Abstract: Protease inhibitors together with protease sensitive therapeutics or diagnostics are provided, which may be ionically or covalently bound, or unbound. The protease inhibitors and/or protease sensitive moiety may be provided in monomeric, homopolymeric, heteropolymeric (for each of the protease and agent) and/or block copolymeric (combining polymers of agent and inhibitor) form. The inhibitors may be native active or e.g., protease activated. Multiple protease inhibitor peptides may be used in-frame with multiple protease cleavage signals (polymeric protease activated protease inhibitors). Combination with the protease inhibitors with the protease sensitive therapeutic enhances the intact, active molecule local-regional or targeted cell or tissue concentration, peak concentration and/or duration of the therapeutic exposure, thereby increasing its therapeutic efficacy. The protease inhibitors are particularly useful for tumor-targeted therapies and for vaccines.

Abstract: This invention relates to an albumin-curcumin conjugate for application in cancer therapy, including albumin and curcumin.

Abstract: The invention relates to a method of controlling a polypeptide modification reaction, in particular but not exclusively, a method of controlling the activation of human factor VII (FVII) to produce human factor VII(a) (FVII(a)). The invention also relates to polypeptides obtainable by the polypeptide modification reaction and to pharmaceutical compositions comprising said polypeptides.

Abstract: The present invention relates to improved methods for the recombinant production of von Willebrand factor (vWF) in a bioreactor by separating different multimeric forms of vWF with different molecular weight during fermentation.

Abstract: One subject of the present invention is the use of a combination of a polyol (i) consisting of 12 carbon atoms and of a polyol (ii) consisting of 4 to 6 carbon atoms, as protein stabilizer. Another subject of the present invention is protein compositions comprising such a combination. A final subject of the present invention is a process for preparing protein compositions using such a combination.

Abstract: A process for manufacturing of a Factor VIII product having a ratio of FVIII:C/FVIII:Ag of at least 0.7 in the Factor VIII product by using chromatography wherein at least one chromatographic step is performed by means of employing; An affinity chromatography resin having an affinity for specifically binding of Factor VIII which is effected by an affinity ligand which is immobilised on the affinity chromatography resin, said affinity ligand is a 13 kD yeast derived Fab antibody fragment directed to the Factor VIII molecule. An anionic chromatography resin. A size exclusion resin. A Factor VIII product obtainable according to the process with a monomer content of >98% for treatment of haemophilia and avoiding formation of inhibitors.

Abstract: The present invention relates generally to polyethylene glycol (PEG) conjugated hemoglobins made by conjugation of succinimidyl-valerate activated polyethylene glycol to primary amines and N-terminal valines of the hemoglobin.

Abstract: The invention relates to recombinant microorganisms and methods for producing steviol glycosides, glycosides of steviol precursors, and steviol glycoside precursors.

Abstract: Disclosed are recombinant mutant Candida utilis uricase enzymes with improved pancreatin stability and/or activity, compositions containing such uricase enzymes, which can be used, among other things, to treat diseases or disorders associated with an elevated amount of uric acid, including, for example, hyperuricemia, hyperuricosuria, and gout.

Abstract: A method for purifying fibrinogen includes steps of: (a) precipitating fibrinogen of a fibrinogen-containing solution by adding glycine to the solution for a concentration of glycine to be 1.5 to 2.5M, and then removing a supernatant and recovering a precipitate (1st glycine precipitation); (b) dissolving the precipitate of 1st glycine precipitation of step (a) in a dissolution buffer to obtain a solution, precipitating the solution by adding glycine thereto for a concentration of glycine to be 0.2 to 1.2M, and recovering a supernatant (2nd glycine precipitation); (c) precipitating the supernatant of step (b) by adding glycine thereto for a concentration of glycine to be 1.5 to 2.5M, and recovering a precipitate (3rd glycine precipitation); and (d) dissolving the precipitate of step (c) in a dissolution buffer to obtain a solution, and subjecting the solution to nanofiltration using a nanofilter.

Abstract: The present invention provides a modified polypeptide which binds Factor VIII. The modified polypeptide comprises a sequence as shown in SEQ ID NO:3 in which the sequence comprises at least one modification at a position selected from the group consisting of L18, V42, K149, N248, S279, V320, T325, Q395 and K418 such that the modified polypeptide binds to Factor VIII with an off rate lower than a reference polypeptide comprising an unmodified SEQ ID NO:3.

Abstract: The present invention provides a modified polypeptide which binds Factor VIII. The polypeptide comprises truncated von Willebrand Factor (VWF) which comprises a sequence as shown in SEQ ID NO:3 or a fragment thereof or a sequence 90% identical thereto, wherein the truncated VWF comprises at least one modification in comparison to SEQ ID NO: 3 in at least one position selected from the group consisting of SI, S3, LI 8, V42, S43, K149, N248, S279, V320, T325, Q395 and K418.

Abstract: A wastewater treatment process elicits microorganisms to convert a waste stream/organic resource to intracellular biopolymer polyhydroxyalkanoate (PHA). The process includes (i) waste stream/organic resource composition feed criteria, (ii) configuration coupled with operational parameters, and (iii) PHA-laden biomass separation and stabilization. A waste stream/organic resource capable of producing enhanced levels of PHA may be selected based on a combination of criteria, which may include short chain fatty acid concentration, protein concentration, polysaccharides concentration, and total suspended solids concentration. The waste stream is introduced into an aeration basin or sequencing batch reactor upon a specific configuration and operated under various parameter combinations for selecting/enriching microorganisms capable of producing PHA. The PHA-laden biomass is separated and stabilized for downstream PHA related product beneficial uses.

Abstract: Disclosed are a human-derived ferritin monomer fragment and a fusion polypeptide using the same, and more particularly, to a human-derived ferritin of which a portion of a fourth loop and a fifth helix of the ferritin monomer fragment are removed, and a fusion polypeptide in which a polypeptide or a protein is fused to an N-terminus or a C-terminus of the ferritin monomer fragment.

Abstract: The invention provides compositions containing hemoglobin, particularly PEGylated hemoglobin. The PEGylated hemoglobin molecule is capable of transferring oxygen or carbon monoxide bound thereto to a tissue with which it is in proximity. Exemplary PEGylated hemoglobin formulations of the invention are virally inactivated. Various compositions of the invention include deoxygenated hemoglobin, which may be conjugated with one or more water-soluble polymer. PEGylated hemoglobin includes those species in which the iron atom of the hemoglobin molecule is not bound to oxygen or any other species, and hemoglobin molecules in which a species other than oxygen, e.g., carbon monoxide, is bound to the iron atom. The compositions of the invention are formulated as hypo-, iso- or hypertonic solutions of the PEGylated hemoglobin. The compositions are of use to treat and/or ameliorate disease, injury and insult by providing for the oxygenation of tissues and/organs.

Abstract: EphA2 T-cell epitope are provided herein. The epitopes include peptides corresponding to specific fragments of human EphA2 protein containing one or more T-cell epitopes, and conservative derivatives thereof. The EphA2 T-cell epitopes are useful in an assay, such as an ELISPOT assay, that may be used to determine and/or quantify a patient's immune responsiveness to EphA2. The epitopes also are useful in methods of modulating a patient's immune reactivity to EphA2, which has substantial utility as a treatment for cancers that overexpress EphA2, such as renal cell carcinoma (RCC). The EphA2 epitopes also can be used to vaccinate a patient against EphA2, by in vivo or ex vivo methods.

Abstract: The invention provides compositions containing hemoglobin, particularly PEGylated hemoglobin. The PEGylated hemoglobin molecule is capable of transferring oxygen or carbon monoxide bound thereto to a tissue with which it is in proximity. Exemplary PEGylated hemoglobin formulations of the invention are virally inactivated. Various compositions of the invention include deoxygenated hemoglobin, which may be conjugated with one or more water-soluble polymer. PEGylated hemoglobin includes those species in which the iron atom of the hemoglobin molecule is not bound to oxygen or any other species, and hemoglobin molecules in which a species other than oxygen, e.g., carbon monoxide, is bound to the iron atom. The compositions of the invention are formulated as hypo-, iso- or hypertonic solutions of the PEGylated hemoglobin. The compositions are of use to treat and/or ameliorate disease, injury and insult by providing for the oxygenation of tissues and/organs.

Abstract: The present invention relates to a process for sterilizing implantable biomaterials. In particular, the invention relates to a process for sterilizing collagen-containing implantable biomaterials and storage thereafter.

Abstract: Some embodiments of the methods and compositions provided herein relate to the preparation surfactant protein-D (SP-D). Some embodiments include the expression of human SP-D in certain cell lines, and the purification of human SP-D from such cell lines. Some embodiments include the preparation of certain oligomeric forms of human SP-D.

Abstract: Disclosed is a chromatographic method for isolating and purifying high-purity recombined human serum albumin, comprising: conducting cation-exchange chromatography on recombined human serum albumin, and adding alcohol to a buffer solution to remove endotoxin, so as to obtain a primary product I; under binding conditions, conducting anion/hydrophobic composite resin exchange chromatography on the primary product I to obtain an intermediate product II; conducting hydrophobic chromatography on the intermediate product II to obtain the target product, the purified high-purity recombined human serum albumin. The purity of the recombined human serum albumin obtained by isolating and purifying with the chromatographic method of the present invention is greater than 99.9999%, and the content of the endotoxin meets the criteria stipulated by Chinese pharmacopoeia.