Non-human animal genomes, non-human animal cells, and non-human animals comprising a humanized coagulation factor XII (F12) locus and methods of making and using such non-human animal genomes, non-human animal cells, and non-human animals are provided. Non-human animal cells or non-human animals comprising a humanized F12 locus express a human coagulation factor XII protein or a chimeric coagulation factor XII protein, fragments of which are from human coagulation factor XII. Methods are provided for using such non-human animals comprising a humanized F12 locus to assess in vivo efficacy of human-coagulation-factor-XII-targeting reagents such as nuclease agents designed to target human F12. A short isoform of F12 that is produced locally in the brain, and methods of using the short isoform, are also provide.

The present invention includes compositions and methods for treating diseases or disorders associated with pathological calcification or pathological ossification. In certain embodiments, the diseases or disorders are selected from the group consisting of Generalized Arterial Calcification of Infancy (GACI), Idiopathic Infantile Arterial Calcification (IIAC), Ossification of the Posterior Longitudinal Ligament (OPLL), hypophosphatemic rickets, osteoarthritis, calcification of atherosclerotic plaques, PXE, hereditary and non-hereditary forms of osteoarthritis, ankylosing spondylitis, hardening of the arteries occurring with aging, calciphylaxis resulting from end stage renal disease and progeria.

The present invention includes compositions and methods for treating diseases or disorders associated with pathological calcification or pathological ossification. In certain embodiments, the diseases or disorders are selected from the group consisting of Generalized Arterial Calcification of Infancy (GACI), Idiopathic Infantile Arterial Calcification (IIAC), Ossification of the Posterior Longitudinal Ligament (OPLL), hypophosphatemic rickets, osteoarthritis, calcification of atherosclerotic plaques, PXE, hereditary and non-hereditary forms of osteoarthritis, ankylosing spondylitis, hardening of the arteries occurring with aging, calciphylaxis resulting from end stage renal disease and progeria.

The invention provides an siRNA against protein S for use in a method of treatment of hemophilia. Also within the scope of the present invention is a method for treating hemophilia in a patient in need thereof, comprising administering to the patient a molecule comprising a siRNA according to the invention, and a dosage form for the prevention or treatment of hemophilia, comprising a molecule comprising a siRNA according to the invention.

The present invention provides a cancer cell-specific anti-podoplanin antibody or an antigen-binding fragment thereof having an epitope in a Thr85-containing region of an amino acid sequence of human podoplanin represented by SEQ ID NO: 1, the Thr85 having a sialylated O-glycan added thereto.

The present invention provides methods of administering long-acting Factor IX; methods of administering long-acting, chimeric and hybrid polypeptides comprising Factor IX; and methods of producing such chimeric and hybrid polypeptides using cells.

The present invention provides methods of administering long-acting Factor IX; methods of administering long-acting, chimeric and hybrid polypeptides comprising Factor IX; and methods of producing such chimeric and hybrid polypeptides using cells.

Chimeric clotting factors which localize the therapeutic to sites of coagulation (e.g., by being targeted to platelets or being activatable at sites of coagulation), have reduced clearance rates, have improved manufacturability, have reduced thrombogenicity, have enhanced activity, or have more than one of these characteristics are described as are methods for making chimeric clotting factors and methods for improving hemostasis using these clotting factors.

Chimeric clotting factors which localize the therapeutic to sites of coagulation (e.g., by being targeted to platelets or being activatable at sites of coagulation), have reduced clearance rates, have improved manufacturability, have reduced thrombogenicity, have enhanced activity, or have more than one of these characteristics are described as are methods for making chimeric clotting factors and methods for improving hemostasis using these clotting factors.

The invention relates to a chimeric monomer-dimer hybrid protein wherein the protein comprises a first and a second polypeptide chain, the first polypeptide chain comprising at least a portion of an immunoglobulin constant region and a biologically active molecule, and the second polypeptide chain comprising at least a portion of an immunoglobulin constant region without the biologically active molecule of the first chain. The invention also relates to methods of using and methods of making the chimeric monomer-dimer hybrid protein of the invention.