The present disclosure relates to a method for inhibiting a STAT3 activity comprising administering SSu72 protein.

The present invention relates to the field of genetic engineering, preferably the expression of recombinant proteins (RP). In particular, the invention relates to a promoter and variants thereof having an equal function and more than 90% sequence identity. The promoter comprises a fragment of 1147 base pairs (bp) of a first promoter, promoter of the β-actin gene of the Cricetulus griseus genome, enriched in cytosine-guanine dinucleotides (RegCG). The first promoter can be upstream of a second promoter, cytomegalovirus (CMV) promoter. The invention also relates to vectors, transfected cellular lines and a method for producing RP in mammal cells that have been transfected with vectors containing said promoter or variants thereof.

Viral promoters and compositions and methods of use thereof are provided. Compositions include viruses with impaired ability to reactivate from latency, and pharmaceutical compositions and method of use thereof. The genome of the viruses include one or more mutations that reduce expression from one or more promoters that regulate expression of viral genes during reactivation from latency. The mutation(s) are typically in a region of the viral genome that includes (i) promoter elements of the iP1 promoter of human cytomegalovirus, or the sequence of another virus corresponding thereto (e.g., an iP1 promoter homolog); (ii) promoter elements of the iP2 promoter of human cytomegalovirus, or sequence of another virus corresponding thereto (e.g., an iP2 promoter homolog); or (iii) a combination thereof. In some embodiments the virus encodes one or more heterologous antigens. The viruses can be used as vaccines to induce prophylactic and therapeutic immune responses in subjects in need thereof.

This disclosure provides modified cytomegalovirus (CMV) gL proteins and complexes comprising gL proteins. The modified gL proteins remain intact and are able to form complexes with other CMV proteins.

This disclosure provides modified cytomegalovirus (CMV) gL proteins and complexes comprising gL proteins. The modified gL proteins remain intact and are able to form complexes with other CMV proteins.

Recombinant expression vectors are disclosed that include a control sequence for recombinant expression of proteins of interest; the control sequence combines a mCMV enhancer sequence with a rat EF-1alpha intron sequence. Some of the vectors are useful for tetracycline-inducible expression. Some of the vectors contain a 5′ PiggyBac ITR and a 3′ PiggyBac ITR to promote genomic integration into a host cell chromosome. A method of selecting a stable production cell line for manufacturing a protein of interest is also disclosed. Also disclosed are mammalian host cells comprising the inventive recombinant expression vectors and a method of producing a protein of interest, in vitro, involving the mammalian host cell.

Recombinant expression vectors are disclosed that include a control sequence for recombinant expression of proteins of interest; the control sequence combines a mCMV enhancer sequence with a rat EF-1alpha intron sequence. Some of the vectors are useful for tetracycline-inducible expression. Some of the vectors contain a 5′ PiggyBac ITR and a 3′ PiggyBac ITR to promote genomic integration into a host cell chromosome. A method of selecting a stable production cell line for manufacturing a protein of interest is also disclosed. Also disclosed are mammalian host cells comprising the inventive recombinant expression vectors and a method of producing a protein of interest, in vitro, involving the mammalian host cell.

The present invention provides a recombinant turkey herpesvirus modified by the presence of the cDNA encoding the hemagglutinin protein of avian influenza virus under a promoter. A poultry vaccine comprising the recombinant turkey herpesvirus described in the present invention can induce serological responses that may be easily detected by the hemagglutination inhibition assay but not by commercially available diagnostic ELISA kits; thus enabling easy differentiation between vaccination and field infection.

CMV vectors comprising a heterologous protein antigen, an active UL131 protein (or an ortholog thereof), and an active UL128 protein (or an ortholog thereof) but lacking an active UL130 protein (or an ortholog thereof) are provided. CMV vectors comprising a heterologous protein antigen, an active UL131 protein (or an ortholog thereof), and an active UL130 protein (or an ortholog thereof) but lacking an active UL128 protein are also provided. In addition, methods of using CMV vectors to generate an immune response characterized as having at least 10% of the CD8+ T cells directed against epitopes presented by MHC Class II are provided.

The present invention relates to a beta-herpesvirus, preferably a recombinant beta-herpesvirus, wherein the beta-herpesvirus comprises at least one heterologous nucleic acid, wherein the at least one heterologous nucleic acid comprises a gene encoding a cellular ligand.