Provided are methods of identifying, visualizing and purifying proteases from a complex biological sample.

Provided are methods of identifying, visualizing and purifying proteases from a complex biological sample.

A range of therapeutic mRNA molecules expressible to provide a target polypeptide or protein. The RNA molecules can contain one or more 5-methoxyuridines and 5-methylcytidines. Further provided are DNA templates, which can be transcribed to provide a target mRNA, and can have altered nucleotides, such as reduced deoxyadenosines. Also provided are processes for making the therapeutic mRNA molecules. The RNA molecules can be translated in vitro or in vivo to provide an active polypeptide or protein. The RNA molecules can be included in a composition used for preventing, treating, or ameliorating at least one symptom of a disease or condition in a subject in need thereof.

A range of therapeutic mRNA molecules expressible to provide a target polypeptide or protein. The RNA molecules can contain one or more 5-methoxyuridines and 5-methylcytidines. Further provided are DNA templates, which can be transcribed to provide a target mRNA, and can have altered nucleotides, such as reduced deoxyadenosines. Also provided are processes for making the therapeutic mRNA molecules. The RNA molecules can be translated in vitro or in vivo to provide an active polypeptide or protein. The RNA molecules can be included in a composition used for preventing, treating, or ameliorating at least one symptom of a disease or condition in a subject in need thereof.

The present invention relates to a process for purifying C1-esterase inhibitor (C1-Inh), and more in particular a Cl-Inh concentrate.

The invention provides expression cassettes. In certain embodiments, an expression cassette comprises (a) a regulatory element at least 90% identical to the sequence of any of SEQ ID NOs:2-67, and (b) a nucleic acid sequence encoding a Factor VIII protein having a B domain deletion (FVIII-BDD), where the nucleic acid sequence of (a) is at least 90% identical to the sequence of SEQ ID NO:77, where the regulatory element is operably linked to the nucleic acid sequence, and where no intron is present between the regulatory element and the nucleic acid sequence encoding FVIII-BDD, or where no more than 0-107 nucleotides of untranslated nucleic acid is between the regulatory element and the nucleic acid sequence encoding FVIII-BDD. In certain embodiments, expression cassettes contain sequence elements having CpG(s) substituted with CpT, CpA, TpG, or ApG at the same position(s) or has CpG reduced nucleic acid sequences.

The present disclosure presents a general approach to engineering existing protein-protein interactions through domain addition and evolution. The disclosure teaches the creation of novel fusion proteins that include knottin peptides where a portion of the knottin peptide is replaced with a sequence that has been created for binding to a particular target. Such fusion proteins can also be bispecific or multi specific in that they can bind to and/or inhibit two or more receptors or receptor ligands. Knottins may be fused with an existing ligand (or receptor) as a general platform tor increasing the affinity of a ligand-receptor interaction or for creating a multi specific protein. In addition, the fusion proteins may comprise a knottin peptide fused to another protein where the other protein facilitates proper expression and folding of the knottin.

The present disclosure presents a general approach to engineering existing protein-protein interactions through domain addition and evolution. The disclosure teaches the creation of novel fusion proteins that include knottin peptides where a portion of the knottin peptide is replaced with a sequence that has been created for binding to a particular target. Such fusion proteins can also be bispecific or multi specific in that they can bind to and/or inhibit two or more receptors or receptor ligands. Knottins may be fused with an existing ligand (or receptor) as a general platform tor increasing the affinity of a ligand-receptor interaction or for creating a multi specific protein. In addition, the fusion proteins may comprise a knottin peptide fused to another protein where the other protein facilitates proper expression and folding of the knottin.

The present invention provides mutant alpha 1-antitrypsin proteins, pharmaceutical compositions comprising the same, and methods of use thereof in treatment of subjects with an inflammatory disease or disorder.

A genetically engineered live bacterium which is adapted to selectively replicate in and colonize a selected tissue type within the mammal, and concurrently produce within the selected tissue type at least one protease-sensitive cytotoxic molecule which is degradable by proteases within the selected tissue type, and at least one protease inhibitor peptide to inhibit the proteases within the selected tissue type from proteolytically degrading the protease sensitive cytotoxic molecule. The combination results in higher concentrations of the cytotoxic molecule local to the colonization, while permitting protease degradation of the cytotoxic molecule further away from the colonization.