Abstract: The invention features lentiviral transfer vectors that include heterologous nucleic acids to be introduced into a cell. The lentiviral transfer vector may be characterized by the following features: (a) including a cytomegalovirus (CMV) promoter; (b) including a polynucleotide encoding a partial gag protein that includes a mutated INS1 inhibitory sequence that reduces restriction of nuclear export of RNA; (c) not including a polynucleotide encoding the INS2, INS3, and INS4 inhibitory sequences of gag; (d) not including an SV40 origin of replication and/or an f1 origin of replication; (e) including a cPPT sequence that contains splice site; (f) including an EF1alpha promoter with intact splice donor and acceptor sites; and (g) including hepatitis B PRE with mutation in start codon of X protein ORF.

Abstract: Provided herein are compositions comprising minigenes comprising splice modulator binding sequences, for regulatable gene expression, and systems and methods of use thereof.

Abstract: The invention features lentiviral transfer vectors that include heterologous nucleic acids to be introduced into a cell. The lentiviral transfer vector may be characterized by the following features: (a) including a cytomegalovirus (CMV) promoter; (b) including a polynucleotide encoding a partial gag protein that includes a mutated INS1 inhibitory sequence that reduces restriction of nuclear export of RNA; (c) not including a polynucleotide encoding the INS2, INS3, and INS4 inhibitory sequences of gag; (d) not including an SV40 origin of replication and/or an f1 origin of replication; (e) including a cPPT sequence that contains splice site; (f) including an EF1alpha promoter with intact splice donor and acceptor sites; and (g) including hepatitis B PRE with mutation in start codon of X protein ORF.

Abstract: The invention features lentiviral transfer vectors that include heterologous nucleic acids to be introduced into a cell. The lentiviral transfer vector may be characterized by the following features: (a) including a cytomegalovirus (CMV) promoter; (b) including a polynucleotide encoding a partial gag protein that includes a mutated INS1 inhibitory sequence that reduces restriction of nuclear export of RNA; (c) not including a polynucleotide encoding the INS2, INS3, and INS4 inhibitory sequences of gag; (d) not including an SV40 origin of replication and/or an f1 origin of replication; (e) including a cPPT sequence that contains splice site; (f) including an EF1alpha promoter with intact splice donor and acceptor sites; and (g) including hepatitis B PRE with mutation in start codon of X protein ORF.

Abstract: The invention features lentiviral transfer vectors that include heterologous nucleic acids to be introduced into a cell. The lentiviral transfer vector may be characterized by the following features: (a) including a cytomegalovirus (CMV) promoter; (b) including a polynucleotide encoding a partial gag protein that includes a mutated INS1 inhibitory sequence that reduces restriction of nuclear export of RNA; (c) not including a polynucleotide encoding the INS2, INS3, and INS4 inhibitory sequences of gag; (d) not including an SV40 origin of replication and/or an f1 origin of replication; (e) including a cPPT sequence that contains splice site; (f) including an EF1 alpha promoter with intact splice donor and acceptor sites; and (g) including hepatitis B PRE with mutation in start codon of X protein ORF.

Abstract: The invention features lentiviral transfer vectors that include heterologous nucleic acids to be introduced into a cell. The lentiviral transfer vector may be characterized by the following features: (a) including a cytomegalovirus (CMV) promoter; (b) including a polynucleotide encoding a partial gag protein that includes a mutated INS1 inhibitory sequence that reduces restriction of nuclear export of RNA; (c) not including a polynucleotide encoding the INS2, INS3, and INS4 inhibitory sequences of gag; (d) not including an SV40 origin of replication and/or an f1 origin of replication; (e) including a cPPT sequence that contains splice site; (f) including an EF1 alpha promoter with intact splice donor and acceptor sites; and (g) including hepatitis B PRE with mutation in start codon of X protein ORF.

Abstract: The present invention relates to compositions and methods for enhancing an immune response, for example to a vaccine, by combining the administration of oxygen (O2 gas), an adenosine pathway antagonist and/or an HIF-1? antagonist, and/or inhibitors of enzymes that produce or generate adenosine with the administration of the vaccine to the patient. The present invention also relates to methods of inducing or enhancing immune responses, methods of treating subjects having a tumor, methods of ablating or killing tumor cells and methods of disrupting the blood supply to a tumor, comprising administering oxygen alone or in combination with therapeutic agents that prevent inhibition of anti-tumor T cells. Tumor defense-resistant immune cells, anti-viral immune cells, and methods of their production are also disclosed.