Abstract: Stable pharmaceutical compositions comprising recombinant adeno-associated virus (AAV) virions are described. The compositions provide protection against loss of recombinant AAV vector genomes and transduceability under conditions such as exposure to cycles of freezing and thawing and storage in glass or polypropylene vials. The compositions comprise recombinant AAV virions in combination with one or more dihydric or polyhydric alcohols, and, optionally, a detergent, such as a sorbitan ester. Also described are methods of using the compositions.

Abstract: A double-effective vaccine vector against foot-and-mouth disease virus having a bicistronic expression vector sequence, the bicistronic expression vector sequence is an antisense gene sequence capable of conjugating with 5? UTR of RNA of the foot-and-mouth disease virus genome and an intact sequence of VP1 structural protein gene of the foot-and-mouth disease virus. Animal experiments show that the vaccine vector provides double effects in terms of gene therapy and gene immunization for the prevention and treatment of foot-and-mouth disease in animals. Also provided are construction methods and methods of use of the vaccine vector.

Abstract: The present invention relates to a vaccine composition comprising a carbohydrate polymer comprising mannose and flu antigen(s) (e.g. whole inactivated influenza virus) in admixture, and a method of immunising a subject comprising the step of administering the vaccine composition to a subject.

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: The present invention relates to a recombinant vector for transcription of the Newcastle disease virus (NDV) genome, a strain of attenuated recombinant NDV with a surface antigen of pathogenic NDV prepared by the vector, a method of preparing a recombinant NDV having low pathogenicity and high protectivity efficiency against Newcastle disease (ND) using the vector, and a vaccine against ND containing the recombinant NDV.

Abstract: Multivalent, multispecific molecules having at least one specificity for a pathogen and at least one specificity for the HLA class II invariant chain (Ii) are administered to induce clearance of the pathogen. In addition to pathogens, clearance of therapeutic or diagnostic agents, autoantibodies, anti-graft antibodies, and other undesirable compounds may be induced using the multivalent, multispecific molecules.

Abstract: The present invention provides vectors that contain and express in vivo the genes encoding VP2 and VP5 of African Horse Sickness Virus or an epitope thereof that elicits an immune response in a horse against African horse sickness virus, compositions comprising said vectors, methods of vaccination against African horse sickness virus, and kits for use with such methods and compositions.

Abstract: A method for controlling a flavivirus entry into a cell, kits for assaying the flavivirus entry into the cell, and methods of treating and preventing flaviviruses infections are disclosed, together with vaccine and pharmaceutical compositions.

Abstract: The invention concerns the use of a virus for the preparation of a medicament for the vaccination or treatment of a neonatal or prenatal animal, including a human, wherein the virus is capable of infecting the cells of the neonatal or prenatal animal, including a human, but not capable of being replicated to infectious progeny virus in the neonatal or prenatal animal, including a human. The virus is preferably a Modified Vaccinia Virus Ankara. In particular, the invention concerns an attenuated virus, which is derived from Modified Vaccinia Ankara virus, wherein the MVA-BN virus, or a derivative thereof, induces at least substantially the same level of immunity in vaccinia virus prime/vaccinia virus boost regimes when compared to DNA prime/vaccinia virus boost regimes.

Abstract: A herpes simplex virus is disclosed in which the herpes simplex virus genome comprises a nucleic acid sequence encoding an ING4 polypeptide.

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: Chimeric alphaviruses and alphavirus replicon particles are provided, including methods of making and using same. Specifically, alphavirus particles are provided having nucleic acid molecules derived from one or more alphaviruses and structural proteins (capsid and/or envelope) from at least two or more alphaviruses. Methods of making, using, and therapeutic preparations containing the chimeric alphavirus particle, are disclosed.

Abstract: The present invention provides novel antibody sequences that bind human cytomegalovirus (hCMV) and neutralize hCMV infection. The novel sequences can be used for the medical management of hCMV infections, in particular for preparing pharmaceutical compositions to be used in the prophylactic or therapeutic treatment of hCMV infections.

Abstract: High potency antibodies, including immunologically active fragments thereof, having high kinetic association rate constants and optional high affinities are disclosed, along with methods for producing such antibodies. The high potency antibodies disclosed herein are of either the neutralizing or non-neutralizing type and have specificity for antigens displayed by microorganisms, especially viruses, as well as antigenic sites present on cancer cells and on various types of toxins, and the products of toxins. Processes for producing high potency neutralizing antibodies and increasing the potency of already existing neutralizing antibodies are also described. Methods of using said antibodies in the prevention and/or treatment of diseases, especially diseases induced or caused by viruses, are disclosed.

Abstract: The invention provides binding molecules that specifically bind to rabies virus and are capable of neutralizing the virus. The invention further provides nucleic acid molecules encoding the binding molecules, compositions comprising the binding molecules and methods of identifying or producing the binding molecules. The binding molecules can be used in the diagnosis, prophylaxis and/or treatment of a condition resulting from rabies virus. Preferably, they can be used in the post-exposure prophylaxis of rabies.

Abstract: The present invention relates to the enhanced production of metabolites by a process whereby a carbon source is oxidized with a fermentative microbe in a compartment having a portal. An electron acceptor is added to the compartment to assist the microbe in the removal of excess electrons. The electron acceptor accepts electrons from the microbe after oxidation of the carbon source. Other transfers of electrons can take place to enhance the production of the metabolite, such as acids, biofuels or brewed beverages.

Abstract: The present invention relates to stabilizers for compositions, including immunogenic compositions, such as vaccine compositions, comprising one or more live attenuated flaviviruses, to bulk vaccine compositions stabilized with these stabilizers, particularly dry vaccine compositions prepared from these bulk vaccine compositions, and to methods for stabilizing one or more live attenuated flaviviruses.

Abstract: A method of inhibiting a retrovirus production, the method includes administering a retrovirus inhibitor selected from at least one of a TULA protein, a fragment of TULA containing a UBA domain, a UBA domain of TULA, a peptide mimicking TULA, a peptide mimicking a fragment of TULA containing a UBA domain, a peptide mimicking a UBA domain of TULA, a polynucleotide encoding TULA, a polynucleotide encoding a fragment of TULA containing a UBA domain, a polynucleotide encoding a UBA domain of TULA, a polynucleotide encoding a peptide mimicking TULA, a polynucleotide encoding a peptide mimicking a fragment of TULA containing a UBA domain, a polynucleotide encoding a peptide mimicking the UBA domain of TULA, fragments thereof, muteins thereof, variants and splice variants thereof, and combinations thereof to a cell or a tissue infected by a retrovirus.

Abstract: The present invention is directed to enhancing the immune response of a human in need of protection against IV infection by administering in vivo, into a tissue of the human, at least one polynucleotide comprising one or more regions of nucleic acid encoding an IV protein or a fragment, a variant, or a derivative thereof. The present invention is further directed to enhancing the immune response of a human in need of protection against IV infection by administering, in vivo, into a tissue of the human, at least one IV protein or a fragment, a variant, or derivative thereof. The IV protein can be, for example, in purified form or can be an inactivated IV, such as those present in inactivated IV vaccines. The polynucleotide is incorporated into the cells of the human in vivo, and an immunologically effective amount of an immunogenic epitope of an IV, or a fragment, variant, or derivative thereof is produced in vivo.

Abstract: The present invention provides a genetically modified PRRS virus, methods to make it and related polypeptides, polynucleotides and various components. Vaccines comprising the genetically modified virus and polynucleotides are also provided.