Abstract: The present invention relates to a method for preparing an expression vector encoding a tailored recombinase, which tailored recombinase is capable of recombining asymmetric target sequences within the long terminal repeat (LTR) of proviral DNA of a plurality of retrovirus strains inserted into the genome of a host cell, as well as to the obtained expression vector, cells transfected with this, expressed recombinase and pharmaceutical compositions comprising the expression vector, cells and/or recombinase. Pharmaceutical compositions are useful, e.g., in treatment and/or prevention of retrovirus infection. In particular, asymmetric target sequences present in a plurality of HIV strains are disclosed, as well as tailored recombinases capable of combining these sequences (Tre 3.0 and 4.0) and expression vectors encoding them.

Abstract: The present invention relates to a method for preparing an expression vector encoding a well-tolerated and highly specific tailored recombinase, which tailored recombinase is capable of recombining asymmetric target sequences within the long terminal repeat (LTR) of proviral DNA of a plurality of retrovirus strains which may be inserted into the genome of a host cell, as well as to the obtained expression vector, cells transfected with these, expressed recombinase and pharmaceutical compositions comprising the expression vector, cells and/or recombinase. Pharmaceutical compositions are useful, e.g., in treatment and/or prevention of retrovirus infection, in particular, HIV infection. In particular, the invention relates to well-tolerated and highly specific tailored recombinases capable of combining asymmetric target sequences in a more than 90% of HIV-strains, thereby excising the HIV-1 sequences, and expression vectors encoding them.

Abstract: The present invention is directed to a method for preparing an expression vector encoding a tailored recombinase, wherein said tailored recombinase recombines asymmetric target sites within the LTR of proviral DNA of a retrovirus inserted into the genome of a host cell and is useful as means for excising the provirus from the genome of the host cell. The present invention further relates to an in vitro-method of optimising the treatment of a retroviral infection of a subject and to the use of tailored recombinases for the preparation of pharmaceutical compositions for reducing the viral load in a subjected infected by a retrovirus.

Abstract: The invention relates to the genetically engineered treatment of an HIV infection by the expression of membrane-anchored gp41 peptides. With this treatment vectors are made available for the first time which code for a fusion protein that contains a peptide derived from gp41 of HIV and a carboxy terminal by means of a trans-membrane anchor tagged to a flexible linker.

Abstract: The subject of the invention is retroviral gene transfer vectors in which foreign sequences are introduced between the retroviral primer binding site (PBS) and the retroviral splice donor (SD). The efficiency of gene expression is improved by this modification, and the vectors are characterized by an increased reliability during use.

Abstract: The present invention relates in general to the pseudotyping of retroviruses with lymphocytic choriomeningitis virus. In particular, the invention relates to pseudotyping in MLV packaging cells which are optionally env-deleted, or in packaging cells derived from lentiviruses. Preferably, pseudotyping takes place by infection with LCMV or a preferably env-deleted mutant, or by transfection with an expression plasmid containing the gp gene of LCMV or a part thereof and optionally, in addition, the np, l and/or the z gene of LCMV. The invention also relates to the use of such pseudotypes for the infection of cells, particularly the use in gene therapy.

Abstract: The invention relates to novel retroviral gene transfer vectors, preferably expression vectors, which, because of a reduced content of viral genes, are distinguished by a higher safety standard and an expression of non-viral nucleotide sequences in higher amounts.

Abstract: The present invention relates in general to the pseudotyping of retroviruses with lymphocytic choriomeningitis virus. In particular, the invention relates to pseudotyping in MLV packaging cells which are optionally env-deleted, or in packaging cells derived from lentiviruses. Preferably, pseudotyping takes place by infection with LCMV or a preferably env-deleted mutant, or by transfection with an expression plasmid containing the gp gene of LCMV or a part thereof and optionally, in addition, the np, 1 and/or the z gene of LCMV. The invention also relates to the use of such pseudotypes for the infection of cells, particularly the use in gene therapy.