Provided are various aqueous formulations of the neonatal Fc receptor (FcRn) antagonist ARGX-113, including formulations useful as pharmaceutical compositions, methods for their preparation, devices comprising the various formulations, and uses thereof. In certain embodiments the formulations are suitable and useful for administration of ARGX-113 to a human subject. In certain embodiments the formulations are suitable and useful for subcutaneous administration of ARGX-113 to a human subject. The formulations can be used in the treatment of any condition that would benefit from inhibition of FcRn-mediated antibody recycling. Such conditions can include any one or more of various antibody-mediated autoimmune diseases, including, for example and without limitation, myasthenia gravis (MG) and immune thrombocytopenia (ITP).

Provided are methods and compositions for maintaining the viability of photoreceptor cells following retinal detachment. The viability of photoreceptor cells can be preserved by administering an apoptosis inhibitor to a mammal having an eye with retinal detachment. The apoptosis inhibitor maintains the viability of the photoreceptor cells until such time that the retina becomes reattached to the underlying retinal pigment epithelium and choroid. The treatment minimizes the loss of vision, which otherwise may occur as a result of retinal detachment.

The present invention relates to methods of treating and preventing Alzheimer's Disease or other tauopathies in a subject by administering a tau protein, its immunogenic epitopes, or antibodies recognizing the tau protein or its immunogenic epitopes under conditions effective to treat or prevent Alzheimer's Disease of other tauopathies. Also disclosed are methods of promoting clearance of from the brain of the subject and of slowing progression of tangle-related behavioral phenotype in a subject.

The invention relates generally to methods and compositions for treating conditions associated with angiogenesis, and, more specifically, the invention relates to methods and compositions for treating conditions associated with angiogenesis using vascular adhesion protein-1 (VAP-1) inhibitors. The invention also relates to methods and compositions for treating conditions associated with lymphangiogenesis using VAP-1 inhibitors.

The invention relates to stable and low viscous (<50 cP) protein containing compositions, in particular, but not exclusively stable antibody containing compositions and to the use of said stable proteins in therapy, in particular for the subcutaneous delivery of said stable protein.

Provided are novel human tau-specific antibodies as well as fragments, derivatives and variants thereof as well as methods related thereto. Assays, kits, and solid supports related to antibodies specific for tau are also disclosed. The antibody, immunoglobulin chain(s), as well as binding fragments, derivatives and variants thereof can be used in pharmaceutical and diagnostic compositions for tau targeted immunotherapy and diagnosis, respectively.

The present invention provides pharmaceutical formulations comprising a human antibody that specifically binds to human interleukin-4 receptor (hIL-4R). The formulations may contain, in addition to an anti-hIL-4R antibody, at least one amino acid, at least one sugar, or at least one non-ionic surfactant. The pharmaceutical formulations of the present invention exhibit a substantial degree of antibody stability after storage for several months.

The current invention involves a series of fully recombinant multimerized forms of immunoglobulin Fc which thereby present polyvalent immunoglobulin Fc to immune cell receptors. The fusion proteins exist as both homodimeric and highly ordered multimeric fractions, termed stradomers. In comparison to the homodimeric fraction, purified multimeric stradomers have higher affinity and avidity for FcγRs with slower dissociation and are useful in the treatment and prevention of disease. The current invention demonstrates that directly linking IgG1 Fc regions to multimerization domains leads to enhanced multimerization and biological activity.

The current invention involves a series of fully recombinant multimerized forms of immunoglobulin Fc which thereby present polyvalent immunoglobulin Fc to immune cell receptors. The fusion proteins exist as both homodimeric and highly ordered multimeric fractions, termed stradomers. In comparison to the homodimeric fraction, purified multimeric stradomers have higher affinity and avidity for FcγRs with slower dissociation and are useful in the treatment and prevention of disease. The current invention demonstrates that directly linking IgG1 Fc regions to multimerization domains leads to enhanced multimerization and biological activity.

The current invention involves a series of fully recombinant multimerized forms of immunoglobulin Fc which thereby present polyvalent immunoglobulin Fc to immune cell receptors. The fusion proteins exist as both homodimeric and highly ordered multimeric fractions, termed stradomers. In comparison to the homodimeric fraction, purified multimeric stradomers have higher affinity and avidity for FcγRs with slower dissociation and are useful in the treatment and prevention of disease. The current invention demonstrates that directly linking IgG1 Fc regions to multimerization domains leads to enhanced multimerization and biological activity.