The invention relates to compositions including polynucleotides encoding polypeptides which have been chemically modified by replacing the uridines with 1-methyl-pseudouridine to improve one or more of the stability and/or clearance in tissues, receptor uptake and/or kinetics, cellular access by the compositions, engagement with translational machinery, mRNA half-life, translation efficiency, immune evasion, protein production capacity, secretion efficiency, accessibility to circulation, protein half-life and/or modulation of a cell's status, function, and/or activity.

Provided are chimeric Protein C-Factor VII proteins comprising a Gla domain from Protein C (PC), an EGF-1 domain from PC, an EGF-2 domain from Factor VII (FVII), and a protease domain from FVII.

The present disclosure provides expression constructs designed to provide for stable and/or inducible, tightly controlled production of genetically encoded payloads from engineered cells. These cassettes allow cells to be engineered to express genetically encoded payloads despite epigenetic silencing. As such, provided herein are expression systems for use in methods to engineer cells using CRISPR dCas9-activator systems such that expression of genetically encoded payloads (e.g., therapeutic proteins) can be optimized to overcome epigenetic silencing. In addition, provided herein are engineered cells comprising the expression systems.

Short-acting Factor VII peptides are disclosed. A shortened half-life is desirable for treatment of acute bleeding and similar disorders. Modification of the sialylation and/or glycosylation of Factor VII and variants thereof produced peptides useful in treating conditions of acute bleeding.

Disclosed herein are novel variants of clotting factors VII, VIII, and IX and their use, for example, in methods of treating a subject with a clotting disorder, such as hemophilia A or hemophilia B.

Described herein are RPE cells engineered to secrete a FVII protein, as well as compositions, pharmaceutical preparations, and implantable devices comprising the engineered RPE cells, and methods of making and using the same for treating a patient with hemophilia or FVII deficiency.

The invention relates to a method for purifying biologically active GLA-domain coagulation proteins, comprising the following steps: a) bringing a sample that contains one or more GLA-domain coagulation proteins and may contain biologically inactive molecules of GLA-domain protein(s), into contact with an affinity support on which nucleic aptamers that bind specifically to at least one biologically active GLA-domain coagulation protein are immobilized, in order to form complexes between (i) said nucleic aptamers and (ii) said GLA-domain coagulation protein(s), b) releasing the GLA-domain coagulation protein(s) from the complexes formed in step a), and c) recovering said biologically active GLA-domain coagulation protein(s) in a purified form.

This disclosure provides a method of preventing, alleviating or treating a condition (i.e., neutropenia) in a subject in need thereof, the condition characterized by compromised white blood cell production in the subject. The method includes administering to the subject a therapeutically effective amount of a protein complex on the same day as a chemotherapy regimen, wherein the protein complex is a modified human granulocyte-colony stimulating factor (hG-CSF) covalently linked to an immunoglobulin Fc region via a non-peptidyl polymer. The non-peptidyl polymer is site-specifically linked to an N-terminus of the immunoglobulin Fc region, and the modified hG-CSF comprises substitutions in at least one of Cys17 and Pro65.

The present invention relates to the conjugation of Factor VII polypeptides with heparosan polymers. The resultant conjugates may be used to deliver Factor VII, for example in the treatment or prevention of bleeding disorders.

Antibodies and antibody fragments that specifically bind to glycoprotein IIb/IIIa (GPIIb/IIIa) are disclosed. Chimeric molecules comprising such antibodies or antigen-binding fragments are also disclosed. In addition, methods of using the disclosed antibodies, antibody fragments, and chimeric molecules, e.g., to target agents to platelets and for the treatment or prevention of diseases or disorders are provided.