Methods and compositions for increasing the production of recombinant proteins by introducing ICP0 to cells capable of producing a recombinant protein are encompassed. In one method, the recombinant protein is a protein that is required for the replication of a replication defective virus, wherein the recombinant protein is provided to the replication defective virus in trans.

The invention provides a herpes simplex virus (HSV) vector that does not express toxic HSV genes in non-complementing cells and which comprises a genome comprising one or more transgenes, wherein the vector is capable of expression of a transgene for at least 28 days in non-complementing cells. The disclosed vectors include vectors having deletions in the genes ICP0, ICP4, TCP22, TCP27 and TCP47, or alternative inactivating mutations, or vectors which express one or more of these genes with modified kinetics. The invention also relates to viral stocks of the inventive vectors, compositions thereof suitable for use therapeutically or for in vitro applications, and methods relating thereto. In another aspect, the invention provides a complementing cell, in particular a U20S cell, engineered to express ICP4 and ICP27 when the cell is infected with HSV for the production of the inventive vector. Said cells are disclosed as naturally complementing ICP0.

Provided herein are Vero cell lines that stably express Herpes Simplex Virus (HSV) ICP0 protein. These cells have the same morphology of Vero cells, exhibit stable expression of HSV ICP0 protein, and also efficiently complement replication of HSV ICP0 deficient virus for greater than 20, 30, or even 40 cell passages.

The present disclosure provides recombinant nucleic acids comprising one or more polynucleotides encoding a 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 one or more conditions or diseases of the eye); and articles of manufacture or kits thereof.

Methods and compositions for increasing the production of recombinant proteins by introducing ICP0 to cells capable of producing a recombinant protein are encompassed. In one method, the recombinant protein is a protein that is required for the replication of a replication defective virus, wherein the recombinant protein is provided to the replication defective virus in trans.

Methods and compositions for increasing the production of recombinant proteins by introducing ICP0 to cells capable of producing a recombinant protein are encompassed. In one method, the recombinant protein is a protein that is required for the replication of a replication defective virus, wherein the recombinant protein is provided to the replication defective virus in trans.

The present disclosure provides recombinant nucleic acids comprising one or more polynucleotides encoding a 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 one or more conditions or diseases of the eye); and articles of manufacture or kits thereof.

A mutant HSV-1 (referred to herein as KOS-NA) was generated. KOS-NA contains novel mutations in the UL39 gene, which encodes for a protein that is a large subunit of ribonucleotide reductase (i.e., ICP6). These UL39 mutations were found to alter two amino acids in ICP6 (R950H and L393P) and are responsible for attenuation of KOS-NA in vivo, and resulted in diminished ICP6 protein levels. These novel UL39 mutations regulate the expression and/or stability of ICP6 and severely impact HSV-1 pathogenesis. Mutant HSV viruses containing these mutations appear to protect against HSV infection and can serve as therapeutic vaccines to help combat preexisting HSV infection in infected individuals.

A mutant HSV-1 (referred to herein as KOS-NA) was generated. KOS-NA contains novel mutations in the UL39 gene, which encodes for a protein that is a large subunit of ribonucleotide reductase (i.e., ICP6). These UL39 mutations were found to alter two amino acids in ICP6 (R950H and L393P) and are responsible for attenuation of KOS-NA in vivo, and resulted in diminished ICP6 protein levels. These novel UL39 mutations regulate the expression and/or stability of ICP6 and severely impact HSV-1 pathogenesis. Mutant HSV viruses containing these mutations appear to protect against HSV infection and can serve as therapeutic vaccines to help combat preexisting HSV infection in infected individuals.

Provided herein are Vero cell lines that stably express Herpes Simplex Virus (HSV) ICP0 protein. These cells have the same morphology of Vero cells, exhibit stable expression of HSV ICP0 protein, and also efficiently complement replication of HSV ICP0 deficient virus for greater than 20, 30, or even 40 cell passages.