Abstract: The present invention relates to enveloped RNA viruses. The invention in particular relates to the generation of superior antigens for mounting an immune response by first identifying then mutating the immunosuppressive domains in fusion proteins of enveloped RNA viruses resulting in decreased immunosuppressive properties of viral envelope proteins from the viruses.

Abstract: The present invention concerns uses of immune suppressive domains. In particular, the present invention concerns a use of an immune suppressive domain (ISD) for immune suppression and for reduction of inflammation.

Abstract: The present invention concerns uses of immune suppressive domains. In particular, the present invention concerns a use of an immune suppressive domain (ISD) for immune suppression and for reduction of inflammation.

Abstract: The invention provides for novel immunostimulating peptides, peptide constructs and compositions. Further, the invention provides for methods of treatment utilising the peptides, peptide constructs and compositions.

Abstract: The present invention relates to enveloped RNA viruses. The invention in particular relates to the generation of superior antigens for mounting an immune response by first identifying then mutating the immunosuppressive domains in fusion proteins of enveloped RNA viruses resulting in decreased immunosuppressive properties of viral envelope proteins from the viruses.

Abstract: The present invention relates to enveloped RNA viruses. The invention in particular relates to the generation of superior antigens for mounting an immune response by first identifying then mutating the immunosuppressive domains in fusion proteins of enveloped RNA viruses resulting in decreased immunosuppressive properties of viral envelope proteins from the viruses.

Abstract: The invention provides for novel immunostimulating peptides, peptide constructs and compositions. Further, the invention provides for methods of treatment utilising the peptides, peptide constructs and compositions.

Abstract: The present invention concerns uses of immune modulating and immune suppressing peptides from human endogenous retroviruses. In particular, the present invention concerns a use of an immune suppressive peptide for immune suppression and for reduction of inflammation.

Abstract: The present invention relates to enveloped RNA viruses. The invention in particular relates to the generation of superior antigens for mounting an immune response by first identifying then mutating the immunosuppressive domains in fusion proteins of enveloped RNA viruses resulting in decreased immunosuppressive properties of viral envelope proteins from the viruses.

Abstract: The present invention concerns uses of immune suppressive domains. In particular, the present invention concerns a use of an immune suppressive domain (ISD) for immune suppression and for reduction of inflammation.

Abstract: The present invention relates to an adjuvant comprising at least one immunosuppressive domain for use in a vaccine.

Abstract: The present invention relates to inhibition of microRNAs (miRNA), other types of RNA and RNA-binding proteins. In particular the present invention relates to nucleic acid sequences that are circular and allow inhibition of the interactions between microRNAs and their RNA target and being resistant to degradation by exonucleases. Also, the present invention relates to nucleic acid sequence that are circular and acts as an RNA blocker or protein decoy.

Abstract: The present invention relates to enveloped RNA viruses. The invention in particular relates to the generation of superior antigens for mounting an immune response by first identifying then mutating the immunosuppressive domains in fusion proteins of enveloped RNA viruses resulting in decreased immunosuppressive properties of viral envelope proteins from the viruses.

Abstract: The present invention concerns a method for removal of immunosuppressive effects of envelope glycoproteins derived from human immunodeficiency virus, such as for vaccination purposes and for generation of neutralizing antibodies to HIV. The invention further concerns vaccines and antibodies obtainable by the method, as well as the use of such vaccines and antibodies.

Abstract: The invention relates to chimeric polytropic viral envelope polypeptides and uses thereof, as well as to polynucleotides encoding said chimeric polypeptides and constructs comprising said polypeptides and/or polynucleotides. The invention also relates to chimeric retroviral envelope polypeptides, polynucleotides and vectors encoding said chimeric retroviral envelope polypeptides, virus particles and cells harboring said chimeric envelope polypeptides. Said chimeric polypeptide comprise an envelope polypeptide, or fragment thereof, and a polypeptide sequence of a receptor binding region, ligand or polypeptide sequence of a ligand binding region, and optionally a linker sequence. The invention include methods of targeting receptors, methods of treatment and methods for delivery of agents using said chimeric retroviral envelope polypeptides. The invention is applicable for directed targeting and controlled fusion of virus particles with other cellular membranes.

Abstract: The present invention relates to a new class of virus fusion inhibitors or virus entry inhibitors. More specifically the present invention relates to bivalent molecules that are pre-fusion inhibitors of viruses that makes use of the type (1) fusion mechanism belonging to the groups consisting of Othomyxoviridae, Paramyxoviridae, Retroviridae, Filoviridae and Coronaviridae, in particular HIV. The bivalent molecules of the present invention are molecules that comprise a first part capable of mimicking the function of a mammalian cell receptor, and a second part capable of binding to a virus, preferably HIV, resulting in the neutralization of the virus which is thus rendered harmless. Further, the present invention relates to compositions comprising the pre-fusion inhibitors, as well as to methods for obtaining the pre-fusion inhibitors and the use of the pre-fusion inhibitors.

Abstract: Immunogenic HIV-1 envelope polypeptides are provided, wherein specific amino acid residues are mutated to repress immunosuppression in GP41, thereby boosting the immune response against HIV-1. Specifically, mutation of those specific residues does not affect the fusogenic properties of the viral particle and/or the overall protein structure of the viral envelope protein. The invention further provides peptides and antigens based on the immunogenic HIV-1 envelopes as well as nucleic acid sequences and vectors encoding those. Moreover, biological entities such as viral particles are provided, as well as use of the provided components for preparation of a vaccine against HIV-1/AIDS.

Abstract: The invention relates to chimeric polytropic viral envelope polypeptides and uses thereof, as well as to polynucleotides encoding said chimeric polypeptides and constructs comprising said polypeptides and/or polynucleotides. The invention also relates to chimeric retroviral envelope polypeptides, polynucleotides and vectors encoding said chimeric retroviral envelope polypeptides, virus particles and cells harbouring said chimeric envelope polypeptides. Said chimeric polypeptide comprise an envelope polypeptide, or fragment thereof, and a polypeptide sequence of a receptor binding region, ligand or polypeptide sequence of a ligand binding region, and optionally a linker sequence. The invention include methods of targeting receptors, methods of treatment and methods for delivery of agents using said chimeric retroviral envelope polypeptides. The invention is applicable for directed targeting and controlled fusion of virus particles with other cellular membranes.

Abstract: The present invention relates to a purified polypeptide, which is capable of mediating infection of a cell, by use of the polytropicixenotropic receptor encoded by the Rmc1 locus from a NIH Swiss inbred NFS/N mouse for entry, and unable of mediating infection of a cell by use of a human polytropic/xenotropic receptor encoded by the human RMC1 locus. The present invention especially relates to an envelope protein from the Murine leukaemia Virus (MLV) strain SL3-2, which is capable of infecting murine cells through usega of the polytropic receptor encoded by the Rruc1 locus, but lacks the ability of infecting human cells expressing the corresponding xenotropic receptor encoded by the RMC locus. The present invention furthermore demonstrate that replacements of at least one specified amino acid in the polypeptide can alter the tropism and enable the SL3-2 envelope to infect a human cell by use of the human polytropic/xenotropic receptor encoded by the RMC1 locus for entry.