Abstract: Provided herein is a novel method of purifying an IgG antibody from a preparation by use of an electropositive membrane having a defined porosity.

Abstract: The present invention relates to a method for purifying an immunoglobulin, and more particularly, to a method for purifying an immunoglobulin, which comprises: dissolving immunoglobulin-containing plasma protein fraction I+II+III or fraction II+III; adding caprylate to the solution to cause precipitation; performing dialysis and concentration after removal of the precipitate; performing anion exchange resin and ceramic cation exchange resin purification processes to effectively remove a solvent and detergent added to inactivate viruses; and performing elution while maintaining salt concentration at a constant level to maintain the immunoglobulin polymer content at a low level.

Abstract: This invention relates to stem cell microparticles and miRNA isolated from these microparticles, their use and production thereof, in particular neural stem cell microparticles and their use in therapy of cancer, typically a nestin-positive cancer. The cancer may be glioma, melanoma, breast cancer, pancreatic cancer or prostate cancer. The stem cell microparticle is typically an exosome or microvesicle and may be derived from a neural stem cell line. The neural stem cell line may be a conditionally-immortalized stem cell line such as CTX0E03 (deposited at the ECACC with Accession No. 04091601).

Abstract: The invention provides compositions and methods of identifying, modifying and producing modified target molecules, including therapeutic molecules by modification with non-natural amino acids. Certain aspects of the invention include methods of adding a chemical moiety to a target molecule, and the compositions resulting therefrom. Certain aspects of the invention also relate to kits for identifying, modifying and producing modified target molecules described herein.

Abstract: A method for conversion of an N-terminal glutamine and/or glutamic acid residue of a protein to pyro-glutamic acid within a purification process.

Abstract: The invention relates to a recombinant protein and uses thereof in the diagnosis and treatment of multiple sclerosis. The invention also relates to the recombinant protein IFNAR2.3, antibodies, compositions comprising same, and uses thereof. Among the uses thereof, the invention especially relates to a method for the diagnosis of multiple sclerosis, and to the diagnosis kit. The invention further relates to the use of the protein IFNAR2.3 in the preparation of a medicament for the treatment of multiple sclerosis.

Abstract: Disclosed herein are new, useful, and non-obvious means of stimulating therapeutic angiogenesis, or conditions favorable for stimulation of therapeutic angiogenesis utilizing T regulatory cells. One disclosed method includes administering a population of T regulatory cells into an area of hypoxia to stimulate angiogenesis. T regulatory cells are generated and expanded by culture with mesenchymal stem cells, with either population or both populations together administered into the hypoxic area.

Abstract: The present invention provides isolated human monoclonal antibodies that bind to IFNAR-1 and that are capable of inhibiting the biological activity of Type I interferons. Immunoconjugates, bispecific molecules and pharmaceutical compositions comprising the antibodies of the invention are also provided. The invention also provides methods for inhibiting Type I interferon-mediated disorders using the antibodies of the invention, including methods for treating autoimmune disorders, transplant rejection or Graft Versus Host Disease using the antibodies of the invention.

Abstract: A process for synthesizing and separating secretory IgA from a mixture of IgA monomer and IgA dimer is provided. The process includes covalently binding affinity tagged or epitope tagged recombinant secretory component to the IgA dimer in the mixture and binding the affinity tagged or an epitope tagged secretory IgA to immobilized moieties on the solid phase support resin to which the affinity tag or epitope tag binds and then eluting the affinity tagged or an epitope tagged secretory IgA with release buffer. A process for synthesizing and separating secretory IgM from a mixture of IgM and other plasma proteins is also provided. The process includes covalently binding affinity tagged or an epitope tagged recombinant secretory component to the IgM in the mixture and binding the affinity tagged or an epitope tagged secretory IgM to immobilized moieties on the solid phase support resin and then eluting the peptide tagged secretory IgM with a release buffer.

Abstract: The present invention relates generally to a method of diagnosing, prognosing or monitoring the development or progress of metastatic cancer, more particularly bone metastatic cancer. The method of the present invention more particularly provides a method for detecting metastatic cancer, or a predisposition thereto, by screening for the differential expression of a panel of genes which comprise an IRF7 binding site. In a related aspect, the present invention provides a method of therapeutically or prophylactically treating metastatic cancer, in particular bone metastatic cancer. More particularly, the present invention provides a means of therapeutically or prophylactically treating metastatic cancer by upregulating type I IFN levels.

Abstract: Herein is reported a method for the purification of an antibody directly captured from clarified cell culture supernatants using Streamline CST and/or Capto MMC, wherein especially product related (aggregates and fragments) and process related impurities (host cell protein, media components) could efficiently be removed, resulting in a preparation with a purity comparable to classical protein A affinity chromatography.

Abstract: Herein is reported a method for producing a polypeptide in monomeric form comprising the following step: recovering the polypeptide in monomeric form from an ion exchange chromatography material by applying a solution comprising a non-ionic polymer and an additive.

Abstract: Herein is reported a blood brain barrier shuttle module comprising a brain effector entity, a linker and one monovalent binding entity which binds to a blood brain barrier receptor, wherein the linker couples the effector entity to the monovalent binding entity which binds to the blood brain barrier receptor wherein the monovalent binding entity does not comprise the variable domains of the anti-transferrin receptor antibody 8D3 (SEQ ID NO: 01 and SEQ ID NO: 02) or of the variant anti-transferrin receptor antibody 8D3v (SEQ ID NO: 01 and SEQ ID NO: 03).

Abstract: Methods of enhancing efficiency of downstream chromatography steps for purification of proteins comprising: (a) passing a composition comprising a polypeptide of interest and various contaminants through an ion exchange membrane, wherein the polypeptide and the membrane have opposite charge, at operating conditions comprised of a buffer having a pH sufficiently distinct from the pi of the polypeptide to enhance the charge of the polypeptide and a low ionic strength effective to prevent the shielding of charges by buffer ions, which cause the membrane to bind the polypeptide and at least one contaminant, (b) overloading the ion exchange membrane such that at least one contaminant remains bound to the membrane while the polypeptide of interest is primarily in the effluent; (c) collecting the effluent from the ion exchange membrane comprising the polypeptide of interest; (d) subjecting the membrane effluent comprising the polypeptide of interest to a purification step of similar charge as the previous membrane,

Abstract: The present invention relates to a method for the preparation of a solution of immunoglobulins based on an initial solution of immunoglobulins with a purity greater than or equal to 96% in the presence of a polyether or polymer of glycol, characterized in that it comprises the steps of: a) adding caprylic acid or salts of the same to the initial solution; b) adjusting the pH of the solution obtained in step a); c) incubating the solution obtained in step b) for the time and at a temperature necessary for the inactivation of enveloped viruses; d) performing a step of ultrafiltration/diafiltration on the solution obtained in step c).

Abstract: The present invention relates to a method for separating antibody isoforms using cation exchange chromatography and, more specifically, to a method for separating and purifying several isoforms, which are generated during an antibody production procedure, using a washing buffer for cation exchange chromatography.

Abstract: Disclosed here includes a method for purifying a biologic composition, comprising diafiltering the biologic composition into a composition comprising phosphate buffered saline (PBS) to obtain a purified composition. The method disclosed here can be particularly useful for removing one or more impurities from the biologic composition, such as bis(2-hydroxyethyl)amino-tris(hydroxymethyl)methane (Bis-tris).

Abstract: The present invention provides a new therapeutic method for modeling neuronal responses. Human induced pluripotent stem cells (hiPSCs) emerge recently as alternative sources of primary brain cells to establish Alzheimer's disease (AD) models in vitro. While previous investigations demonstrate the potential of hiPSCs in modeling AD, the 2-D cultures used in these studies cannot fully recapitulate AD-associated neuropathology. 3-D cortical spheroids (forebrain-like structure) were derived from human induced pluripotent stem cells in a bioreactor culture, which can be used to recapitulate AD-associated neuropathology, to screen the therapeutic drugs and to predict neurotoxicity.

Abstract: The present invention is directed to methods comprising the use of hydroxyapatite chromatography to separate a bispecific antibody from a solution that also comprises one or more byproducts specific to bispecific antibody production. Byproducts specific to the production of bispecific antibodies (bispecific antibody specific byproducts, “BASB”) include fragments of the bispecific antibody and heavier molecular weight variants of the antibody, wherein the fragment and/or variant comprises an Fc domain but does not exhibit affinity for the two different epitopes and/or antigens as exhibited by the desired bispecific antibody. Thus, the methods of the present invention comprise the separation of a bispecific antibody from one or more of its BASB. The hydroxyapatite chromatography methods of the invention may be used alone or may be further combined with standard purification processes and unit operations as is known in the art to achieve any level of purity of bispecific antibody necessary, e.g.

Abstract: The invention discloses a polypeptide with improved alkaline stability, which polypeptide comprises a mutant of a B or C domain of Staphylococcus Protein A (SpA), as specified by SEQ ID NO 1 or SEQ ID NO 2, or of Protein Z, as specified by SEQ ID NO 3, comprising at least the mutation wherein the glutamine residue at position 9 has been mutated to a tryptophan, leucine, glutamic acid, valine or lysine. The invention also discloses multimers of the polypeptide, as well as separation matrices comprising the multimers or polypeptides.