Abstract: The invention relates to nucleic acids, including lentiviral vectors and lentiviral vector particles, encoding at least one Hepatitis B virus (HBV) envelop surface of genotypes A and/or C antigen, at least one polymerase of genotypes A and/or C antigen, at least one HBX protein of genotypes A and/or C antigen, at least one HBV consensus core of genotypes A and/or C antigen, and at least one HBV consensus core MHCI and MHCII epitopes of genotypes A and/or C antigen. The invention encompasses these lentiviral vectors and lentiviral vector particles, methods of making the vectors, and their use, including medicinal uses. The lentiviral vectors and lentiviral vector particles are for use in administering to humans to induce immune responses against the HBV antigens.

Abstract: The invention relates to the regulated expression of a chimeric antigen receptor (CAR) within a lentiviral vector. The CAR comprises a hook-binding domain that interacts with a hook, preferably encoded by the same lentiviral vector, which prevents proper processing and release of the CAR to the cell membrane. The invention encompasses vectors, methods of making the vectors, and methods of using them, including medicinal uses. The vectors can be used for administration to humans to induce immune responses and to treat cancers and tumors.

Abstract: The present invention relates to compositions, methods, and uses employing lentiviral vector particles for induction of an immune response by administration to a human, wherein the lentiviral vector particles comprise a lentiviral vector, wherein the DNA of the lentiviral vector comprises a promoter directing expression of a HTLV-1 p12p30-Tax-HBZ fusion protein. The invention encompasses these vectors, methods of making the vectors, and methods of using them, including medicinal uses.

Abstract: The invention encompasses a lentiviral packaging vector comprising a non-subtype B gag-pol sequence, particularly a subtype D gag-pol sequence. The invention further encompasses methods for making and using these vectors. The invention further encompasses lentiviral vector particles comprising HIV-1 non-subtype B Gag and/or Pol proteins.

Abstract: The present invention relates to the insertion of an MHC class I, MHC Class II, or ?2 microglobulin upstream promoter sequence into a lentiviral vector to increase viral titers. The invention encompasses these vectors, methods of making the vectors, and methods of using them, including medicinal uses.

Abstract: The present invention relates to the design of gene transfer vectors and especially provides lentiviral gene transfer vectors suitable for either a unique administration or for iterative administration in a host, and to their medicinal application (such as vaccination against Immunodeficiency Virus, especially suitable in human hosts). Gene transfer vectors can be either integrative or non-integrative vectors. The invention encompasses prophylactic, therapeutic, symptomatic, and curative treatments of animals, including humans, as well as gene therapy and vaccination in vivo.

Abstract: The invention relates to compositions and methods based on the use of viral G proteins to pseudotype vectors. The viral G proteins can be expressed by expression vectors and can be used to pseudotype lentiviral vectors. The viral G proteins can be included in a combination of compounds for sequential administration to a mammalian host.

Abstract: The present invention relates to the insertion of a promoter sequence from an MHC class I gene promoter into a lentiviral vector in order to direct the transcription of a transgene, which preferably encodes an immunogenic polypeptide to be expressed in a mammalian cell host, preferably APC (DCs). The invention encompasses these vectors, methods of making the vectors, and methods of using them, including medicinal uses.

Abstract: The present invention relates to the insertion of an MHC class I, MHC Class II, or ?2 microglobulin upstream promoter sequence into a lentiviral vector to increase viral titers. The invention encompasses these vectors, methods of making the vectors, and methods of using them, including medicinal uses.

Abstract: The present invention relates to the design of gene transfer vectors and especially provides lentiviral gene transfer vectors suitable for either a unique administration or for iterative administration in a host, and to their medicinal application (such as vaccination against Immunodeficiency Virus, especially suitable in human hosts). Gene transfer vectors can be either integrative or non-integrative vectors. The invention encompasses prophylactic, therapeutic, symptomatic, and curative treatments of animals, including humans, as well as gene therapy and vaccination in vivo.

Abstract: The present invention relates to the insertion of a promoter sequence from an MHC class I gene promoter into a lentiviral vector in order to direct the transcription of a transgene, which preferably encodes an immunogenic polypeptide to be expressed in a mammalian cell host, preferably APC (DCs). The invention encompasses these vectors, methods of making the vectors, and methods of using them, including medicinal uses.

Abstract: The present invention relates to the design of gene transfer vectors and especially provides lentiviral gene transfer vectors suitable for either a unique administration or for iterative administration in a host, and to their medicinal application (such as vaccination against Immunodeficiency Virus, especially suitable in human hosts). Gene transfer vectors can be either integrative or non-integrative vectors. The invention encompasses prophylactic, therapeutic, symptomatic, and curative treatments of animals, including humans, as well as gene therapy and vaccination in vivo.

Abstract: The present invention relates to the design of gene transfer vectors and especially provides lentiviral gene transfer vectors suitable for either a unique administration or, for iterative administration in a host, and to their medicinal application (such as vaccination against Immunodeficiency Virus, especially suitable in human hosts). Gene transfer vectors are either integrative or non-integrative (NI) vectors, dependently upon the purpose of their use. The invention relates to the use of gene transfer vectors for unique or for multiple in vivo administration into a host in need thereof. The field of application of the present application concerns in particular animal treatment or treatment of human being (e.g. prophylactic or therapeutic or symptomatic or curative treatment), gene therapy or vaccination in vivo.

Abstract: The present invention relates to the design of gene transfer vectors and especially provides lentiviral gene transfer vectors suitable for either a unique administration or, for iterative administration in a host, and to their medicinal application (such as vaccination against Immunodeficiency Virus, especially suitable in human hosts). Gene transfer vectors are either integrative or non-integrative (NI) vectors, dependently upon the purpose of their use. The invention relates to the use of gene transfer vectors for unique or for multiple in vivo administration into a host in need thereof. The field of application of the present application concerns in particular animal treatment or treatment of human being (e.g. prophylactic or therapeutic or symptomatic or curative treatment), gene therapy or vaccination in vivo.