Provided herein are immunogenic compositions comprising a recombinant modified vaccinia virus Ankara (MVA) comprising a nucleic acid sequence encoding a CD40 ligand (CD4OL) and a nucleic acid sequence encoding a heterologous disease-associated antigen, wherein the immunogenic composition induces increases T-cell immune responses specific for the heterologous disease-associated antigen when administered to a human host, and related methods and uses.

The present invention provides a conjugate comprising an albumin binding peptide and a cargo, compositions for directing cargos to the lymphatic system, and vaccines. The methods of the invention can be used to increase an immune response, or to treat cancer or an infectious disease.

The present invention relates to autologous dual-specific lymphocytes, methods of making and uses for the treatment of tumors. In particular, the invention relates to methods producing autologous dual-specific lymphocytes comprising an endogenous receptor for at least one tumor associated antigen and an exogenous receptor for a strong antigen

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.

A method of producing dendritic gold nanoparticles by combining a gold precursor solution, a reducing agent, and a bifunctional peptide having an amine-rich amino acid sequence into a buffered aqueous solution in a single container, and agitating the mixture causing the formation of the dendritic gold nanoparticles having a surface with a positive charge and a second end portion of the bifunctional peptide exposed on the surface of the dendritic gold nanoparticles. The dendritic gold nanoparticles may be used to deliver therapeutic, diagnostic, and/or immunogenic amino acid sequences as portions of the bifunctional peptide.

Disclosed are immunotherapeutic compositions and the concurrent use of combinations of such compositions for the improved induction of therapeutic immune responses and/or for the prevention, amelioration and/or treatment of disease, including, but not limited to, cancer and infectious disease.

Materials and methods useful for generating highly mannosylated pseudotyped lentiviral vector particles comprising a Vpx protein are provided.

A set of target peptides are presented by HLA A*0201, B*0301, B*0702 and B*2705 on the surface of disease cells. They are envisioned to, among other things, stimulate an immune response to the proliferative disease, e.g., colorectal cancer, to function as immunotherapeutics in adoptive T cell therapy or as a vaccine, facilitate antibody recognition of tumor boundaries in surgical pathology samples, act as biomarkers for early detection and/or diagnosis of the disease, and/or act as targets in the generation antibody-like molecules which recognize the target-peptide/MHC complex.

The present disclosure provides nucleic acid constructs for the treatment of cancer, comprising a cancer-specific promoter and one or more therapeutic genes.

Provided are isolated TCRs, TCR-like molecules, and portions thereof that bind to phosphopeptide-HLA-A2 complexes. The isolated TCRs, TCR-like molecules, or portions are optionally soluble TCRs, TCR-like molecules, or portions. Also provided are isolated nucleic acids encoding the disclosed TCRs, TCR-like molecules, or portions; host cells that contain the disclosed TCRs, TCR-like molecules, or portions; pharmaceutical compositions that include the disclosed TCRs, TCR-like molecules, portions, nucleic acids, and/or T cells; kits; and methods of using the same.