Disclosed are therapeutic means, protocols, and compositions of matter useful for treatment of cancer by eliciting and amplifying immune responses specific to antigens found on tumor endothelium. In one embodiment of the invention a patient is immunized with a polyvalent anti-angiogenic vaccine, subsequent to which assessment is made in a patient specific manner of the immune targets that are recognized in response to the immunizing mixture. Subsequently immune targets that are identified are chosen for antigen-specific immunization to amplify initial immune response stimulated by the polyvalent vaccination.

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 immunostimulatory composition comprising a) an adjuvant component, comprising or consisting of at least one (m)RNA, complexed with a cationic or polycationic compound, and b) at least one free mRNA, encoding at least one therapeutically active protein, antigen, allergen and/or antibody, wherein the immunostimulatory composition is capable to elicit or enhance an innate and optionally an adaptive immune response in a mammal. The inventive immunostimulatory composition may be a pharmaceutical composition or a vaccine. The invention furthermore relates to a method of preparation of the inventive immunostimulatory composition. The invention also relates to the use of the inventive immunostimulatory composition or its components (for the preparation of a pharmaceutical composition or a vaccine) for the treatment of various diseases. Finally, the invention relates to kits containing the inventive immunostimulatory composition, its components and/or the pharmaceutical composition or vaccine.

The present invention relates to a method for immunostimulation in a mammal which comprises a. administration of at least one mRNA containing a region which codes for at least one antigen of a pathogen or at least one tumour antigen, and b. administration of at least one cytokine, at least one cytokine mRNA, at least one CpG DNA or at least one adjuvant RNA. The invention likewise relates to a product and a kit comprising the mRNA and cytokine or cytokine mRNA or CpG DNA or adjuvant RNA of the invention.

MHC Class I-restricted peptides derived from the tumor associated antigen, survivin, which peptides are capable of binding to Class I HLA molecules at a high affinity, capable of eliciting INF--producing cells in a PBL population of a cancer patient and capable of in situ detection of cytotoxic T cells in a tumor tissue, therapeutic and diagnostic composition comprising the peptide and uses thereof.

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 cancer stem cell targeted cancer vaccines and methods for treating and vaccinating against cancer. Also contained herein are regimens by which cancer stem cell targeted cancer vaccines are administered, such regimens comprising peptides, compositions, immunomodulatory agents, and emulsifiers. Also provided are the patient populations to which the regimens are to be administered, and the dosages, schedules, and route of administration for the regimens.

Provided herein are systems, compositions, and methods for generating immunogenic peptides or epitopes from tumor associated antigens (e.g., in vivo or ex vivo). Polynucleotides (e.g., genes) encoding the tumor associated antigens may be edited at selected target sites by nucleobase editors comprising a catalytically-inactive Cas9 and a cytosine deaminase, leading to the expression of heteroclitic or cryptic peptides that are more immunogenic than the native peptide derived from the tumor associated antigens. The heteroclitic or cryptic peptide elicit strong tumor-specific immune response (e.g., T-cell response or B-cell response), which inhibits tumor growth and metastasis.

The invention relates to a composition and related methods for reducing tumor volume and/or increasing the survival of a cancer patient. The composition comprises a recombinant MVA encoding a Tumor Associated Antigen (TAA) as well as 4-1BBL and/or CD40L and can be administered to a subject in any suitable manner, including by intravenous and/or intratumoral administration.

The present disclosure provides recombinantly manufactured fusion proteins comprising a Programmed Death-Ligand 1 (PD-L1) protein fragment or an analog thereof linked to a canine Fc fragment. Embodiments include the administration of the fusion proteins to patients as a treatment for cancers, tumors or other diseases associated with expression of the PD-L1 protein in dogs. Exemplary Fc fusion proteins and pharmaceutical formulations of exemplary Fc fusion proteins are provided, in addition to methods of use and preparation.