Provided herein is an FGL2 neutralization cell therapy comprising immune cells expressing a FGL2 neutralization construct. Further provided are methods for the treatment of cancer comprising administering the FGL2 neutralization cell therapy.

The present invention relates to reversal agents, which specifically bind to the anti-FXIa antibody 076D-M007-H04-CDRL3-N110D as described in WO2013/167669, and neutralize the therapeutic activity of this anti-FXIa antibody, as well as to compositions comprising these reversal agents. Methods of obtaining the antibodies or antigen-binding fragments thereof (such as Fab fragments) and nucleic acids encoding the same, are also provided. Furthermore, the invention relates to methods of use of these reversal agents, such as methods for neutralizing the therapeutic activity of the anti-FXIa antibody 076D-M007-H04-CDRL3-N110D, and to related methods as essential part of a general bleeding management.

The present invention relates to reversal agents, which specifically bind to the anti-FXIa antibody 076D-M007-H04-CDRL3-N110D as described in WO2013/167669, and neutralize the therapeutic activity of this anti-FXIa antibody, as well as to compositions comprising these reversal agents. Methods of obtaining the antibodies or antigen-binding fragments thereof (such as Fab fragments) and nucleic acids encoding the same, are also provided. Furthermore, the invention relates to methods of use of these reversal agents, such as methods for neutralizing the therapeutic activity of the anti-FXIa antibody 076D-M007-H04-CDRL3-N110D, and to related methods as essential part of a general bleeding management.

The present invention relates to improved procoagulant antibodies including bispecific antibodies capable of binding to coagulation Factor IX (FIX) or the activated form thereof Factor IXa (FIXa) and optionally Factor X (FX) and the activated form thereof Factor Xa (FXa) and promoting FX activation by FIXa, antibodies binding their epitopes and methods and composition for treating subjects suffering from a coagulopathy such as haemophilia A.

The present invention relates to improved procoagulant antibodies including bispecific antibodies capable of binding to coagulation Factor IX (FIX) or the activated form thereof Factor IXa (FIXa) and optionally Factor X (FX) and the activated form thereof Factor Xa (FXa) and promoting FX activation by FIXa, antibodies binding their epitopes and methods and composition for treating subjects suffering from a coagulopathy such as haemophilia A.

The present inventors produced a variety of bispecific antibodies that specifically bind to both F. IX/F. IXa and F. X, and functionally substitute for F. VIIIa, i.e., have a cofactor function to promote F. X activation via F. IXa. Among these antibodies, the antibody A44/B26 reduced coagulation time by 50 seconds or more as compared to that observed when the antibody was not added. The present inventors produced a commonly shared L chain antibody from this antibody using L chains of A44, and showed that A44L can be used as commonly shared L chains, although the activity of the resulting antibody is reduced compared to the original antibody (A44HL-B26HL). Further, with appropriate CDR shuffling, the present inventors successfully produced highly active multispecific antibodies that functionally substitute for coagulation factor VIII.

The present inventors produced a variety of bispecific antibodies that specifically bind to both F. IX/F. IXa and F. X, and functionally substitute for F. VIIIa, i.e., have a cofactor function to promote F. X activation via F. IXa. Among these antibodies, the antibody A44/B26 reduced coagulation time by 50 seconds or more as compared to that observed when the antibody was not added. The present inventors produced a commonly shared L chain antibody from this antibody using L chains of A44, and showed that A44L can be used as commonly shared L chains, although the activity of the resulting antibody is reduced compared to the original antibody (A44HL-B26HL). Further, with appropriate CDR shuffling, the present inventors successfully produced highly active multispecific antibodies that functionally substitute for coagulation factor VIII.

This invention relates to isolated antibodies which recognize the exosite 1 epitope of thrombin and selectively inhibit thrombin without promoting bleeding. These antibody molecules may be useful in the treatment and prevention of thrombosis, embolism and other conditions mediated by thrombin.

This invention relates to isolated antibodies which recognize the exosite 1 epitope of thrombin and selectively inhibit thrombin without promoting bleeding. These antibody molecules may be useful in the treatment and prevention of thrombosis, embolism and other conditions mediated by thrombin.

A device, interface complex, diagnostic system, kit or method for use in binding analyte of interest, wherein immobilizing is on an aluminum oxide surface. An interface molecule is immobilized on the aluminum oxide surface. Attached to the interface molecule, is a cross linking agent for binding to the analyte, or a biomolecule specific to the analyte. The interface molecule includes a polypeptide having at least one carboxy rich domain providing at least 5 free carboxyl groups within a molecular volume of 2.2-25 nm.sup.3, the free carboxyl groups being provided by amino acids containing two or more carboxyl groups, through which the interface molecule is immobilized to the aluminum oxide surface. The biomolecule may be covalently attached to the interface molecule, or the biomolecule may bean engineered antibody attached to the interface molecule through an antigenic determinant or through an Fc fragment.