimics, or function-disrupting ligands, of an amphipathic helix of the nonstructural proteins described herein and antibodies and fragments thereof immunoreactive with said helix.

Abstract: This invention relates to adjuvant formulations comprising various combinations of triterpenoids, sterols, immunomodulators, polymers, and Th2 stimulators; methods for making the adjuvant compositions; and the use of the adjuvant formulations in immunogenic and vaccine compositions with different antigens. This invention further relates to the use of the formulations in the treatment of animals.

Abstract: The present invention relates to a method for reducing the occurrence and severity of infectious diseases, especially infectious diseases in which lipid-containing infectious viral organisms are found in biological fluids, such as blood. The present invention employs solvents useful for extracting lipids from the lipid-containing infectious viral organism thereby creating modified viral particles with reduced infectivity and enhanced antigenicity. The present invention provides vaccine compositions, comprising these modified viral particles with reduced infectivity and enhanced antigenicity, optionally combined with a pharmaceutically acceptable carrier or an immunostimulant. The vaccine composition is administered to a patient to provide protection against the lipid-containing infectious viral organism. The vaccine compositions of the present invention include combination vaccines of modified viral particles obtained from one or more strains of a virus and/or one or more types of virus.

Abstract: Compositions that include at least a portion of at least one pathogen-associated molecular pattern and at least a portion of at least one member selected from the group consisting of a Den1 viral envelope protein, a Den2 viral envelope protein, a Den3 viral envelope protein and a Den4 viral envelope protein are employed in methods to stimulate a protective immune response in a subject.

Abstract: Provided herein are monoclonal antibodies specific to dengue virus as well as their antigen-binding fragments, and functional variants. Also disclosed are uses thereof for treating or diagnosing dengue virus infection.

Abstract: The invention features novel attenuated dengue virus mutants and compositions thereof.

Abstract: The present invention discloses an attenuated recombinant alphavirus that is incapable of replicating in mosquito cells and of transmission by mosquito vectors. These attenuated alphavirus may include but is not limited to Western Equine Encephalitis virus, Eastern equine encephalitis virus, Venezuelan equine encephalitis virus or Chikungunya virus. The present invention also discloses the method of generating such alphaviruses and their use as immunogenic compositions.

Abstract: The present invention is drawn to generating attenuated and less cytopathic forms of New World alphaviruses that can be used in immunogenic compositions as vaccines against both Old and New World alphaviruses. In this regard, the present invention discloses that the N-terminal, ˜35-aa-long peptide of VEEV, EEEV and, most likely, of WEEV capsid proteins plays the most critical role in the downregulation of cellular transcription and development of cytopathic effect. The identified, VEEV-specific peptide, CVEE30-68, includes two domains with distinguished functions. The integrity of both domains determines not only the intracellular distribution of CVEE, but is also essential for direct capsid function in the inhibition of transcription. The replacement of the N-terminal fragment of CVEE by its SINV-specific counterpart in VEEV TC-83 genome does not affect virus replication in vitro, but makes it less cytopathic and more attenuated in vivo.

Abstract: The present invention relates to Salmonid alphavirus E2-protein expressed in a bacterial expression system, its use in medicine, vaccines comprising such protein, methods for the preparation of such proteins and methods for the preparation of vaccines comprising such proteins.

Abstract: The invention concerns recombinant DNA's comprising cDNA of genomic RNA of a Salmonidae alphavirus preceded by a spacer sequence, under the control of a suitable promoter. Said recombinant DNA's are useful for obtaining expression vectors, producing recombinant Salmonidae alphavirus, and for obtaining vaccines.

Abstract: A menu of mutations was developed that is useful in fine-tuning the attenuation and growth characteristics of dengue virus vaccines.

Abstract: A menu of mutations was developed that is useful in fine-tuning the attenuation and growth characteristics of dengue virus vaccines.