Recombinant herpes simplex virus 2 (HSV-2) vaccine vectors, virions thereof, compositions and vaccines comprising such, and methods of use thereof are each provided.

In one embodiment, the invention provides an HSV vector comprising a mutant gB and/or a mutant gH glycoprotein, where the viral envelope further comprises a non-native ligand specific for a protein present on the surface of a predetermined cell type. In another embodiment, the invention provides an HSV vector comprising (a) a mutant gC and/or gD envelope glycoprotein which comprises a non-native ligand specific for a protein present on the surface of a predetermined cell type; and (b) a mutant envelope glycoprotein other than gD.

A system and method are described for electroporating a sample that utilizes one or more sets of electrodes that are spaced apart in order to hold a surface tension constrained sample between the electrodes. The first electrode is connected to the lower body of the system while the second electrode is connected to the upper body. Both electrodes are connected to a pulse generator. Each electrode has a sample contact surface such that the first electrode and the second electrode may be positioned to hold a surface tension constrained sample between the two sample contact surfaces and the sample may receive a selected electric pulse.

The present disclosure provides recombinant nucleic acids comprising one or more polynucleotides encoding a polypeptide (e.g., an inhaled therapeutic polypeptide, such as a human alpha-1-antitrypsin 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 delivering the polypeptide to one or more cells of the respiratory tract and/or for the treatment of a disease affecting the lungs, such as alpha-1-antitrypsin deficiency); and articles of manufacture or kits thereof.

The present disclosure relates to recombinant oncolytic viral vectors for the treatment and prevention of cancers such as glioblastoma. The oncolytic viral vectors comprise one or more of the following features: miRNA target sequence(s) for viral replication restriction; transgene(s) encoding one or more payload molecules; a retargeting domain; mutation(s) in both UL30 and UL23 genes; and a protein with a syncytial mutation and a counterpart protein without the syncytial mutation.

Disclosed are genetic expression cassettes, and vectors comprising them useful for the delivery of isolated nucleic acid segments including those expressing or encoding one or more selected therapeutic constructs (including, without limitation, therapeutic peptides, polypeptides, ribozymes, or catalytic RNA molecules), to one or more selected cells or tissues of a vertebrate animal. Methods employing the disclosed genetic constructs in the development of gene therapy-based viral vector systems are also disclosed. The expression cassettes and viral vectors disclosed herein provide new tools for methods of treating mammalian, and in particular, human diseases, disorders, and/or dysfunctions. The disclosed compositions and methods find particular utility in a variety of investigative, diagnostic, and therapeutic regimens, including, for example, in the treatment or amelioration of symptoms of a variety of mammalian, and particularly, human conditions.

The present invention provides an HSV vector comprising an envelope comprising one or more mutant gB and/or gH envelope glycoproteins, whereby the HSV vector exhibits at least 25% increased rate-of-entry after 20 minutes when assayed at 30 C. or 37 C. in Vero cells after first incubating at 4 C. relative to a control HSV comprising wild-type gB and gH glycoproteins. The invention also provides a viral stock comprising the inventive HSV vector.

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.

The invention provides a method of modulating electrophysiological activity of an excitable cell. The method involves causing exogenous expression of a glycine receptor (GlyR) protein in an excitable cell of a subject. Thereafter, the excitable cell is exposed to an allosteric modulator of the GlyR protein. Modulation of the exogenous GlyR protein (an ion channel) in response to the allosteric modulator modulates the electrophy-stological activity of the excitable cell. The method can be used to control pain in a subject. The invention further provides a replication-defective HSV vector comprising an expression cassette encoding a GlyR protein, stocks and pharmaceutical compositions containing such vectors, and a transgenic animal.