Abstract: A Twin Immune Cell Engager (TWICE) is a kit or composition for treating cancer comprising a first component and second component. Each component comprises a targeting moiety that binds a tumor antigen expressed by the cancer or an antigen expressed by a non-cancer cell in the tumor microenvironment. In some embodiments, the first and second components each comprise an immune cell binding domain capable of immune cell binding activity when binding the immune cell binding domain in the other component, and a complementary binding domain capable of binding to a complementary antigen when binding the complementary binding domain in the other component. In some embodiments, the first and/or second components comprise a complementary functional domain with activity when targeted to the cancer cell or its microenvironment. The present TWICE complexes offer a unique ability to combine multiple functions into a two-component complex that becomes activated in the tumor microenvironment.

Abstract: A Twin Immune Cell Engager (TWICE) is a kit or composition for treating cancer comprising a first component and second component. Each component comprises a targeting moiety that binds a tumor antigen expressed by the cancer or an antigen expressed by a non-cancer cell in the tumor microenvironment. In some embodiments, the first and second components each comprise an immune cell binding domain capable of immune cell binding activity when binding the immune cell binding domain in the other component, and a complementary binding domain capable of binding to a complementary antigen when binding the complementary binding domain in the other component. In some embodiments, the first and/or second components comprise a complementary functional domain with activity when targeted to the cancer cell or its microenvironment.

Abstract: The present disclosure provides targeted T-cell engaging agents (TEAC) and antibody tumor-targeting assembly complexes (ATTAC) for targeting to cancer. The TEAC or ATTAC described herein may have, for example, longer half-life or comprise multiple components in a single agent.

Abstract: Provided herein is a platform technology for the generation of properly paired bispecific antibodies. Some of the antibodies generated have Fc region modifications, in particular in their CH3 domains by lysine repositioning to drive heterodimerization of the two heavy chains of the bispecific antibody. Some of the antibodies generated have Fab arm modifications to prevent mispairing of light chains. Specifically, the CH1 and CL domains of one of the Fab arms of the bispecific antibody are substituted with an IgE CH2 domain or an IgM CH2 domain.

Abstract: A Twin Immune Cell Engager (TWICE) is a kit or composition for treating cancer comprising a first component and second component. Each component comprises a targeting moiety that binds a tumor antigen expressed by the cancer or an antigen expressed by a non-cancer cell in the tumor microenvironment. In some embodiments, the first and second components each comprise an immune cell binding domain capable of immune cell binding activity when binding the immune cell binding domain in the other component, and a complementary binding domain capable of binding to a complementary antigen when binding the complementary binding domain in the other component. In some embodiments, the first and/or second components comprise a complementary functional domain with activity when targeted to the cancer cell or its microenvironment. The present TWICE complexes offer a unique ability to combine multiple functions into a two-component complex that becomes activated in the tumor microenvironment.

Abstract: Provided herein are solutions to the heavy and light chain mispairing problems in bispecific antibodies. One part of the solution involves Fc regions that are engineered in their CH3 domains by lysine repositioning to drive heterodimerization of the two heavy chains of the bispecific antibody. The second part of the solution involves a modification of one of the two Fab arms of the bispecific antibody so as to prevent mispairing of light chains in the bispecific antibody. Specifically, the CH1 and CL domains of one of the Fab arms of the bispecific antibody are substituted with an IgE CH2 domain or an IgM CH2 domain.

Abstract: Humanized antibodies and antibody fragments that bind to ?v?5 are disclosed. Also disclosed are methods of using the disclosed antibodies and antibody fragments to treat or prevent ?v?5-mediated diseases.