The present application provides constructs comprising an antibody moiety that specifically binds to a complex comprising an AFP peptide and an MHC class I protein. Also provided are methods of making and using these constructs.

A method is disclosed for treating small cell lung cancer (SCLC) in a subject that involves administering to the subject a therapeutically effective amount of dendritic cells engineered to overexpress p53. In some embodiments, the method further involves administering to the subject a therapeutically effective amount of all-trans-retinoic acid (ATRA). The method can also involve administering to the subject a therapeutically effective amount of an immune checkpoint inhibitor.

Replicable libraries having discrete members in defined locations for screening for antigens to a pathogenic organism are provided. Also provided are methods for using such libraries as well as a specific antigen, CT788, which induces T-cell activation during a Chlamydia infection.

The present invention relates to an ErbB2-specific NK-92 cell or cell line containing a lentiviral vector encoding a chimeric antigen receptor and preferably two vector integration loci in its cellular genome. The present invention further relates to the use of the ErbB2-specific NK-92 cell or cell line in the prevention and/or treatment of cancer, preferably ErbB2-expressing cancers. The present invention further relates to the use of the ErbB2-specific NK-92 cell or cell line as targeted cell therapeutic agent and/or for adoptive cancer immunotherapy. The present invention further relates to a method for generating an ErbB2-specific NK-92 cell or cell line as well as to a method for identifying an ErbB2-specific NK-92 cell or cell line and to the ErbB2-specific NK-92 cell or cell line obtained or identified by the methods as well as their uses.

Methods and compositions for increasing the number and/or activity of regulatory T cells (Tregs) in vivo and in vitro, to induce tolerance to diabetogenic autoantigens.

The present invention provides compositions and methods for treating multiple myeloma.

The present invention provides a medicine containing a Toll-like receptor agonist, LAG-3 protein, a variant or derivative thereof.

The technology relates in part to methods for inducing partial apoptosis of cells that express an inducible caspase polypeptide. The technology further relates in part to methods for inducing partial apoptosis of cells that express an inducible modified caspase polypeptide, having a modified dose response curve to the multimeric ligand inducer. The technology also relates in part to methods for cell therapy using cells that express the inducible caspase polypeptide or the inducible modified caspase polypeptide, where the proportion of caspase polypeptide-expressing cells eliminated by apoptosis is related to the administered amount of the multimeric ligand inducer.

The present invention relates to a phenotypically distinct CD1d.sup.highCD5.sup.+ B cell subset that regulates T cell mediated inflammatory responses through the secretion of interleukin-10 (IL-10). The invention also relates to the use of these IL-10 producing regulatory B cells in the manipulation of immune and inflammatory responses, and in the treatment of disease. Therapeutic approaches involving adoptive transfer of these regulatory B cells, or expansion of their endogenous levels for controlling autoimmune or inflammatory diseases and conditions are described. Ablation of this subset of regulatory B cells, or inhibition of their IL-10 production can be used to upregulate immunodeficient conditions, and/or to treat tumors/cancer. Diagnostic applications also are encompassed.

Chimeric transmembrane immunoreceptors (CAR) which include an extracellular domain that includes IL-13 or a variant thereof that binds interleukin-13R?2 (IL13R?2), a transmembrane region, a costimulatory domain and an intracellular signaling domain are described.