The present invention relates to an antigen composition comprising at least one mesothelioma cancer cell associated antigen and a pharmaceutically acceptable carrier for use in the treatment of cancer, in particular mesothelioma, wherein dendritic cells are loaded with said antigen composition and wherein said loaded dendritic cells are administered in combination with one or more checkpoint inhibitors, to patients. The present invention also relates to an antigen composition comprising at least two mesothelioma cancer cell associated antigens and a pharmaceutically acceptable carrier. The present invention further relates to an antigen composition comprising at least two mesothelioma cancer cell associated antigens and a pharmaceutically acceptable carrier, for use as a pharmaceutical, in particular for use in the treatment of mesothelioma.

This invention provides a system of providing and creating personalized immunotherapeutic compositions for a subject having a disease or condition, including therapeutic immunotherapy delivery vectors and methods of making the same comprising gene expression constructs expressing peptides associated with one or more neo-epitopes or peptides containing mutations that are specific to a subject's cancer or unhealthy tissue. A delivery vector of this invention includes bacterial vectors including Listeria bacterial vectors; or viral vectors, peptide immunotherapy vectors; or DNA immunotherapy vectors, comprising one or more fusion proteins comprising one or more peptides comprising one or more neo-epitopes present in disease-bearing biological samples obtained from the subject. This invention also provides methods of using the same for inducing an immune response against a disease or condition, including a tumor or cancer, or an infection, or an autoimmune disease or an organ transplant rejection in the subject.

The present invention provides improved LAMP Constructs comprising specific fragments of the LAMP lumenal domain to deliver antigens to immune cells for enhanced processing. These LAMP Constructs can be used for the treatment of disease and in particular, allergies, infectious disease, diabetes, hyperproliferative disorders and/or cancer. The improved LAMP Constructs allow for presentation of properly configured three dimensional epitopes for production of an immune response when administered to a subject. The improved LAMP Constructs can be multivalent molecules, and/or can be provided as part of a multivalent vaccine containing two or more LAMP Constructs. The improved LAMP Constructs as described herein can also be used to generate antibodies when administered to a non-human vertebrate.

The present invention relates to an RNA encoding a tumor antigen. In particular, the present invention relates to RNA suitable for treatment and/or prophylaxis of cancer and related diseases. The present invention concerns such RNA as well as compositions, vaccines and kits comprising the RNA. Furthermore, the present invention relates to the RNA, compositions, vaccines or kits as disclosed herein for use in the treatment and/or prophylaxis of cancer and related diseases.

The present disclosure relates to compositions and methods for targeting antigenically variable pathogens and diseases. Embodiments of the present disclosure involve of the construction of variable epitope libraries (VELs) containing mutated versions of epitopes derived from antigens associated with various diseases for treating subjects in both therapeutic and prophylactic settings. The present disclosure also provides compositions and methods for the production of VELs based on CTL-derived epitopes of survivin, an oncogenic inhibitor-of-apoptosis. Given the large number of potential epitopes expressed in tumors, and the dynamic nature of the tumor epitope landscape, there is a need to develop compositions and methods for targeting various antigenic epitopes to counteract immune escape.

Provided herein are recombinant fusion polypeptides comprising one or more antigenic peptides (e.g., fused to a PEST-containing peptide) from cancer-associated proteins. The antigenic peptides can comprise one or more or all of an antigenic peptide comprising a recurrent cancer mutation, an antigenic peptide comprising a heteroclitic mutation, or an antigenic peptide fused to a ubiquitin protein. For example, provided herein are recombinant fusion polypeptides comprising two or more antigenic peptides (e.g., fused to a PEST-containing peptide), wherein each antigenic peptide comprises a recurrent cancer mutation, and wherein at least two of the antigenic peptides are fragments of the same cancer-associated protein. Also provided are nucleic acids encoding such fusion polypeptides, recombinant bacteria or Listeria strains comprising such fusion polypeptides or such nucleic acids, and cell banks comprising such recombinant bacteria or Listeria strains. Also provided herein are methods of generating such fusion polypeptides, such nucleic acids, and such recombinant bacteria or Listeria strains. Also provided are immunogenic compositions, pharmaceutical compositions, and vaccines comprising such fusion polypeptides, such nucleic acids, or such recombinant bacteria or Listeria strains. Also provided are methods of inducing an anti-tumor-associated-antigen immune response in a subject, methods of inducing an anti-tumor or anti-cancer immune response in a subject, methods of treating a tumor or cancer in a subject, methods of preventing a tumor or cancer in a subject, and methods of protecting a subject against a tumor or cancer using such recombinant fusion polypeptides, nucleic acids, recombinant bacteria or Listeria strains, immunogenic compositions, pharmaceutical compositions, or vaccines.

The present disclosure relates to compositions and methods for targeting antigenically variable pathogens and diseases. Embodiments of the present disclosure involve of the construction of variable epitope libraries (VELs) containing mutated versions of epitopes derived from antigens associated with various diseases for treating subjects in both therapeutic and prophylactic settings. The present disclosure also provides compositions and methods for the production of VELs based on CTL-derived epitopes of survivin, an oncogenic inhibitor-of-apoptosis. Given the large number of potential epitopes expressed in tumors, and the dynamic nature of the tumor epitope landscape, there is a need to develop compositions and methods for targeting various antigenic epitopes to counteract immune escape.

The present invention relates to an RNA encoding a tumor antigen. In particular, the present invention relates to RNA suitable for treatment and/or prophylaxis of cancer and related diseases. The present invention concerns such novel RNA as well as compositions, vaccines and kits comprising the RNA. Furthermore, the present invention relates to the RNA, compositions, vaccines or kits as disclosed herein for use in the treatment and/or prophylaxis of cancer and related diseases.

This invention provides methods for treating cancer in a subject comprising administering to the subject an anti-PD-1 antibody and an anti-CD27 antibody. In some embodiments, the cancer is colorectal cancer, rectal cancer, colon cancer, lung cancer, melanoma, ovarian cancer, head and neck cancer, or any combination thereof.

Provided herein are recombinant fusion polypeptides comprising one or more antigenic peptides (e.g., fused to a PEST-containing peptide) from cancer-associated proteins. The antigenic peptides can comprise one or more or all of an antigenic peptide comprising a recurrent cancer mutation, an antigenic peptide comprising a heteroclitic mutation, or an antigenic peptide fused to a ubiquitin protein. For example, provided herein are recombinant fusion polypeptides comprising two or more antigenic peptides (e.g., fused to a PEST-containing peptide), wherein each antigenic peptide comprises a recurrent cancer mutation, and wherein at least two of the antigenic peptides are fragments of the same cancer-associated protein. Also provided are nucleic acids encoding such fusion polypeptides, recombinant bacteria or Listeria strains comprising such fusion polypeptides or such nucleic acids, and cell banks comprising such recombinant bacteria or Listeria strains. Also provided herein are methods of generating such fusion polypeptides, such nucleic acids, and such recombinant bacteria or Listeria strains. Also provided are immunogenic compositions, pharmaceutical compositions, and vaccines comprising such fusion polypeptides, such nucleic acids, or such recombinant bacteria or Listeria strains. Also provided are methods of inducing an anti-tumor-associated-antigen immune response in a subject, methods of inducing an anti-tumor or anti-cancer immune response in a subject, methods of treating a tumor or cancer in a subject, methods of preventing a tumor or cancer in a subject, and methods of protecting a subject against a tumor or cancer using such recombinant fusion polypeptides, nucleic acids, recombinant bacteria or Listeria strains, immunogenic compositions, pharmaceutical compositions, or vaccines.