The present invention relates to an adenoviral vector comprising a regulatable Major Late Promoter and an exogenous transgene. The invention also provides cells comprising such adenoviral vectors, and processes using such vectors.

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.

A recombinant vector comprises simian adenovirus 43, 45, 46, 47, 48, 49 or 50 sequences and a heterologous gene under the control of regulatory sequences. A cell line which expresses simian adenovirus 43, 45, 46, 47, 48, 49 or 50 gene(s) is also disclosed. Methods of using the vectors and cell lines are provided.

A modified adenovirus capable of overcoming the problem of low level of coxsackie-adenovirus receptor (CAR) expression on tumor cells and methods of using such adenovirus are provided. The fiber protein of the adenovirus is modified by insertion or replacement so as to target the adenovirus to tumor cells, and the replication of the modified adenovirus is limited to tumor cells due to specific promoter control or mutations in E1a or E1b genes.

The present disclosure provides an oncolytic virus comprising a nucleic acid(s) encoding a granulocyte-macrophage colony-stimulating factor (GM-CSF) and a soluble form of the TGF-B receptor-II (sTGF-BRII). The present disclosure also provides compositions comprising the oncolytic virus and treatment methods using the oncolytic virus. The treatment methods include local and/or systemic administration of the oncolytic virus for treating cancers, such as solid tumors.

The present invention relates to an adenoviral vector comprising a regulatable Major Late Promoter and an exogenous transgene. The invention also provides cells comprising such adenoviral vectors, and processes using such vectors.

The invention provides methods for administering lentiviral vectors to the respiratory system of a patient to treat a disease.

The present invention relates to a recombinant adenovirus with increased in-vivo safety, tissue specificity, and anticancer activities, and a use thereof. Specifically, the recombinant adenovirus comprising: a promoter of the liver tissue-specific phosphoenolpyruvate carboxykinase (PEPCK) gene; a trans-splicing ribozyme which is operably linked to the promoter and acts on a cancer-specific gene; a therapeutic gene or a reporter gene which is linked to the 3 exon of the ribozyme; and a serotype 35 fiber knob and a serotype 5 shaft, in which the orf4 gene is deleted from adenovirus E1, E3 and E4 orf1, shows remarkable in-vivo safety, high specificity for a target tissue, and remarkable anticancer effects, and thus can be useful for an anticancer drug or a cancer diagnostic agent as a gene delivery vector.

Novel hexon isolated from simian adenovirus serotype 19 encoded in the polynucleotide defined as SEQ ID NO: 3, hepervariable region thereof, chimeric adenovirus comprising the same, and therapeutic use thereof provides a solution to the problem of safety and effective systemic treatment for developing gene therapeutic agents using adenovirus.

Synthetic adenoviruses having chimeric fiber proteins and liver detargeting mutations are described. The synthetic adenovirus vectors are capable of specifically infecting cells at wound sites or in regions of damaged tissue. The synthetic adenovirus vectors also are capable of expressing transgenes, such as wound healing factors, at sites of wounded or damaged tissue. Accordingly, the described vectors can be used to detect wounded or damaged tissue, and/or to promote wound healing and regeneration of damaged tissue, such as by expression of heterologous wound healing or tissue regeneration factors.