The invention relates to 55 newly discovered proteins, which are present in isolated purified protein complexes, derived medicinal products, recombinant DNA, engineered DNA, cDNA, monoclonal and natural products or synthesized products as part of nutrition, food, and/or supplemental products and their applications.

Nucleic acids encoding modified factor VII polypeptides, vectors and cells containing the nucleic acids, uses of the nucleic acids, methods of making the encoded polypeptides, and methods of treatment are provided. The encoded modified FVII polypeptides include Factor VIIa and other forms of Factor VII. Among the encoded modified FVII polypeptides provided are those that have altered activities, typically altered procoagulant activity, including increased procoagulant activities.

Disclosed herein is a method for manufacturing a recombinant polypeptide of interest modified by a CTP extension in a mammalian cells culture system.

Polypeptides comprising at least one carboxy-terminal peptide (CTP) of chorionic gonadotrophin attached to the carboxy terminus but not to the amino terminus of a coagulation factor and polynucleotides encoding the same are disclosed. Pharmaceutical compositions comprising the polypeptides and polynucleotides of the invention and methods of using and producing same are also disclosed.

The invention concerns a combination comprising transgenic factor VII and a multispecific antibody directed against factor IX and X, for simultaneous or separate administration.

The invention provides chimeric clotting factors comprising an activatable clotting factor and an enhancer moiety. The activatable clotting factor allows the chimeric clotting factor to be activated at the site of coagulation. The enhancer moiety can additionally improve procoagulation activities of the chimeric clotting factors. The chimeric clotting factors can further be improved by fusion to a half-life extender, which improves a pharmacokinetics property of the chimeric clotting factor. The invention also includes methods of making and methods of using these chimeric clotting factors.

The present invention relates to a method of modifying at least one gene in a cell via CRISPR/Cas, wherein the at least one gene has at least three alleles. The present invention further relates to cells obtainable by the method of the invention. Additionally, the present invention provides a method of producing a protein in a cell obtainable by the method of modifying at least one gene of the invention. Moreover, the invention relates to proteins obtainable by the method of producing a protein and use thereof, for example in therapy.

Disclosed herein are circular RNA s and transfer vehicles, along with related compositions and methods of treatment. The circular RNAs can comprise group I intron fragments, spacers, an IRES, duplex forming regions, and/or an expression sequence, thereby having the features of improved expression, functional stability, low immunogenicity, ease of manufacturing, and/or extended half-life compared to linear RNA. Pharmaceutical compositions comprising such circular RNAs and transfer vehicles are particularly suitable for efficient protein expression in immune cells in vivo. Also disclosed are precursor RNAs and materials useful in producing the precursor or circular RNAs, which have improved circularization efficiency and/or are compatible with effective circular RNA purification methods.

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.

An antibody, preferably a blocking antibody, and most preferably a monoclonal antibody (mAb), specific for human endothelial cell protein C receptor (EPCR) such as mAbs JRK 1494 or JRK 1535 is used to reduce or attenuate joint swelling, macrophage infiltration, iron deposition and/or blood vessel formation and to treat arthropathy in a hemophilic subject.