Abstract: Provided herein are anti-idiotype antibodies that specifically recognize anti-CD19 antibody moieties, in particular, anti-CD19 antibody moieties present in recombinant receptors, including chimeric antigen receptors (CARs). The disclosure further relates to uses of anti-idiotype antibodies for specifically identifying and/or selecting cells expressing such recombinant receptors, such as anti-CD19 CART cells. The disclosure further relates to uses of anti-idiotype antibodies for specifically activating such cells.

Abstract: Provided are methods of treatment, such as methods involving administering and/or determining dosing of, cell therapy, such as of cells engineered with a recombinant receptor, such as a T cell receptor (TCR) or chimeric antigen receptor (CAR). In some embodiments, the methods include determining a therapeutic range and/or window for dosing, for example, based on the estimated probabilities of risk of developing a toxicity and estimated probabilities of a treatment outcome or response, such as treatment, reduction nor amelioration of a sign or symptom thereof, or degree or durability thereof, following administration of the cell therapy or engineered cells. In some aspects, the methods involve administering an agent capable of modulating the engineered cells. Also provided are methods of ameliorating and/or treating a toxicity.

Abstract: Provided are methods of determining dosing of cells engineered with a recombinant receptor, such as a T cell receptor (TCR) or chimeric antigen receptor (CAR). In some embodiments, the methods include determining a therapeutic range for dosing by the estimated probabilities of risk of developing a toxicity and estimated probabilities of response to the engineered cells when administered.

Abstract: Methods for treating cancer by co-administering a therapeutic monoclonal antibody with IL-21 are described. Exemplary monoclonal antibodies that can be used are rituximab, trastuzumab and anti-CTLA-4 antibodies. The enhanced antitumor of the combination therapy is particularly useful for patient populations that are recalcitrant to monoclonal therapy, relapse after treatment with monoclonal antibodies or where the enhanced IL-21 antitumor effect reduces toxicities associated with treatment using the monoclonal antibodies.

Abstract: Methods for treating cancer by co-administering a therapeutic monoclonal antibody with IL-21 are described. Exemplary monoclonal antibodies that can be used are rituximab, trastuzumab and anti-CTLA-4 antibodies. The enhanced antitumor of the combination therapy is particularly useful for patient populations that are recalcitrant to monoclonal therapy, relapse after treatment with monoclonal antibodies or where the enhanced IL-21 antitumor effect reduces toxicities associated with treatment using the monoclonal antibodies.

Abstract: Methods for treating cancer by co-administering a therapeutic monoclonal antibody with IL-21 are described. Exemplary monoclonal antibodies that can be used are rituximab, trastuzumab and anti-CTLA-4 antibodies. The enhanced antitumor of the combination therapy is particularly useful for patient populations that are recalcitrant to monoclonal therapy, relapse after treatment with monoclonal antibodies or where the enhanced IL-21 antitumor effect reduces toxicities associated with treatment using the monoclonal antibodies.

Abstract: Methods for treating cancer by co-administering a therapeutic monoclonal antibody with IL-21 are described. Exemplary monoclonal antibodies that can be used are rituximab, trastuzumab and anti-CTLA-4 antibodies. The enhanced antitumor of the combination therapy is particularly useful for patient populations that are recalcitrant to monoclonal therapy, relapse after treatment with monoclonal antibodies or where the enhanced IL-21 antitumor effect reduces toxicities associated with treatment using the monoclonal antibodies.

Abstract: DNA constructs useful in the production of thrombopoietin are disclosed. In general, the DNA constructs comprise a first DNA segment encoding a fusion of an amino-terminal secretory peptide joined to a thrombopoietin polypeptide and one or more additional DNA segments that provide for the transcription of the first segment. The secretory peptide is a native mammalian t-PA secretory peptide or may be modified to enhance proteolytic cleavage of the fusion. Also disclosed are cultured eukaryotic cells containing these DNA constructs and methods for producing thrombopoietin polypeptides through the use of the DNA constructs and cultured eukaryotic cells.