Abstract: The present invention concerns a poxviral particle having a targeted infection specificity conferred by an heterologous ligand moiety present at the surface of said poxviral particle and capable of specifically recognizing and binding to an anti-ligand molecule localized at the surface of target cells. The present invention further relates to a vector comprising a nucleotide sequence encoding a chimeric polypeptide including such an heterologous ligand moiety and all or part of a natural poxviral surface polypeptide. The present invention additionally concerns compositions comprising said poxviral particle or said vector as well as their use for therapeutic and prophylactic purposes. The invention is of very special interest in gene therapy applications, in particular in preventing or treating cancer in mammals.

Abstract: The invention relates to a chimeric monomer-dimer hybrid protein wherein said protein comprises a first and a second polypeptide chain, said first polypeptide chain comprising at least a portion of an immunoglobulin constant region and a biologically active molecule, and said second polypeptide chain comprising at least a portion of an immunoglobulin constant region without the biologically active molecule of the first chain. The invention also relates to methods of using and methods of making the chimeric monomer-dimer hybrid protein of the invention.

Abstract: The present invention relates to isolation of a novel Hepatitis C virus, more particularly, the present invention relates to a viral class Hepatitis C, polypeptides, polynucleotide, vaccine and antibodies derived there from.

Abstract: A cell-free method for translation and assembly of retroviral, particularly HIV, capsid and capsid intermediates is disclosed. Also disclosed are novel HIV capsid assembly intermediates and novel host proteins which bind to such assembly intermediates. The invention also includes a screening method for compounds that alter retrovirus capsid assembly, and a method of treating HIV using compounds which inhibit the HIV capsid assembly pathway.

Abstract: H-2 class I negative, HLA-A2.1 transgeniic HHD mice were used for a comparative evaluation of the immunogenicity of HLA-A2.1 restricted human tumor-associated CTL epitopes. A hierarchy was established among these epitopic peptides injected into mice in IFA which correlates globally with their capacity to bind and stabilize HLA-A2.1 molecules. Co-injection of a helper peptide enhanced most CTL responses. In contrast, classical HLA class I transgenic mice which still express their own class I molecules did not, in most cases, develop H.A.-A2.1-restricted CTL responses under the same experimental conditions. Different monoepitopic immunization strategies of acceptable clinical usage were compared in HHD mice. Recombinant Ty-virus-like particles, or DNA encoding epitopes fused to the hepatitis B virus middle envelope protein gave the best results. Using this latter approach and a melanoma-based polyepitope construct, CTL responses against five distinct epitopes could be elicited simultaneously in a single animal.

Abstract: A unique HCV RNA molecule is provided having an enhanced efficiency of establishing cell culture replication. Novel adaptive mutations have been identified within the HCV non-structural region that improves the efficiency of establishing persistently replicating HCV RNA in cell culture. This self-replicating polynucleotide molecule contains, contrary to all previous reports, a 5?-NTR that can be either an A as an alternative to the G already disclosed and therefore provides an alternative to existing systems comprising a self-replicating HCV RNA molecule. The G-->A mutation gives rise to HCV RNA molecules that, in conjunction with mutations in the HCV non-structural region, such as the G(2042)C/R mutations, possess greater efficiency of transduction and/or replication. These RNA molecules when transfected in a cell line are useful for evaluating potential inhibitors of HCV replication.

Abstract: A method for enhancing an immune response to a nucleic acid vaccine comprising administering to an animal a nucleic acid construct encoding a fusion protein comprising a processing component and an antigenic polypeptide of interest wherein said processing component provides heterogeneous processing of the antigenic polypeptide when the nucleic acid construct is expressed in a host cell and a resulting enhancement of the immune response. The processing component is derived from an N-terminal portion of PORF2 of Hepatitis E virus.

Abstract: The present invention relates to the human cellular protein glutathione peroxidase-gastrointestinal as a target for medical intervention against Hepatitis C virus (HCV) infections. Furthermore, the present invention relates to a method for the detection of compounds useful for prophylaxis and/or treatment of Hepatitis C virus infections and a method for detecting Hepatitis C virus infections in an individual or in cells. Also compositions, compounds, nucleic acid molecules (such as aptamers), mono- or polyclonal antibodies are disclosed which are effective for the treatment of HCV infections, and methods for prophylaxis and/or treatment of Hepatitis C virus infections or for the regulation of Hepatitis C virus production are disclosed.

Abstract: Antigenic isolates and vaccines for Infectious Bursal Disease Virus include variants of the molecular Group 6 family of IBDV isolates, in particular the 28-1 isolate.

Abstract: The sent invention relates to a recombinant poxvirus vector capable of expressing two or more homologous, foreign sequences, which derive from different variants of a microorganism, and which have a homology of 50% or above. The invention further relates to a method for preparing such recombinant poxvirus and the use of such recombinant poxvirus as medicament or vaccine. Additionally, a method for affecting preferably inducing, an immune response in a living animal, including a human, is provided.

Abstract: Nucleic acid sequences, oligonucleotides and a method for detection of SRSV, in particular, a virus which belongs to Genotype II (GII), in clinical examinations, public health examinations, food evaluations and food poisoning examinations are provided.

Abstract: A method and device for determining a feline immunodeficiency virus infection or vaccination in an animal. The method includes contacting a biological sample from a felid with various FIV polypeptides and determining the binding of antibodies in the sample to the polypeptides. The determination of whether an animal is infected with FIV or has been vaccinated against FIV can be determined by measuring the animal's immune response to an FIV env polypeptide. A device for detecting FIV antibodies is provided.

Abstract: The combination of HIV proteins Tat and Nef is chemotactic for CD4+ cells. Utilizing the capacity of Tat and Nef to modulate CD4+ cell trafficking and infiltration, the invention provides various treatment modes for individuals infected with HIV. The invention further provides treatment modes for other localized diseases by controlling CD4+ cell trafficking and infiltration. In particular, the invention provides methodology for promoting CD4+ cell chemotaxis to a localized site of infection as a means of augmenting the efficacy of extant chemotherapeutic methods. The invention further provides methodology for diverting CD4+ cell infiltration from a localized site where the presence of CD4+ cells is detrimental to the clinical outcome, by providing a composition comprising Tat and Nef at a distinct site, such as blood, within the individual where the accumulation of CD4+ cells is less detrimental.

Abstract: The present invention is directed to ligand/receptor and antigen/antibody specificity exchangers comprising a saccharide or glycoconjugate. Methods of making these specificity exchangers and methods of using said specificity exchangers to treat or prevent human disease are described herein.

Abstract: The present invention refers to a polynucleotide comprising the nucleic acid sequence as depicted in SEQ ID NO:1, 2 or 3 or the fragment or derivative thereof, or a polynucleotide hybridizing with the nucleic acid sequence as depicted in SEQ ID NO:1, 2 or 3. The present invention further refers to polypeptides encoded by the nucleic acid sequence or the fragment or derivative thereof as depicted in SEQ ID NO:1, 2 or 3. The polynucleotides and polypeptides may be used as medicaments, vaccines or diagnostic substances, preferably for the treatment, prevention or diagnostic of HIV infections.

Abstract: Unique Solenopsis invicta viruses (SINV) have been identified and their genome sequenced. Oligonucleotide primers have been developed using the isolated nucleic acid sequences of the SINV. The viruses are used as a biocontrol agent for control of fire ants.

Abstract: The present invention is directed to ligand/receptor and antigen/antibody specificity exchangers comprising a saccharide or glycoconjugate. Methods of making these specificity exchangers and methods of using said specificity exchangers to treat or prevent human disease are described herein.

Abstract: Transposon linker insertion mutagenesis of a full-length infectious clone of the highly pathogenic classical swine fever virus (CSFV) isolate Brescia (pBIC) was used to identify genetic determinants of CSFV virulence and host range. A virus mutant, RB-C22 (RB-C22v), possessing a 19-residue tag insertion at the carboxyl end of E1 was constructed. RB-C22v and the parental virus pBIC (pBICv) exhibited similar growth characteristics on primary porcine macrophage cell cultures although RB-C22v produced significantly smaller plaques on SK6 cell cultures. In vivo, RB-C22v was markedly attenuated in swine. In contrast with pBIC infection, where mortality was 100%, all RB-C22v-infected pigs survived infection remaining clinically normal. Additionally, chimeras of the Brescia strain and the attenuated vaccine strain CS were constructed and evaluated for viral virulence in swine. Chimeras 138.8v and 337.14v, chimeras containing the E2 glycoprotein of CS and chimeric virus 319.

Abstract: The present invention provides a Venezuelan equine encephalitis virus replicon RNA useful in the development of stable lines of mammalian, avian and insect cells in which these replicons will persistently replicate. Venezuelan equine encephalitis (VEE) virus replicons contain a number of unique adaptive mutations that make the replicons noncytopathic. The replicons remain resistant to IFN-?/?. Replicon replication leads to high-level production of heterologous proteins, which are encoded by the replicons' genome and are under the control of a viral subgenomic promoter. Also provided are methods of screening for inhibitory compounds of Venezuelan equine encephalitis virus replication and eastern equine encephalitis virus replication.

Abstract: The invention relates to a process for generating infectious Newcastle disease virus (NDV) entirely from cloned full-length cDNA and to the use of vaccines and diagnostic assays generated with and derived from the process. The process offers the possibility to modify the NDV genome by means of genetic modification and allows for the introduction of mutations, deletions and/or insertions. The process can be used to modify the virulence of NDV, thus generating new attenuated live vaccines with enhanced properties. The process can be used to modify the antigenic make-up of NDV, to allow the generation of live NDV marker vaccines that can be serologically distinguished from NDV field strains.