The present invention relates to the field of cancer therapy. In particular, the present invention relates to a method of preventing, treating or inhibiting the development of tumours and/or metastases in a subject by administering one or more immunomodulators into the skin via a microneedle device.

The present invention relates to the field of cancer therapy. In particular, the present invention relates to a method of preventing, treating or inhibiting the development of tumours and/or metastases in a subject by administering one or more immunomodulators into the skin via a microneedle device.

A recombinant myxoma virus that encodes the orfC gene of walleye dermal sarcoma virus (WDSV). The orfC gene of walleye dermal sarcoma virus (WDSV) plays a role in induction of seasonal regression of tumors caused by WDSV. This gene was isolated from WDSV and recombined into myxoma virus (MYXV orfC) for use as an oncolytic therapy. The recombinant myxoma virus can be used in oncolytic virus therapy to specifically target and lyse cancer cells without harming healthy cells in cancer patients.

A recombinant myxoma virus that encodes the orfC gene of walleye dermal sarcoma virus (WDSV). The orfC gene of walleye dermal sarcoma virus (WDSV) plays a role in induction of seasonal regression of tumors caused by WDSV. This gene was isolated from WDSV and recombined into myxoma virus (MYXV orfC) for use as an oncolytic therapy. The recombinant myxoma virus can be used in oncolytic virus therapy to specifically target and lyse cancer cells without harming healthy cells in cancer patients.

The present invention relates to augmenting the effects of adoptive T cell therapy, such as TVAX Immunotherapy, using adjunct treatment with an oncolytic virus, such as a vaccinia virus, to treat various types of cancer or other proliferative disorders. Immunomodulatory compounds can be used to further augment to effects of the therapy.

The present invention relates to augmenting the effects of adoptive T cell therapy, such as TVAX Immunotherapy, using adjunct treatment with an oncolytic virus, such as a vaccinia virus, to treat various types of cancer or other proliferative disorders. Immunomodulatory compounds can be used to further augment to effects of the therapy.

The present disclosure provides a replication-competent, recombinant oncolytic vaccinia virus (OVV) comprising one of more of a) a nucleotide sequence encoding a variant A33 polypeptide, b) a nucleotide sequence encoding a variant A34 polypeptide, and c) a nucleotide sequence encoding a variant B5 polypeptide, wherein the variant A33, variant A34, and variant B5 polypeptides comprise one or more amino acid substitutions that provide for enhanced virus spreading or enhanced EEV production as compared with a virus encoding a corresponding wild-type A33, A 34, and B5 polypeptide. The present disclosure also provides compositions comprising the OVV and use of the OVV or the composition for inducing oncolysis in an individual having a tumor.

The present disclosure provides a replication-competent, recombinant oncolytic vaccinia virus (OVV) comprising one of more of a) a nucleotide sequence encoding a variant A33 polypeptide, b) a nucleotide sequence encoding a variant A34 polypeptide, and c) a nucleotide sequence encoding a variant B5 polypeptide, wherein the variant A33, variant A34, and variant B5 polypeptides comprise one or more amino acid substitutions that provide for enhanced virus spreading or enhanced EEV production as compared with a virus encoding a corresponding wild-type A33, A 34, and B5 polypeptide. The present disclosure also provides compositions comprising the OVV and use of the OVV or the composition for inducing oncolysis in an individual having a tumor.

The disclosure relates to methods and materials for treating cancer. For example, recombinant vaccinia viruses having the ability to direct the expression of membrane-bound IL-12 polypeptides on the surface of infected cells and methods for using such recombinant vaccinia viruses to treat cancer are provided. Specifically, the disclosure provides a recombinant vaccinia virus comprising a vaccinia virus genome comprising a nucleic acid encoding an IL-12p35 polypeptide sequence and an IL-12p40 polypeptide sequence, wherein one of the polypeptide sequences comprises a membrane anchoring polypeptide sequence.

The disclosure relates to modified vaccinia virus vectors derived from the Copenhagen strain of vaccinia virus, as well as methods of using the same for the treatment of various cancers. The disclosure provides modified Copenhagen-derived vaccinia virus vectors that exhibit various beneficial therapeutic activities, including enhanced oncolytic activity, spread of infection, immune evasion, tumor persistence, capacity for incorporation of exogenous DNA sequences, amenability for large scale manufacturing, and safety.