Cell-associated secretion-enhancing fusion proteins are disclosed that comprise a target protein binding domain and a transmembrane retention domain. Co-expression in a host cell of a fusion protein and a target protein of interest that is temporarily bound by the fusion protein leads to an increased level of target protein secreted from the host cell. The fusion proteins are engineered to be retained with the producing host cell, thus eliminating a non-natural component from the extracellular media of the host cell and simplifying purification of the target protein. Nucleic acid molecules encoding such fusion proteins are also disclosed for use in expressing the fusion proteins in host cells, for use in restoring lost or diminished cell functions, and for use in treating diseases characterized by a lost or diminished cell function. Methods and compositions comprising fusion proteins of the invention are disclosed for use in enhancing the level of co-expressed target proteins secreted from host cells.

The present disclosure provides protease-activatable procoagulant compounds comprising a procoagulant polypeptide, e.g., a procoagulant peptide and/or clotting factor, and a linker comprising a protease-cleavable substrate (e.g., a synthetic thrombin substrate) and a self-immolative spacer (e.g., p-amino benzyl carbamate). Upon cleavage of the protease-cleavable substrate by a protease (e.g., thrombin), the self-immolative spacer cleaves itself from the procoagulant polypeptide such that the polypeptide is in an underivatized and active form. Also provided are pharmaceutical compositions, methods for treating bleeding disorders using the disclosed compounds, methods of enhancing in vivo efficacy of procoagulant polypeptides, methods of increasing the efficacy of proteolytic cleavage of compounds comprising procoagulant polypeptides, methods of activating procoagulant polypeptides, and methods of releasing a procoagulant polypeptide from a heterologous moiety such as PEG.

Antibodies and antigen-binding antibody fragments that bind to GPIIb/IIIa and chimeric polypeptides comprising these binding molecules are disclosed. Some of these antibodies and antigen-binding antibody fragments preferentially bind GPIIb/IIIa on activated platelets while others do not show a preference for binding GPIIb/IIIa on resting versus activated platelets. Some of these antibodies and antibody fragments do not inhibit the interaction of GPIIb/IIIa with fibrinogen, while some others do. The disclosed antibodies do not induce platelet activation. Some of these antibodies and antigen-binding antibody fragments are useful in targeting therapeutic agents such as dotting factors to platelets while others are useful in reducing platelet aggregation and/or thrombus formation.

A process for producing blood coagulation Factor VII in large scale in 3 human cell lines (HepG2, Sk-Hep, and HKB-11) and to select the best recombinant protein producer is described. The murine line BHK-21 was used as control. The data allowed for the assertion that the system used to modify cell lines was efficient, so that all the cells were satisfactorily modified, and produced the protein of interest in a stable form. In addition, when comparing the murine line BHK-21 with the human cells (HepG2, Sk-Hep-1 and HKB-11), the latter proved to be able to produce rFVII more efficiently, which allows us to conclude that human cell lines are a great alternative to produce recombinant blood coagulation factors in large scale.

The present invention relates to a novel method for improving the viral safety of liquid Factor VII compositions, in particular those comprising active Factor VII polypeptides (a Factor VIIa polypeptide).

The present invention relates to novel human coagulation Factor VIIa variants having coagulant activity as well as polynucleotide constructs encoding such variants, vectors and host cells comprising and expressing the polynucleotide, pharmaceutical compositions, uses and methods of treatment.

This disclosure provides a method of preventing, alleviating, or treating a condition (i.e., neutropenia) in a patient in need thereof, the condition characterized by compromised white blood cell production in the patient. The method includes administering to the patient a therapeutically effective amount of a protein complex comprising 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 features inter alia nucleic acid molecules which encode polypeptides comprising a single chain Fc region and the polypeptides they encode. The Fc moieties of these constructs are linked by a cleavable scFc linker which is adjacent to at least one enzymatic cleavage site, e.g., an intracellular processing site. The resulting processed molecules comprise two polypeptide chains and substantially lack the extraneous amino acid sequence found in single chain Fc linker molecule. Methods of making and using these dimeric molecules are also described.

The invention relates to compositions and methods for the preparation, manufacture and therapeutic use of polynucleotides, primary transcripts and mmRNA molecules.

The present invention relates to compositions comprising biologically active proteins linked to extended recombinant polypeptide (XTEN), isolated nucleic acids encoding the compositions and vectors and host cells containing the same, and methods of using such compositions in treatment of glucose-related diseases, metabolic diseases, coagulation disorders, and growth hormone-related disorders and conditions.