Provided herein are combinations of first and second antibodies having modified Fc effector functions resulting from amino acid substitutions in the Fc region, the amino acid substitutions allow for co-dependent activation of effector functions such as CDC and/or ADCC. Also provided are combinations of first and second antibodies having agonistic activity or enhanced agonistic activity resulting from amino acid substitutions in the Fc region where the agonistic activity is co-dependent of both a first and second antibodies.

The present invention discloses the generation of novel variants of Fc domains, including those found in antibodies, Fc fusions, and immuno-adhesions, which have an increased binding to the FcRn receptor and/or increased serum half-life.

The invention provides compositions and methods for overcoming poor response to antibody therapy, for example, antibody resistance. The invention also relates to at least one immune receptor (IR) specific to the Fc receptor, vectors comprising the same, and recombinant T cells comprising the Fc immune receptor. The invention also includes methods of administering a modified T cell expressing an immune receptor that comprises a Fc binding domain.

The present application relates to optimized IgG immunoglobulin variants, engineering methods for their generation, and their application, particularly for therapeutic purposes.

The present application relates to a variant Fc region comprising at least one modification relative to a wild-type human Fc region, where the modification selected from the group consisting of 434S, 252Y/428L, 252Y/434S, and 428L/434S, and the numbering is according to the EU index.

The present invention relates to Fc variants having decreased affinity for FcγRIIb, methods for their generation, Fc polypeptides comprising optimized Fc variants, and methods for using optimized Fc variants.

Provided are binding polypeptides (e.g., antibodies), and drug conjugates thereof, comprising an Fc domain with an altered glycosylation profile and reduced effector function. In particular embodiment, the Fc domain comprises: an asparagine residue at amino acid position 298, according to EU numbering; and a serine or threonine residue at amino acid position 300, according to EU numbering. Also provided are nucleic acids encoding the antigen-binding polypeptides, recombinant expression vectors and host cells for making such antigen-binding polypeptides. Methods of using the antigen-binding polypeptides disclosed herein to treat disease are also provided.

The present invention discloses the generation of novel variants of Fc domains, including those found in antibodies, Fc fusions, and immuno-adhesions, which have an increased binding to the FcRn receptor and/or increased serum half-life.

The current disclosure provides binding polypeptides (e.g., antibodies), and targeting moiety conjugates thereof, comprising a site-specifically engineered glycan linkage within native or engineered glycans of the binding polypeptide. The current disclosure also provides nucleic acids encoding the antigen-binding polypeptides, recombinant expression vectors and host cells for making such antigen-binding polypeptides. Methods of using the antigen-binding polypeptides disclosed herein to treat disease are also provided.

Humanized mouse models and methods are provided for determining whether administration of an immunomodulatory drug likely elicits a severe cytokine release syndrome in a human. Humanized mouse models and methods are also provided for determining the immunotoxicity in a human of a drug candidate or of drug combinations.