The present invention relates to a recombinant herpes simplex virus (HSV) containing an expression cassette capable of expressing a fused protein of a cancer-cell-targeting domain and an extracellular domain of HVEM and the use thereof. When the recombinant HSV infects and enters target cells, which are cancer cells, HSV proliferates, and an adapter, which is the fused protein, is expressed in the cells and is released to the outside of the cells along with the proliferated HSV virion upon cell lysis, or is released even before the virion is released due to cell lysis when the adapter contains a leader sequence, and the fused protein released to the outside of the cells acts to induce the HSV virion to infect surrounding cancer cells expressing a target molecule recognized by the cancer-cell-targeting domain or to increase the infection efficiency thereof.

The present invention relates to the use of oncolytic viruses (e.g., modified HSV-1 viruses) for the treatment of various types of cancer. In addition, the present invention relates to compositions and kits relating to such uses of oncolytic viruses.

A chimeric oncolytic virus is described that includes a herpesvirus having a modified nucleic acid sequence, including a modification of the herpesvirus gamma (1)34.5 gene (γ.sub.134.5) or a nucleic acid with at least about 70% homology to the γ.sub.134.5 gene that reduces its expression; a second viral nucleic acid sequence encoding a PKR evasion protein that does not cause virulence; and a third nucleic acid sequence encoding a tumor-associated antigen. Methods of using the chimeric oncolytic virus to treat subjects having cancer, or to vaccinate subjects at risk of developing cancer, are also described.

The present invention relates to variants of herpes simplex virus (HSV) that selectively infect and replicate in cancer cells, including HSV strains that selectively infect and replicate in bladder cancer cells. Preferred HSV of the invention have intact endogenous Us11 and Us12 genes and have genes encoding ICP34.5 replaced with a gene encoding Us11 fused to an HSV immediate early (IE) promoter. The variant HSV of the invention also comprise one or more additional heterologous genes encoding immunomodulatory polypeptides. Methods and compositions using these variant HSV, for example, for treating cancer in a subject, are also provided.

The present disclosure provides recombinant nucleic acids comprising one or more polynucleotides encoding a cystic fibrosis transmembrane conductance regulator (CFTR) polypeptide (e.g., a human CFTR polypeptide); viruses comprising the recombinant nucleic acids; compositions and formulations comprising the recombinant nucleic acids and/or viruses; methods of their use (e.g., for the treatment of a chronic lung disease, such as cystic fibrosis); and articles of manufacture or kits thereof.

The present invention relates to oncolytic virus comprising: (i) a GM-CSF-encoding gene; and (ii) an immune co-stimulatory pathway activating molecule or an immune co-stimulatory pathway activating molecule-encoding gene.

Recombinant herpes simplex virus (HSV)-1 capable of selectively replicating in alternative lengthening of telomeres (ALT)-dependent tumor cells are described. The recombinant HSV-1 are ICP0-deficient, such as by complete deletion of the ICP0 gene, or mutation of the ICP0 gene sufficient to diminish or eliminate E3 ubiquitin ligase activity of ICP0. In some cases, the recombinant HSV-1 further include additional gene deletions or mutations, such as those that render the virus glycoprotein C (gC) deficient, or include a heterologous gene, such as a gene encoding an immunostimulatory molecule. Methods of treating ALT-dependent cancer, and methods of selectively killing ALT-dependent tumor cells are also described.

The invention provides improved compositions and methods for the treatment of solid cancers.

Aspects of the present disclosure provide synthetic promoters that are differentially modulated between certain diseased cells (e.g., cancer cells) and normal cells (e.g., non-cancer cells). These synthetic promoters are useful, for example, for targeted expression of therapeutic molecules in diseased cells.

Described herein are compositions comprising a T cell/thymic stromal lymphopoietin (TSLP) activating agent and an innate immunity activating agent, an methods of use thereof to treat cancer, e.g., cutaneous malignancies.