The present invention relates to the field of chromatography. More closely, the invention relates to a chromatographic method for purification of proteins, such as Factor VIII, von Willebrand factor and Factor IX. The chromatographic method is performed on a matrix comprising an inner porous core and outer porous lid surrounding said core.

The invention relates to synthetic liver-specific promoters and expression constructs for producing polypeptides and functional nucleic acids in the liver of a subject. The invention further relates to optimized polynucleotide sequences encoding Factor IX proteins, vector comprising the same, and methods of using these compositions to treat a bleeding disorder.

Compounds are provided having the following structure: ##STR00001##
or a pharmaceutically acceptable salt, tautomer or stereoisomer thereof, wherein R.sup.1a, R.sup.1b, R.sup.2a, R.sup.2b, R.sup.3a, R.sup.3b, R.sup.4a, R.sup.4b, R.sup.5, R.sup.6, R.sup.7, R.sup.8, R.sup.9, L.sup.1, L.sup.2, a, b, c, d and e are as defined herein. Use of the compounds as a component of lipid nanoparticle formulations for delivery of a therapeutic agent, compositions comprising the compounds and methods for their use and preparation are also provided.

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 engineered nucleases comprising mutations in the cleavage domain (e.g., FokI or homologue thereof) and/or DNA binding domain (zinc finger protein, TALE, single guide RNA) such that on-target specificity is increased.

Provided are a blood coagulation factor IX fusion protein with a prolonged circulation half-life, a conjugate thereof, a pharmaceutical composition containing same and the use of same in treating hemorrhagic diseases (such as hemophilia B).

Described are nucleic acid regulatory elements that are able to enhance liver-specific expression of genes, methods employing these regulatory elements and uses of these elements. Expression cassettes and vectors containing these nucleic acid regulatory elements are also disclosed. These are particularly useful for applications using gene therapy.

The present invention provides methods of generating a recombinant AAV vector with reduced immunogenicity, comprising: providing eukaryotic cells with a nucleic acid comprising a sequence of interest that is flanked by AAV inverted terminal repeats, wherein the nucleic acid comprises CpG dinucleotide sites, wherein at least a portion of the CpG dinucleotide sites are methylated, wherein the eukaryotic cell expresses one or more other components necessary to achieve recombinant AAV biosynthesis, whereby the recombinant AAV vector is generated by the eukaryotic cell, wherein the generated recombinant AAV vector comprises nucleic acid wherein at least a portion of the CpG dinucleotide sites are methylated.

The invention relates to modified Factor IX coding sequence, expression cassette, vectors such as viral (e.g., lenti- or adeno-associated viral) vectors, and gene transfer methods and uses. In particular, to target Factor IX nucleic acid to cells, tissues or organs for expression (transcription) of Factor IX.

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.