Human clinical use of a chimeric poliovirus construct has demonstrated excellent anti-tumor effect. The mechanism of action is believed to involve both viral oncolysis as well as immune recruitment, both of which lead to necrosis in the area of the tumor. No adverse effects have been observed.

Human clinical use of a chimeric poliovirus construct has demonstrated excellent anti-tumor effect. Combination with immune checkpoint inhibitors increases the anti-tumor effect. Tumors of different types are susceptible to the combination treatment, including but not limited to melanoma, glioglastoma, renal cell carcinoma, prostate cancer, breast cancer, lung cancer, medulloblastoma, and colorectal cancer.

Human clinical use of a chimeric poliovirus construct has demonstrated excellent anti-tumor effect. The mechanism of action is believed to involve both viral oncolysis as well as immune recruitment, both of which lead to necrosis in the area of the tumor. No adverse effects have been observed.

Human clinical use of a chimeric poliovirus construct has demonstrated excellent anti-tumor effect. The mechanism of action is believed to involve both viral oncolysis as well as immune recruitment, both of which lead to necrosis in the area of the tumor. No adverse effects have been observed.

Chimeric poliovirus is capable of activating antigen presenting cells. The activation of the antigen presenting cells may be in vitro, ex vivo, or in vivo. The activated antigen presenting cells may be administered alone or with an antigen or vaccine. The activated antigen may be loaded in vitro or ex vivo with antigen to form antigen-loaded, activated, antigen presenting cells. These may be administered therapeutically. Therapeutic administration of antigen presenting cells may be used as an adjuvant to other therapies.

The present disclosure provides a method of measuring the production of a cytokine in a sample in response to an agonist to determine responsiveness of a patient to immunotherapy. The present disclosure also provides a method of treating a cancer patient with an oncolytic viral therapy when a sample from the patient has a certain level of anti-viral antibodies. Further, the present disclosure describes, in part, an immune competence blood test that allows for one skilled in the art to determine if a tumor is immunoproficient to respond to an immunotherapy.

Human clinical use of a chimeric poliovirus construct has demonstrated excellent anti-tumor effect. Combination with immune checkpoint inhibitors increases the anti-tumor effect. Tumors of different types are susceptible to the combination treatment, including but not limited to melanoma, glioglastoma, renal cell carcinoma, prostate cancer, breast cancer, lung cancer, medulloblastoma, and colorectal cancer.

This document provides methods and materials related to the use of nucleic acid coding for viruses to reduce the number of viable cancer cells within a mammal. For example, methods for using infectious nucleic acid to treat cancer, engineered viral nucleic acid, methods for making engineered viral nucleic acid, methods for identifying infectious nucleic acid for treating cancer, methods and materials for controlling virus-mediated cell lysis, and methods and materials for assessing the control of virus-mediated cell lysis are provided.

This document provides methods and materials related to the use of nucleic acid coding for viruses to reduce the number of viable cancer cells within a mammal. For example, methods for using infectious nucleic acid to treat cancer, engineered viral nucleic acid, methods for making engineered viral nucleic acid, methods for identifying infectious nucleic acid for treating cancer, methods and materials for controlling virus-mediated cell lysis, and methods and materials for assessing the control of virus-mediated cell lysis are provided.

Human clinical use of a chimeric poliovirus construct has demonstrated excellent anti-tumor effect. Combination with immune checkpoint inhibitors increases the anti-tumor effect. Tumors of different types are susceptible to the combination treatment, including but not limited to melanoma, glioglastoma, renal cell carcinoma, prostate cancer, breast cancer, lung cancer, medulloblastoma, and colorectal cancer.