The present invention relates to a chimeric costimulatory antigen receptor (CoStAR) useful in adoptive cell therapy (ACT), and cells comprising the CoStAR. The CoStAR can act as a modulator of cellular activity enhancing responses to defined antigens. The present invention also provides CoStAR proteins, nucleic acids encoding the CoStAR and therapeutic uses thereof.

A chimeric antigen receptor (CAR), including an antigen-binding domain, a CD8 or CD28 hinge domain, a DAP10 cytoplasmic domain, a 2B4 cytoplasmic domain, and a CD3z cytoplasmic domain, where the CAR is expressed in natural killer (NK) cells. A method for treating cancer, including administering a therapeutically effective amount of a composition containing a NK cell that expresses the CAR, or a therapeutically effective amount of a cellular therapeutic agent containing a NK cell that expresses the CAR, to a subject in need thereof.

The present invention provides methods for detecting CEACAM1 expression in a cancer patient. In particular, methods according to the present invention include contacting a biological sample having Tumor Infiltrating Lymphocytes expressing CEACAM1 with an anti-CEACAM1 antibody labeled with a detectable moiety.

The present invention provides compositions comprising anti-CEACAM1 antibodies, compositions comprising antibodies capable of inhibiting or blocking the interaction between PD-1 and its ligands, and methods for their combined use in treating cancer.

The present invention provides a complex for use in the prevention and/or treatment of cancer, the complex comprising a) a cell penetrating peptide, b) at least one antigen or antigenic epitope, and c) at least one TLR peptide agonist, wherein the components a)-c) are covalently linked. In particular, compositions for use in the prevention and/or treatment of cancer, such as a pharmaceutical compositions and vaccines are provided.

Provided is a dendritic cell therapeutic agent, and more particularly, a composition which include dendritic cells activated by peptides including a telomerase-derived peptide, the composition administered to treat an individual having disease and disorder symptoms which require target-specific treatments. Also, provided is a therapeutic method effective on diseases requiring target-specific immunotherapy. In the method, co-administration of the dendritic cell therapeutic agent and an immunotherapeutic agent including the telomerase-derived peptide results in decreased factors causing one of the disease and disorder symptoms requiring the target-specific treatment, such as cancer, in a tumor disease treatment.

The present disclosure provides immunogenic compositions comprising the N-domain of carcinoembryonic antigen (CEA). These compositions are useful for inducing or enhancing an immune response, for inhibiting tumor cell growth and for treating cancer.

Compositions and methods are presented that allow for an enhanced immune response against a GPI-anchored tumor associated antigen by modification of the protein portion of the TAA to include a transmembrane domain and a trafficking signal that directs the modified protein to the endosomal or lysosomal compartment. Most preferably, the modified protein will no longer have a GPI anchor or GPI attachment sequence.

Humanized antibodies, capable of specific binding to human CEACAM1 molecules containing human-to-murine back-mutations in non-CDR variable regions, and their encoding polynucleotide sequences are provided. Pharmaceutical compositions comprising these antibodies as well as methods of their use in treating and diagnosing cancer and other conditions are also provided.

The present invention relates to at least one glycosylation inhibitor for use in combination with CAR cell therapy. Preferably the glycosylation inhibitor improves the therapeutic potential of the CAR cell therapy. The invention also relates to pharmaceutical composition and to population or subpopulation of CAR cell that has been contacted with at least one glycosylation inhibitor.