The present disclosure relates to compositions and methods for treating or preventing a disease or disorder of the brain, spinal cord or central nervous system. It is described herein that an immunogenic composition which induces a CD4 T cell immune response induces permeability of the blood brain barrier, and allows for the access of a therapeutic antibody or agent to the brain, spinal cord or central nervous system.

The present invention relates to the field of oncolytic viruses and in particular to a recombinant rhabdovirus, such as vesicular stomatitis virus encoding in its genome for a CCL21 protein. The invention is further directed to the use of the recombinant virus in the treatment of cancer, and also to methods for producing such viruses.

Provided herein are methods for enhancing infection, growth, spread, or titer of an oncolytic RNA virus in a cancer or tumor cell; enhancing the oncolytic activity, cytokine-induced cell death activity, and/or cytotoxic activity of an oncolytic RNA virus in a cancer or tumor cell; upregulating cytokine response to, and/or enhancing the immunotherapeutic activity of an oncolytic RNA virus in a cancer or tumor cell; and/or treating a tumor or cancer in a subject in need thereof. Such methods employ a vanadium-containing compound, administered to the cancer or tumor cells before, after, or concurrently with infection of the cancer or tumor cells with the oncolytic RNA virus. Related compositions, uses, and kits therefor are also provided. Methods for producing RNA viruses, RNA virus-based cancer vaccines, and RNA virus-based cancer gene therapy vectors are also provided.

Disclosed herein is an oncolytic recombinant Maraba virus whose genome comprises one or more nucleic acid sequences that, in combination, encode an interleukin-12 (IL12) protein or a functional portion thereof. A method for treating a cancer in a patient using the oncolytic recombinant Maraba virus is also disclosed. The present disclosure also provides a tumour cell infected with an oncolytic rhabdovirus whose genome comprises one or more nucleic acid sequences that, in combination, encode an interleukin-12 (IL12) protein or a functional portion thereof, for use as an infected cell vaccine (ICV) for the treatment of a cancer. A method for treating a cancer in a patient using the infected cell vaccine is also disclosed.

This document provides methods and materials related to vesicular stomatitis viruses. For example, vesicular stomatitis viruses, nucleic acid molecules encoding VSV polypeptides, methods for making vesicular stomatitis viruses, and methods for using vesicular stomatitis viruses to treat cancer are provided.

The present invention relates to high-titer hybrid vims vectors which produce virus-like vesicle (VLVs) and compositions and methods thereof for targeting a malignancy or infectious disease. VLVs are a capsid-free, self-replicating artificial virus platform carrying positive-strand capped and polyadenylated RNA encoding an in vitro evolved Semliki Forest vims (SFV) RNA-dependent RNA replicase and the vesicular stomatitis virus (VSV) glycoprotein. The VLVs of the present invention and pharmaceutical compositions thereof encode for polynucleotide and/or polypeptide therapeutic agents useful in methods for the treatment, prophylaxis, and prevention of malignancies and infectious diseases.

The present disclosure relates to a method for stimulating tumor antigen-specific immune responses comprising cancer vaccination involving the blockade or inhibition of interferon signaling. In particular, the method comprises administering an inhibitor of interferon signaling and a cancer vaccine comprising a tumor antigen, wherein the inhibitor of interferon signaling is administered before the cancer vaccine.

The present application relates to a medicine for treating tumors. A novel attenuated oncolytic virus strain is provided by means of a site-directed mutation of a wild-type virus matrix protein M of a vesicular stomatitis virus. On the basis of the attenuated oncolytic virus strain, an oncolytic virus vaccine is provided by inserting an exogenous gene into the attenuated strain. A medicine capable of treating multiple types of tumors is provided by the use of the oncolytic virus vaccine in combination with the immune checkpoint inhibitor.

A vaccination method is provided. The method comprises administering to a mammal a histone deacytelase inhibitor in conjunction with a vaccine that expresses an antigen to which the mammal has a pre-existing immunity.

Provided herein is a method for inducing an immune response to at least one neoantigen, the method comprising administering to a subject a priming composition comprising a peptide antigen conjugate and at least a first boost. The first boost comprises a first oncolytic virus comprising a genome that expresses a first peptide or a second peptide, wherein the first and second peptide are each capable of inducing an immune response to at least one neoantigen. The method further comprises administering the subject a second boost, comprising a second oncolytic virus comprising a genome that expresses a third peptide or a fourth peptide, wherein the third peptide and the fourth peptide are each capable of inducing an immune response to at least one neoantigen, and wherein the second oncolytic virus is immunologically distinct from the first oncolytic virus. The subject may have pre-existing immunity to the at least one neoantigen.