Recombinant adenovirus genomes that include a synthetic transcriptional circuit are described. Synthetic adenoviruses positively regulated using two-step transcriptional amplification (TSTA) are further described. Selection of the heterologous promoter is based on the desired replication characteristics of the synthetic virus. For example, the heterologous promoter can be a constitutive promoter, a tumor-specific promoter or a tissue-specific promoter.

Provided herein is a conditionally-replicating serotype 5 adenovirus or adenoviral vector expressing a mutant E1A protein under control of a promoter that is responsive to hypoxia and inflammation and one or more immune modulators under control of a tumor-specific promoter. The adenovirus or adenoviral vector also comprises serotype 3 fiber and hexon proteins. Also provided is a method of inducing cytotoxicity in tumor cells using a composition containing the adenovirus or adenoviral vector.

This invention provides methods and materials for treating cancer. The invention encompasses methods and materials for delivering programmed death-ligand 1 (PD-L1) binding compounds and/or compositions containing one or more monovalent or multivalent programmed death-ligand 1 (PD-L1) binding compounds which are administered to a mammal having cancer to treat the mammal. In some cases, a multivalent PD-L1 binding compound can include two or more programmed cell death protein 1 (PD-1) polypeptides (and/or fragments thereof having the ability to bind PD-L1). This invention also provides methods and materials for making multivalent PD-L1 binding compounds and methods and materials for making nucleic acid molecules that encode PD-L1 binding compounds.

Modified E1a regulatory sequences are provided, wherein at least one Pea3 binding site, or a functional portion thereof, is deleted. Also provided are modified E1a sequences that selectively express particular isoforms. Also provided is an E1b-19K clone insertion site. These modified sequences can be used individually, or in combination with one another, to provide tumor-selective expression of proteins.

To increase the therapeutic potential of these oncolytic viruses based on a 24 base pair deletion in the viral E1 A gene (D24), a conditionally replicating adenovirus targeting multiple receptors upregulated on tumors was generated by incorporating an Ad5/3 fiber with a carboxyl terminus RGD ligand. The virus displayed full cytopathic effect in tumor lines assayed at low titers with improved cytotoxicity over Ad5-RGD D24, Ad5/3 D24 and an HSV oncolytic virus. The virus was further engineered to deliver immunotherapeutic agents such as GMCSF while maintaining enhanced heterogenic oncolysis.

The present invention relates to a helper plasmid-based gutless adenovirus (GLAd) production system, a gutless adenovirus production method using same, a gutless adenovirus produced using same, and a use of gutless adenovirus produced using same.

The present invention provides recombinant adenoviral compositions and methods for their use in treating disorders associated with epithelial tissues.

Modified E1a regulatory sequences are provided, wherein at least one Pea3 binding site, or a functional portion thereof, is deleted. Also provided are modified E1a sequences that selectively express particular isoforms. Also provided is an E1b-19K clone insertion site. These modified sequences can be used individually, or in combination with one another, to provide tumor-selective expression of proteins.

The present invention provides recombinant adenoviral compositions and methods for their use in treating disorders associated with epithelial tissues.

The present invention generally relates to the field of adenoviruses and adenoviral vectors that can be used as vaccines and gene therapy vectors. More specifically, the present invention relates to an adenovirus or an adenoviral vector that comprises a mutated DNA-binding protein that inhibits adenoviral DNA replication in a cell infected with a virus expressing said protein. The invention further relates to a nucleotide sequence encoding the mutated DNA-binding protein. In another aspect, the invention provides pharmaceutical compositions, vaccines and cells that comprise the mutated protein, a nucleotide sequence encoding same, or a modified adenovirus or adenoviral vector comprising any of those. The invention also relates to the use of the mutated protein, a nucleotide sequence encoding the same, or an adenovirus or recombinant adenoviral vector comprising any of those for the preparation of a vaccine.