Abstract: The invention relates to isolated single-domain antibodies (sdAb) directed against von Willebrand Factor (VWF) D?D3 domain and chimeric polypeptides comprising thereof such as blood clotting factors and their uses in therapy such as in the prevention and treatment of hemostatic disorders.

Abstract: The invention relates to isolated single-domain antibodies (sdAb) directed against von Willebrand Factor (VWF) D?D3 domain and chimeric polypeptides comprising thereof such as blood clotting factors and their uses in therapy such as in the prevention and treatment of hemostatic disorders. The invention also relates to a method of extending or increasing half-life of a therapeutic polypeptide comprising a step of adding to the polypeptide sequence of said therapeutic polypeptide at least one sdAb directed against VWF D?D3 domain.

Abstract: The present invention relates to a peptide comprising the amino acid sequence QGLIGDIALPRWGALWGDSV (SEQ ID NO: 1). Inventors have tested in wild-type mice a single domain antibody directed against VWF and tagged with an albumin-binding peptide. After giving a single dose intravenously (50 microgram/mouse), VWF levels were increased 8-15 fold for at least 7 days, knowing that the half-life of VWF is about 2-3 hours in a mouse. Moreover, intravenous administration of VWF together with a sdAb fused to an albumin-binding peptide resulted in detectable levels of VWF at 48 and 72 hours after injection, whereas no VWF could be detected when injected in the absence of such sdAb fused to an albumin-binding peptide. Thus, these results show a very long-lasting effect of this new approach.

Abstract: The invention relates to isolated single-domain antibodies (sdAb) directed against von Willebrand Factor (VWF) D?D3 domain and chimeric polypeptides comprising thereof such as blood clotting factors and their uses in therapy such as in the prevention and treatment of hemostatic disorders. The invention also relates to a method of extending or increasing half-life of a therapeutic polypeptide comprising a step of adding to the polypeptide sequence of said therapeutic polypeptide at least one sdAb directed against VWF D?D3 domain.

Abstract: The invention relates to isolated single-domain antibodies (sdAb) directed against von Willebrand Factor (VWF) D?D3 domain and chimeric polypeptides comprising thereof such as blood clotting factors and their uses in therapy such as in the prevention and treatment of hemostatic disorders. The invention also rotates to a method of extending or increasing half-life of a therapeutic polypeptide comprising a step of adding to the polypeptide sequence of said therapeutic polypeptide at least one sdAb directed against VWF D?D3 domain.

Abstract: The present invention relates to isolated single-domain antibodies (sdAb) directed against Antithrombin (AT) to prolong the half-life of the proteins. Inventors have generated isolated single domain antibodies (sdAbs) directed against antithrombin. They observed that in amidolytic assays, sdAbs are incapable of blocking the inhibitory antithrombin activity towards thrombin and factor Xa in the presence of heparin. The different combinations of sdAb were able to block the inhibitory antithrombin activity towards thrombin and factor Xa in mice. Thus, the inventors propose to use different combinations of sdAb to block the inhibitory function of antithrombin in order to promote thrombin generation and thus treat haemophilia and other conditions that are associated with bleeding.

Abstract: The invention relates to isolated single-domain antibodies (sdAb) directed against von Willebrand Factor (VWF) D?D3 domain and chimeric polypeptides comprising thereof such as blood clotting factors and their uses in therapy such as in the prevention and treatment of hemostatic disorders. The invention also rotates to a method of extending or increasing half-life of a therapeutic polypeptide comprising a step of adding to the polypeptide sequence of said therapeutic polypeptide at least one sdAb directed against VWF D?D3 domain.