The invention provides delivery methods and compositions for antiviral therapeutics. Methods and compositions are provided for targeted delivery of antiviral therapeutics into cells of interest using, for example, viral vectors such as adenovirus, AAV, and replication incompetent HSV. These and other delivery systems can be used as vehicles to deliver DNA vectors encoding a nuclease or a cell-killing gene. These delivery methods can also be used to deliver naked DNA or RNA, protein products, plasmids containing a promoter that is active only in a latent viral state which drives a cell-killing gene, or other therapeutic agents.

The present invention is directed to the composition and use of a modified Herpes Simplex Virus Type 2 (HSV-2) as a medicament in the treatment of cancer. The modified HSV-2 has fusogenic activity, and comprises a modified/mutated ICP10 polynucleotide encoding a polypeptide having ribonucleotide reductase activity and lacking protein kinase activity.

Viral infection is a persistent cause of human disease. Guided nuclease systems of the invention target the genomes of viral infections, rendering the viruses incapacitated. The invention further provides delivery methods and compositions for antiviral therapeutics. Methods and compositions are provided for targeted delivery of antiviral therapeutics into cells of interest using, for example, viral vectors such as adenovirus, AAV, and replication incompetent HSV. These and other delivery systems can be used as vehicles to deliver DNA vectors encoding a nuclease or a cell-killing gene. These delivery methods can also be used to deliver naked DNA or RNA, protein products, plasmids containing a promoter that is active only in a latent viral state which drives a cell-killing gene, or other therapeutic agents.

The present invention provides novel pseudotyped retroviral vectors that can transduce human and other cells. Vectors are provided that are packaged efficiently in packaging cells and cell lines to generate high titer recombinant virus stocks expressing novel envelope glycoproteins. The present invention further relates to compositions for gene therapy.

Provided herein are nucleic acid sequences encoding hepatitis B virus (HBV) core proteins, surface antigen proteins, fragments and combinations thereof as well as genetic constructs/vectors and vaccines that express said protein sequences. These vaccines are able to induce an immune response peripherally and in the liver by recruiting both cellular and humoral agents. Also provided are methods for prophylactically and/or therapeutically immunizing individuals against HBV. The combination vaccine can also be used for particular design vaccines for particular levels of immune responses to HBV challenge.

The present invention provides a method of altering the specificity of an adenovirus vector. The method involves providing an adenovirus having a capsid with a modified adenovirus hexon protein. The modified adenovirus has a capsid comprising a hexon protein with a deletion in hypervariable region 1 and/or hypervariable region 4 of the hexon and an insert of an exogenous molecule therein.