Proteolytically cleavable chimeric polypeptides and methods of use thereof

What is claimed is: 1. A method of treatment, comprising administering to a patient having cancer a host cell comprising: i) a chimeric polypeptide comprising, from N-terminal to C-terminal and in covalent linkage: a) an extracellular domain comprising a specific binding member that specifically binds to a first peptide-major histocompatibility complex (peptide-MHC) comprising a first intracellular cancer antigen; b) a proteolytically cleavable Notch receptor polypeptide comprising Lin12 Notch repeats, a heterodimerization (HD) domain, a transmembrane domain and one or more proteolytic cleavage sites; and c) an intracellular domain comprising a transcriptional activator, wherein binding of the specific binding member to the first peptide-MHC induces cleavage of the Notch receptor polypeptide at the one or more proteolytic cleavage sites, thereby releasing the intracellular domain; and ii) a nucleic acid encoding a chimeric antigen receptor (CAR) or an engineered T cell receptor (TCR) operably linked to a transcriptional control element responsive to the transcriptional activator, wherein binding of the specific binding member to the first peptide-MHC induces cleavage of the Notch receptor polypeptide at the one or more proteolytic cleavage sites, thereby releasing the intracellular domain, activating the transcriptional control element and causing the CAR or engineered TCR to be expressed, wherein the CAR or engineered TCR specifically binds to a second peptide MHC comprising a second intracellular antigen associated with the cancer, and wherein the cancer expresses the first intracellular cancer antigen and the second intracellular cancer antigen. 2. The method of claim 1 , wherein the specific binding member comprises an antibody. 3. The method of claim 2 , wherein the antibody is a nanobody, a diabody, a triabody, or a minibody, a F(ab′) 2 fragment, a Fab fragment, a single chain variable fragment (scFv) or a single domain antibody (sdAb). 4. The method of claim 1 , wherein the first or second intracellular cancer antigen is a WT1 peptide or a NY-ESO peptide. 5. The method of claim 1 , wherein the one or more proteolytic cleavage sites comprises an S2 proteolytic cleavage site, an S3 proteolytic cleavage site or a combination thereof. 6. The method of claim 1 , wherein the host cell is a therapeutic immune cell. 7. The method of claim 1 , wherein the host cell is a therapeutic T cell. 8. A method of treatment, comprising administering to a patient having cancer a host cell comprising: a) a nucleic acid encoding a chimeric polypeptide comprising, from N-terminal to C-terminal and in covalent linkage: i) an extracellular domain comprising a specific binding member that specifically binds to a first cancer antigen present on the surface of a cancer cell; ii) a proteolytically cleavable Notch receptor polypeptide comprising Lin12 Notch repeats, a heterodimerization (HD) domain, a transmembrane domain and one or more proteolytic cleavage sites; and iii) an intracellular domain comprising a transcriptional activator; and b) a nucleic acid encoding a chimeric bispecific binding member operably linked to a transcriptional control element responsive to the transcriptional activator, wherein binding of the specific binding member to the first cancer antigen induces cleavage of the Notch receptor polypeptide at the one or more proteolytic cleavage sites, thereby releasing the intracellular domain, activating the transcriptional control element and causing the chimeric bispecific binding member to be expressed, wherein the chimeric bispecific binding member comprises a binding domain specific for a second cancer antigen and a binding domain specific for CD3 or Natural Killer Group 2D (NKG2D) receptor, wherein the cancer expresses the first cancer antigen and the second cancer antigen. 9. The method of claim 8 , wherein the host cell is a therapeutic immune cell. 10. The method of claim 8 , wherein the host cell is a T cell. 11. A method of treatment, comprising administering to a patient having cancer a host cell comprising: a) a nucleic acid encoding a chimeric polypeptide comprising, from N-terminal to C-terminal and in covalent linkage: i) an extracellular domain comprising a specific binding member that specifically binds to a first cancer antigen present on the surface of a cancer cell; ii) a proteolytically cleavable Notch receptor polypeptide comprising Lin12 Notch repeats, a heterodimerization (HD) domain, a transmembrane domain and one or more proteolytic cleavage sites; and iii) an intracellular domain comprising a transcriptional activator; and b) a nucleic acid encoding an anti-Fc chimeric antigen receptor (CAR) operably linked to a transcriptional control element responsive to the transcriptional activator, wherein binding of the specific binding member to the first cancer antigen induces cleavage of the Notch receptor polypeptide at the one or more proteolytic cleavage sites, thereby releasing the intracellular domain, activating the transcriptional control element and causing the anti-Fc CAR to be expressed, wherein the host cell further comprises a nucleic acid encoding an antibody specific for a second cancer antigen present on the surface of a cancer cell and the antibody specific for a second cancer antigen present on the surface of a cancer cell comprises an Fc region that is bound by the anti-Fc CAR, wherein the cancer expresses the first cancer antigen and the second cancer antigen. 12. The method of claim 11 , wherein the nucleic acid encoding the antibody is operably linked to the transcriptional control element. 13. The method of claim 11 , wherein the host cell is a therapeutic immune cell. 14. The method of claim 11 , wherein the host cell is a T cell. 15. A method of treatment, comprising administering to a patient having cancer a host cell comprising: a) a nucleic acid encoding a chimeric polypeptide comprising, from N-terminal to C-terminal and in covalent linkage: i) an extracellular domain comprising a specific binding member that specifically binds to a cancer antigen present on the surface of a cancer cell; ii) a proteolytically cleavable Notch receptor polypeptide comprising Lin12 Notch repeats, a heterodimerization (HD) domain, a transmembrane domain and one or more proteolytic cleavage sites; and iii) an intracellular domain comprising a transcriptional activator; and b) a nucleic acid encoding an innate-immune response inducer operably linked to a transcriptional control element responsive to the transcriptional activator, wherein binding of the specific binding member to the cancer antigen induces cleavage of the Notch receptor polypeptide at the one or more proteolytic cleavage sites, thereby releasing the intracellular domain, activating the transcriptional control element and causing the innate-immune response inducer to be expressed, wherein the innate-immune response inducer is a bacterial protein or fragment thereof, a viral protein or fragment thereof, a fungal protein or fragment thereof, or a protein or fragment thereof expressed by a mammalian parasite, wherein the cancer expresses the cancer antigen. 16. The method of claim 15 , wherein the host cell is a therapeutic immune cell. 17. The method of claim 15 , wherein the host cell is a T cell.