Provided are novel human-derived antibodies specific for transthyretin (TTR), preferably capable of binding misfolded, misassembled, and/or aggregated TTR species, as well as methods related thereto. In addition, methods of diagnosing and/or monitoring diseases and treatments thereof which are associated with TTR amyloidosis are provided. Assays and kits related to antibodies specific for TTR or TTR deposits and aggregates are also disclosed. The novel anti-TTR antibodies can be used in pharmaceutical and diagnostic compositions for TTR targeted immunotherapy and diagnostics.

A method of preventing, alleviating or treating traumatic brain injury in an individual comprises administering to the individual a therapeutically effective and physiologically acceptable amount of an agent capable of reducing the amount of one or more aggregated forms of one or more peptides in the brain. An agent capable of reducing the amount of one or more aggregated forms of one or more peptides in the brain is suitable for use in preventing, alleviating or treating traumatic brain injury. A method for predication of the risk of an individual for complications after a traumatic brain injury comprises detecting one or more aggregated forms of one or more peptides prone to aggregate as a result of a traumatic brain injury event, in the brain of the individual, wherein an increased level of such aggregates in the brain indicates an increased risk for complications.

The present invention is in the fields of biochemistry, molecular biology, and Alzheimer's disease diagnosis, prevention, and treatment. Provided herein are humanized antibodies against human tau that are capable of discriminating between normal (healthy) and pathological (disease-associated) tau.

Disclosed is a method for body fluid-based neurodegenerative disease diagnosis through high-sensitive immunoassay of aggregated proteins by photooxidation-induced amplification. The method according to the present disclosure provides an effect of quantitatively analyzing aggregated proteins in the form of oligomers or monomers which are present in trace amounts in a body fluid and measures normal or abnormal protein aggregation by detecting the aggregated proteins in the form of oligomers or monomers with high sensitivity by reaction of antibody-conjugated enzymes selectively bound to the aggregated proteins with substrates and photooxidation-induced amplification, thereby allowing accurate diagnosis of a neurodegenerative disease.

Methods are disclosed for determining whether a subject has a synucleinopathy. Methods are also disclosed for detecting misfolded alpha synuclein (αSyn) in a biological sample or fraction thereof. These methods include the use of an αSyn seeding assay.

The invention concerns the field of medical devices, more particularly devices for joint extraction, within an organism, of at least one metal cation and at least one target molecule. In order to do this, the device comprises: a) at least one ligand exhibiting specific affinity for the target molecule; b) at least one means for extraction of the metal cation, said means being a perfusion fluid comprising at least one chelating agent, the perfusion fluid being contained in a dialysis or microdialysis system. The use of these devices makes it possible, for example, to prevent and/or treat pathologies linked to dysregulation of the homeostasis of metals and/or target molecules in the organism, for example neurological diseases and/or proteinopathies.

Provided are novel human-derived antibodies specific for transthyretin (TTR), preferably capable of binding misfolded, misassembled, and/or aggregated TTR species, as well as methods related thereto. In addition, methods of diagnosing and/or monitoring diseases and treatments thereof which are associated with TTR amyloidosis are provided. Assays and kits related to antibodies specific for TTR or TTR deposits and aggregates are also disclosed. The novel anti-TTR antibodies can be used in pharmaceutical and diagnostic compositions for TTR targeted immunotherapy and diagnostics.

A monoclonal antibody that binds α-synuclein, and that binds tau fibrils, and methods of using the monoclonal antibody, are provided. The monoclonal antibody may be hybridoma clone 2F11. Also provided is a composition comprising the monoclonal antibody 2F11 and a pharmaceutically acceptable carrier, adjuvant, vehicle or excipient. A method of reducing active α-synuclein in a subject in need thereof is also disclosed. The method involves administering an amount of the composition comprising 2F11 to the subject. The monoclonal antibody 2F11 may also be used to determine the α-synuclein, or tau fibril, level in a biological sample.

A human antibody which comprises a complementarity determining region of an H chain consisting of the amino acid sequence as shown in SEQ ID NOs: 1 to 3 and a complementarity determining region of an L chain consisting of the amino acid sequence as shown in SEQ ID NOs: 4 to 6. The human antibody of the present invention has the activity to specifically bind to transthyretin (TTR) with structural change and the activity to inhibit fibrillization of TTR and is a human antibody suitable for application to human body.

The present invention provides compositions and methods for inhibiting intermediate filament tetramerization and formation.