Abstract: The present invention relates to immune cell-based anti-cancer therapeutics and methods of using the therapeutics in the treatment of cancer.

Abstract: The invention concerns pluri- or multipotent stem cells (SCs), e.g. human pluri- or multipotent stem cells (hSCs) engineered to express a multispecific antibody and which further express, on their surface, a human immune cell co-stimulatory ligand or an active fragment thereof.

Abstract: The present invention relates to immune cell-based anti-cancer therapeutics and methods of using the therapeutics in the treatment of cancer.

Abstract: The invention concerns pluri- or multipotent stem cells (SCs), e.g. human pluri- or multipotent stem cells (hSCs) engineered to express a multispecific antibody and which further express, on their surface, a human immune cell co-stimulatory ligand or an active fragment thereof.

Abstract: The present invention relates to immune cell-based anti-cancer therapeutics and methods of using the therapeutics in the treatment of cancer.

Abstract: The present invention relates to immune cell-based anti-cancer therapeutics and methods of using the therapeutics in the treatment of cancer.

Abstract: The present invention relates to a targeting module comprising a chemically synthesized peptide binding moiety specific for a human cell surface protein or protein complex, a kit comprising the targeting module and a vector or a cell comprising a nucleic acid encoding a universal chimeric antigen receptor and the use for the treatment of cancer, infections and autoimmune disorders.

Abstract: The present invention relates to immune cell-based anti-cancer therapeutics and methods of using the therapeutics in the treatment of cancer.

Abstract: The present invention relates to immune cell-based anti-cancer therapeutics and methods of using the therapeutics in the treatment of cancer.

Abstract: The invention relates to antibodies against the human La protein and to their use in immunotargeting, in particular the immunotargeting of tumor cells. The object of the invention is to provide improved antibodies which bind universal target structures on the surface of tumor cells, and to provide novel anti-La antibodies, in particular with a high affinity for La, a universal target structure on tumor cells, which make it possible to use the antibodies as recombinant fragments for immunotargeting. The invention comprises recombinant antibodies comprising: (i) a binding unit of an antibody which specifically binds to an epitope of a human nuclear antigen, preferably human La protein, and (ii) a binding unit of an antibody which specifically binds to an effector cell or of a ligand which specifically binds to an effector cell. The invention furthermore comprises novel antibodies which specifically bind the human La protein.

Abstract: The invention concerns pluri- or multipotent stem cells (SCs), e.g. human pluri- or multipotent stem cells (hSCs) engineered to express a multispecific antibody and which further express, on their surface, a human immune cell co-stimulatory ligand or an active fragment thereof.

Abstract: The invention concerns pluri- or multipotent stem cells (SCs), e.g. human pluri- or multipotent stem cells (hSCs) engineered to express a multispecific antibody and which further express, on their surface, a human immune cell co-stimulatory ligand or an active fragment thereof.

Abstract: The present invention relates to immune cell-based anti-cancer therapeutics and methods of using the therapeutics in the treatment of cancer.

Abstract: The invention relates to antibodies against the human La protein and to their use in immunotargeting, in particular the immunotargeting of tumour cells. The object of the invention is to provide improved antibodies which bind universal target structures on the surface of tumour cells, and to provide novel anti-La antibodies, in particular with a high affinity for La, a universal target structure on tumour cells, which make it possible to use the antibodies as recombinant fragments for immunotargeting. The invention comprises recombinant antibodies comprising: (i) a binding unit of an antibody which specifically binds to an epitope of a human nuclear antigen, preferably human La protein, and (ii) a binding unit of an antibody which specifically binds to an effector cell or of a ligand which specifically binds to an effector cell. The invention furthermore comprises novel antibodies which specifically bind the human La protein.

Abstract: The invention relates to antibodies against the human La protein and to their use in immunotargeting, in particular the immunotargeting of tumor cells. The object of the invention is to provide improved antibodies which bind universal target structures on the surface of tumor cells, and to provide novel anti-La antibodies, in particular with a high affinity for La, a universal target structure on tumor cells, which make it possible to use the antibodies as recombinant fragments for immunotargeting. The invention comprises recombinant antibodies comprising: i. a binding unit of an antibody which specifically binds to an epitope of a human nuclear antigen, preferably human La protein, and ii. a binding unit of an antibody which specifically binds to an effector cell or of a ligand which specifically binds to an effector cell. The invention furthermore comprises novel antibodies which specifically bind the human La protein.

Abstract: The invention concerns pluri- or multipotent stem cells (SCs), e.g. human pluri- or multipotent stem cells (hSCs) engineered to express a multispecific antibody and which further express, on their surface, a human immune cell co-stimulatory ligand or an active fragment thereof.

Abstract: The invention relates to recombinant antibodies which bind to prostate-specific stem cell antigen (PSCA). The antibody of the invention comprises complementarity-determining regions (CDR) having the following amino acid sequences: CDR of the variable region of the light chain: CDR1 SEQ ID No. 1, CDR2 SEQ ID No. 2, CDR3 SEQ ID No. 3, and CDR of the variable region of the heavy chain: CDR1 SEQ ID No. 4, CDR2 SEQ ID No. 5, CDR3 SEQ ID No. 6. The invention also embraces the use of the antibodies of the invention as medicinal products, especially for the treatment of tumor diseases, or as a diagnostic agent. The antibodies are suitable for use in the areas of medicine, pharmacy and biomedical research.

Abstract: The invention relates to antibodies to the tumor-associated antigen CD33 and to the use thereof for immunotargeting CD33-positive cells. The antibodies according to the invention are suitable for use in the field of medicine, pharmaceuticals, and biomedical research. According to the invention, the aim is achieved by means of novel anti-CD33 antibodies comprising the complementary determining regions (CDRs) defined in the claim. The antibodies according to the invention are characterized by a high affinity for human CD33, of the order of magnitude of 10?10 mol/l. The CDR sequences according to the invention are suitable in particular for producing recombinant fragments (such as scFv fragments or bispecific antibodies) and for immunotargeting, due to the high affinity thereof.