Isolated antigen binding molecules that specifically bind to a BCMA binding molecule are provided. The antigen binding molecules may be used in the methods provided herein. Specifically, monoclonal anti-idiotypic antibodies are provided which bind to the antigen-binding portion of a BCMA-binding molecule, in particular of anti-BCMA CARs.

The present invention relates to polypeptides containing an antigen-binding domain and a carrying moiety having an inhibiting domain that inhibits the antigen-binding activity of the antigen-binding domain, and having a longer half-life than that of the antigen-binding domain existing alone; methods for producing and screening for the polypeptides; pharmaceutical compositions containing the polypeptide; methods for producing and screening for a single-domain antibody whose antigen-binding activity is inhibited by its association with particular VL, VH or VHH; and fusion polypeptide libraries including a single-domain antibody whose antigen-binding activity is inhibited by its association with particular VL, VH or VHH.

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.

Pharmaceutical compositions are disclosed including an effective amount of a fusion protein that contains an anchor domain and a therapeutic polypeptide for use in treating a disorder that affects the eye (e.g., corneal haze or scarring, dry eye disease, and inflammation of an ocular surface). Fusion proteins are disclosed that includes an anchor domain and a therapeutic polypeptide. Some embodiments include an isolated nucleic acid molecule that can encode the fusion protein. Methods are also disclosed for treating a subject with a disorder that affects the eye (e.g., corneal haze or scarring, dry eye disease, and inflammation of an ocular surface) that includes administering to the eye of the subject a therapeutically effective amount of the fusion protein disclosed herein.

The present disclosure relates to reversal agents, which specifically bind to anti-Factor XI and/or anti-Factor XIa antibodies, and reverse one or more anticoagulant effects of the anti-Factor XI and/or anti-Factor XIa antibodies, as well as to methods of use thereof, such as methods for reversing anticoagulant effects of such anti-Factor XI and/or anti-Factor XIa antibodies, and to related methods for managing bleeding or bleeding risks.

Provided herein are mesothelin (MSLN) targeting trispecific proteins comprising a domain binding to CD3, a half-life extension domain, and a domain binding to MSLN. Also provided are pharmaceutical compositions thereof, as well as nucleic acids, recombinant expression vectors and host cells for making such MSLN targeting trispecific proteins. Also disclosed are methods of using the disclosed MSLN targeting trispecific proteins in the prevention, and/or treatment of diseases, conditions and disorders.

Chemically induced dimerizers (AbCIDs) have emerged as one of the most powerful tools to artificially regulate signaling pathways in cells; however, no facile method to identify or design these systems currently exists. The present invention provides a methodology to rapidly generate antibody-based chemically induced dimerizers (AbCIDs) from known small-molecule-protein complexes by selecting for synthetic antibodies that recognize the chemical epitope created by the bound small molecule. Success of this strategy is demonstrated by generating ten chemically-inducible antibodies against the BCL-xL/ABT-737 complex. Three of the antibodies are highly selective for the BCL-xL/ABT-737 complex over BCL-xL alone. Two exemplary important cellular applications of AbCIDs are demonstrated by applying them intracellularly to induce CRISPRa-mediated gene expression and extracellularly to regulate CAR T-cell activation with the small molecule, ABT-737. ABT-737 is not toxic at the concentrations used to activate AbCIDs in cells. AbCIDs provided by this invention are new and orthogonal AbCIDs, expanding the limited toolbox of available CIDs.

Provided are a broad-spectrum monoclonal anti-Flu B antibody, cell strains generating the antibody, and a composition comprising the antibody; also provided are uses of the antibody for diagnosing, preventing and/or treating an infection of the Flu B and/or diseases caused by the infection.

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.

Disclosed herein are compositions comprising arenavirus monoclonal antibodies, as well as therapeutic, diagnostic, and preventative methods using the novel antibodies. Preventative methods include preparation of vaccines, as well as factors (e.g. small molecules, peptides) that inhibit Old World arenavirus infectivity, including LASV and LCMV. In some embodiments, the antibodies provide pan-arenavirus protection against a number of arenavirus types and strains. Diagnostic and therapeutic antibodies including neutralizing antibodies for the prevention and treatment of infection by LASV and other arenaviruses are also disclosed, as well as new tools and methods for the design, production, and use of arenavirus monoclonal antibodies, including expression in engineered bacterial- and mammalian-based systems.