Methods and compounds for conferring site-specific or local immune privilege.

Described are anti-LILRB3 antibody molecules, such as agonistic anti-LILRB3 antibody molecules for use in treatment of graft rejection or autoimmunity via reprograming of human myeloid cells. Described are also specific anti-LILRB3 antibody molecules and use of such antibody molecules in medicine, for example in treatment of graft rejection, autoimmune disorders or inflammatory disorders.

The present invention provides inhibitors of fucosylation during protein expression from mammalian cells. The inhibitors are derived from rhamnose and act by inhibition of GDP-mannose 4,6-dehydratase (GMD). The invention further provides methods of making proteins with reduced level of fucosylation, such as antibodies and antibodies made by the methods of the present invention. Such hypofucosylated or nonfucosylated antibodies may find use, for example, in treatment of human disease in which is it therapeutically eneficial to direct antibody dependent cellular cytotoxicity (ADCC) mediated killing of cells expressing the antibody target on their surface, for example in depletion of Tregs in cancer patients using a hypofucosylated or nonfucosylated anti-CTLA-4 antibody.

The present invention provides novel CD3 antigen binding fragments with particularly advantageous properties such as producibility, stability, binding affinity, biological activity, specific targeting of certain T cells, targeting efficiency, remaining tumor cell killing and reduced toxicity. The present invention also provides bispecific antigen binding molecules for activating T cells. In addition, the invention further provides methods of treating cancer in a subject in need thereof, comprising administering to the subject a pharmaceutical composition comprising the above said bispecific antigen binding molecules.

The present invention relates to CD160 binding molecules and nucleic acid sequences encoding such molecules. In particular embodiments, the present invention provides CD160 binding molecules (e.g., monoclonal antibodies or antibody fragments) with particular light chain and/or heavy chain CDRs (e.g., selected from SEQ ID NOS:2-4, 10-12, 6-8, and 14-16) and methods for using such molecules to treat an inflammatory disease, cancer, a chronic infection, and a refractory infection, or to determine whether cells with the CD160 surface receptor are present in certain tissues or cells being examined.

This disclosure provides a monoclonal population of highly sialylated multimeric binding molecules where the population includes IgM antibodies, IgM-like antibodies, or other IgM-derived binding molecules, where the population of binding molecules has a higher level of sialic acid content than is found in normal serum IgM. Also provided are methods of producing such monoclonal populations of highly sialylated multimeric binding molecules.

The present disclosure provides antibodies that specifically bind to human OX40 receptor (OX40) and compositions comprising such antibodies. In a specific aspect, the antibodies specifically bind to human OX40 and modulate OX40 activity, e.g., enhance, activate, or induce OX40 activity, or reduce, deactivate, or inhibit OX40 activity. The present disclosure also provides methods for treating disorders, such as cancer, by administering an antibody that specifically binds to human OX40 and modulates OX40 activity, e.g., enhances, activates, or induces OX40 activity. Also provided are methods for treating autoimmune or inflammatory diseases or disorders, by administering an antibody that specifically binds to human OX40 and modulates OX40 activity, e.g., reduces, deactivates, or inhibits OX40 activity.

Provided are methods, assays, and kits for detecting hepatocellular carcinoma, as well as methods for stratifying subjects among higher and lower risk categories for having hepatocellular carcinoma, and methods of treating and managing treatment of subjects that are suspected or at risk of having hepatocellular carcinoma. Although previous work has attempted to address the need for a highly sensitive, early predictor of hepatocellular carcinoma by assessment of one or more biological factors, none have approached the degree of sensitivity that is required for clinically relevant determination of whether a subject, especially a non-symptomatic subject, has that condition. The present inventors have discovered that certain combinations of factors fulfill this need by conferring a high level of accuracy that was not previously attainable.

The present disclosure relates to an antibody or antigen-binding fragment thereof that specifically binds to a spike protein of SARS-CoV-2. The present disclosure also relates to a pharmaceutical composition, a method for treating and/or preventing diseases and/or disorders caused by a coronavirus in a subject in need thereof, and a method for detecting a coronavirus in a sample.

The present invention describes antibodies that target CD19, wherein the antibodies comprise at least one modification relative to a parent antibody, wherein the modification alters affinity to an FcγR or alters effector function as compared to the parent antibody. Also disclosed are methods of using the antibodies of the invention.