The present disclosure is directed to expression vectors, comprising a weakened SV40 promoter, and recombinant mammalian cells capable of producing high levels of a polypeptide of interest, methods of generating and using such recombinant mammalian cells.

The invention concerns a multicistronic nucleic acid, in particular an isolated multicistronic nucleic acid, comprising: A) a sequence comprising successively: A1) a sequence encoding the light chain variable domain of an antibody of interest, fused in the frame with A2) a sequence encoding the constant region of the light chain of an immunoglobulin Ig; and B) a sequence comprising successively: B1) a sequence encoding the heavy chain variable domain of said antibody of interest, fused in the frame with B2) a sequence encoding the constant regions of the heavy chain of an immunoglobulin Ig in secretory form; B3) an intronic sequence of the gene of the heavy chain of said immunoglobulin Ig, said intronic sequence comprising an internal 5 splice site enabling the splicing of said intronic sequence B3) and a secretory-specific poly(A) (p AS) signal from the 3 terminal exon of said gene; B4) a sequence, in frame with sequence B1), encoding the transmembrane and cytoplasmic domains M1 and M2 of the immunoglobulin Ig BCR, wherein said sequence B4) comprises, between the coding sequences of the M1 and M2 domains, an intronic sequence containing a splice site enabling the splicing of said intronic sequence between the M1 and M2 domains coding sequences; and B5) a membrane-anchored specific poly(A) signal (p AM), after the stop codon of the M2 domain, wherein the multicistronic nucleic acid enables the co-expression of the sequences A and B into separate proteins.

The present invention relates to nucleic acid molecules comprising a nucleic acid sequence encoding a membrane-bound biotin mimetic peptide (BMP) or biotin acceptor peptide (BAP). The invention also relates to a method for selection of high producer cells secreting a protein of interest.

The invention relates to a recombinant baculoviral genome useful for the production of viral vectors for gene therapy, allowing said production from a single infection

The present disclosure is directed to expression vectors, comprising a weakened SV40 promoter, and recombinant mammalian cells capable of producing high levels of a polypeptide of interest, methods of generating and using such recombinant mammalian cells.

The present invention relates to a bicistronic expression vector for silencing a gene specifically in astrocytes and neurons, comprising two expression cassettes comprising a first and a second silencer sequence, respectively, wherein the expression of said first silencer sequence within astrocytes is regulated by an astrocyte-specific promoter and the expression of said second silencer sequence within neurons is regulated by a neuron-specific promoter. In a preferred embodiment, said first and second silencer sequences are SOD1 silencer sequences. Pharmaceutical composition comprising said bicistronic vector and the use of the same in the treatment of motoneuron diseases are further described.

The present invention generally provides improved gene therapy vectors, cell-based compositions, and methods of using the same in methods of gene therapy. The present invention further provides improved gene therapy compositions for expanding hematopoietic cells and related methods for treatment of diseases, disorders, and conditions of the hematopoietic system such as thalassemias and anemias.

The invention provides virus-based expression vectors comprising immune-checkpoint inhibitor inserts for use as effective adjuvants in enhancing T-cell priming to an antigen in a host during a vaccination regimen. In particular, the compositions described herein are novel recombinant modified vaccinia Ankara (MVA) viral constructs encoding one or more peptides which, upon administration, are expressed in a multimer conformation and subsequently cleaved and secreted from the cell. Such peptides are capable of downregulating an immune checkpoint pathway, for example, by inhibiting the activation of programmed-cell death protein 1 (PD-1), programed cell death ligand 1 (PD-L1), cytotoxic T-lymphocyte-associated protein 4 (CTLA-4), or another immune checkpoint regulator, or a combination thereof. When used in concert with the administration of an antigen during a vaccination strategy, the immune checkpoint expressing MVA viral construct provides significantly improved antigen-specific CD8+ T cell expansion, increased antigenic responses, and improved vaccination efficacy.

The invention relates to a recombinant baculoviral genome useful for the production of viral vectors for gene therapy, allowing said production from a single infection.

This document provides methods and materials for treating diabetes. For example, methods and materials for using nucleic acid encoding human preproinsulin to treat diabetes (e.g., type I or type II diabetes) are provided.