Isolated antigen binding molecules that specifically bind to an anti-CD19 scFv comprising SEQ ID NO: 1 are provided. The antigen binding molecules can be used in the methods provided herein.

The invention relates to methods of determining whether or not an individual has or is likely to develop a neurological disease and related methods and kits.

Isolated human monoclonal antibodies which bind to and inhibit human CD20, and related antibody-based compositions and molecules, are disclosed. The human antibodies can be produced by a transfectoma or in a non-human transgenic animal, e.g., a transgenic mouse, capable of producing multiple isotypes of human monoclonal antibodies by undergoing V-D-J recombination and isotype switching. Also disclosed are pharmaceutical compositions comprising the human antibodies, non-human transgenic animals and hybridomas which produce the human antibodies, and therapeutic and diagnostic methods for using the human antibodies.

The present invention relates to novel antibodies and their use in medicine. In particular, the invention relates to bispecific antibodies capable of binding human PD-L1 and capable of binding human CD3. Novel classes of antibodies capable of binding human PD-L1 are also provided. The invention furthermore relates to uses of the antibodies of the invention and to methods, nucleic acid constructs and host cells for producing antibodies of the invention.

Isolated human monoclonal antibodies which bind to and inhibit human CD25, and related antibody-based compositions and molecules, are disclosed. The human antibodies can be produced by a hybridoma, a transfectoma or in a nonhuman transgenic animal, e.g., a transgenic mouse, capable of producing multiple isotypes of human monoclonal antibodies by undergoing V-D-J recombination and isotype switching. Also disclosed are pharmaceutical compositions comprising the human antibodies, nonhuman transgenic animals, hybridomas and transfectomas which produce the human antibodies, and therapeutic and diagnostic methods for using the human antibodies.

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.

Isolated antigen binding molecules that specifically bind to an anti-CD19 scFv comprising SEQ ID NO: 1 are provided. The antigen binding molecules can be used in the methods provided herein.

The present invention describes the generation of an anti-idiotype single-chain Fv (scFv) antibody specific for the murine (RFB4), chimeric (SM03) and humanized (SM06) versions of an anti-CD22 antibody (the anti-CD22 antibodies). The present invention further describes the construction of a murine IgG2a/kappa immunoglobulin carrying the variable region sequences of the anti-idiotype scFv sequences. Additionally, the present invention provides a cell line capable of producing an anti-idiotype murine antibody specific for the anti-CD22 antibodies. The present invention is directed against a method for identifying and evaluating the activities and concentration of the anti-CD22 antibodies. Additionally, the present invention provides a method for evaluating serum concentration of the anti-CD22 antibodies that are being used clinically. The present invention is also directed against a method to detect HAMA, HACA and HAHA responses in patients treated with the anti-CD22 antibodies. Specifically, the present invention is directed against the establishment of a cell line expressing surface concentration of the antibody of the invention; the said cell line expressing surface anti-idiotype antibodies or antibody fragments will be used as the target cell line for evaluating the functional activities of the anti-CD22 antibodies via complement dependent cytotoxicity (CDC) and/or antibody dependent cell cytotoxicity (ADCC) activities.

Provided herein are methods of monitoring for the production of select antibodies in a non-human animal, comprising (a) immunizing a non-human animal with an immunogen; (b) obtaining a blood sample comprising antibody secreting cells (ASCs) from said non-human animal; and (c) individually assaying ASCs present in the blood sample, or a fraction thereof, for the production of select antibodies. Methods of guiding antibody production in a non-human animal for the production of select antibodies are also provided. In exemplary embodiments, the method comprises performing a cycle of (a) to (c), as above, and repeating the cycle when the percentage of ASCs producing select antibodies is below a threshold. In various aspects, the cycle is repeated until the percentage of ASCs producing select antibodies is at or above a threshold. Single cell assays are further provided herein.

Provided herein are methods of generating hybridomas and related methods of producing antigen-specific antibodies. In exemplary embodiments, the method comprises (a) preparing an enriched population of IgG-positive (IgG+) memory B cells from cells obtained from secondary lymphoid organs of one or more immunized non-human animals, wherein (i) less than or about 10% of the enriched population are IgM-positive (IgM+) B cells and/or (ii) the ratio of the IgG+ memory B cell count to IgM+ B cell count of the enriched population is greater than about 0.5, optionally, greater than about 1 or greater than about 2, (b) bulk-culturing the enriched population to obtain an expanded population; and (c) fusing cells of the expanded population with myeloma cells to obtain hybridomas. In exemplary aspects, the hybridomas obtained represent at least 10% or at least 15% of the IgG+ memory B cell repertoire produced by the immunized animals.