Disclosed herein are methods of diagnosing and treating a subject with prostate cancer, as well as methods of monitoring the responsiveness of a subject having prostate cancer to a therapeutic agent.

Disclosed herein are methods of diagnosing and treating a subject with prostate cancer, as well as methods of monitoring the responsiveness of a subject having prostate cancer to a therapeutic agent.

A recombinant vaccinia virus containing a gene encoding sPD-1 or hyaluronidase and a pharmaceutical composition including the same are disclosed. The recombinant vaccinia virus containing a cancer therapy gene and having suppressed expression of K3L, TK, or VGF gene of the vaccinia virus has an excellent anti-tumor effect. Therefore, the recombinant vaccinia virus of the present invention can be advantageously used in cancer treatment.

A recombinant vaccinia virus containing a gene encoding sPD-1 or hyaluronidase and a pharmaceutical composition including the same are disclosed. The recombinant vaccinia virus containing a cancer therapy gene and having suppressed expression of K3L, TK, or VGF gene of the vaccinia virus has an excellent anti-tumor effect. Therefore, the recombinant vaccinia virus of the present invention can be advantageously used in cancer treatment.

The present invention relates generally to the fields of oncology, virology and immunotherapy. More particularly, it concerns the use of poxviruses, specifically the replication competent attenuated vaccinia virus with deletion of thymidine kinase (VC-TK.sup.−) with and without the expression of human Flt3L or GM-CSF as oncolytic and immunotherapy. The foregoing poxviruses can also be used in combination with immune checkpoint blocking agents. The foregoing poxviruses can also be inactivated via Heat or UV-treatment and the inactivated virus can be used as immunotherapy either alone or in combination with immune checkpoint blocking agents.

The present invention relates generally to the fields of oncology, virology and immunotherapy. More particularly, it concerns the use of poxviruses, specifically the replication competent attenuated vaccinia virus with deletion of thymidine kinase (VC-TK.sup.−) with and without the expression of human Flt3L or GM-CSF as oncolytic and immunotherapy. The foregoing poxviruses can also be used in combination with immune checkpoint blocking agents. The foregoing poxviruses can also be inactivated via Heat or UV-treatment and the inactivated virus can be used as immunotherapy either alone or in combination with immune checkpoint blocking agents.

The invention relates to a novel Newcastle Disease Viruses (NDV) and transgene expressing Newcastle Disease Viruses (NDV), which have been demonstrated to possess significant oncolytic activity against mammalian cancers and an improved safety profile. The invention provides novel oncolytic viruses through the use of genetic engineering, including the transfer of foreign genes or parts thereof. The present invention also provides nucleic acids encoding a reverse genetically engineered (rg-)NDV comprising one or more of these foreign genes and having a mutation in the HN gene, said mutation allowing replication of said rgNDV in a cancer cell to a higher level than replication of an otherwise identical rgNDV not having said mutation in the HN gene, as well as a mutation in the F gene, said mutation resulting in a reduced ICPI value as compared to an otherwise identical rgNDV not having said at least one mutation in the F gene.

The invention relates to a novel Newcastle Disease Viruses (NDV) and transgene expressing Newcastle Disease Viruses (NDV), which have been demonstrated to possess significant oncolytic activity against mammalian cancers and an improved safety profile. The invention provides novel oncolytic viruses through the use of genetic engineering, including the transfer of foreign genes or parts thereof. The present invention also provides nucleic acids encoding a reverse genetically engineered (rg-)NDV comprising one or more of these foreign genes and having a mutation in the HN gene, said mutation allowing replication of said rgNDV in a cancer cell to a higher level than replication of an otherwise identical rgNDV not having said mutation in the HN gene, as well as a mutation in the F gene, said mutation resulting in a reduced ICPI value as compared to an otherwise identical rgNDV not having said at least one mutation in the F gene.

The present invention pertains to a strategy of selectively targeting oncolytic virotherapy, using either naturally occurring or genetically modified viruses by packaging them in mesenchymal stem cells (MSCs). The present invention concerns MSCs, compositions comprising the MSCs, and methods of using the MSCs for treatment of cancer and for lysing or inducing apoptosis of cancer cells in vitro or in vivo.

The present invention pertains to a strategy of selectively targeting oncolytic virotherapy, using either naturally occurring or genetically modified viruses by packaging them in mesenchymal stem cells (MSCs). The present invention concerns MSCs, compositions comprising the MSCs, and methods of using the MSCs for treatment of cancer and for lysing or inducing apoptosis of cancer cells in vitro or in vivo.