Isolated anti-IDE antibodies are provided. Each of the antibodies comprise an antigen recognition domain comprising the indicated CDR amino acid sequences. Methods of producing same, methods of using same, pharmaceutical compositions comprising same and articles of manufacture are also provided.

The present invention relates to the use of the editing profile of PDE8A pre-mRNA as a specific bio marker of ADARs activities in evolved primate, particularly in Human tissues. The present invention also relates to an in vitro method for predicting in Human an alteration of the mechanism of the ADARs catalysed pre-mRNA editing of target genes, by analysing the PDE8A pre-mRNA editing profile in a peripheral tissue sample containing cells expressing said PDE8A pre-mRNA, such as blood sample. The present invention is also directed to an in vitro method for the screening of potential therapeutic compound and to predict and assess therapeutic efficacy and/or efficiency or to diagnose potential severe brain or peripheral drug side effects implementing said PDE8A pre-mRNA editing profile as specific biomarker. The present invention is further directed to a method for determining the PDE8A pre-mRNA editing profile in Human, particularly by capillary electrophoresis single-strand conformation polymorphism (CE-SSCP) method after amplification by a nested PCR. Finally the invention relates to particular nucleic acid primers implemented in said nested PCR and kit comprising such sets of primers and human cells capable of expressing PDE8A and ADARs.

Methods, compositions and kits useful in the detection, assessment, diagnosis, prognosis and/or treatment of brain injuries, especially mild traumatic brain injury (mTBI) or concussion, are based upon detection of changes in levels of certain protein biomarkers in a subject undergoing testing, or upon detection of changes in levels of certain protein biomarkers in conjunction with neuroimaging analyses to detect changes in vascular or blood brain barrier (BBB) permeability in the brain, or to detect damage to fiber tracts in the brain, in which changes in biomarker levels correlate with detection of changes in BBB permeability or in brain fiber tract or white matter damage in a subject with brain injury such as mTBI or concussion.

The present disclosure provides methods for the treatment of a mammal having a neurological condition, disease, or injury. The methods involve increasing the number of functional GABAergic interneurons at or near the site of the neurological disease, injury, or condition.

The disclosure provides biomarkers for diagnosis and monitoring of transthyretin (TTR) amyloidosis. The disclosure further provides methods for selection of agents for treatment of TTR amyloidosis using the biomarkers. The disclosure further provides kits for practicing the methods provided herein.

The present disclosure relates to a Proteomics-to-Genomics approach allows for in silico validation of biomarkers and drug targets. Biomarkers having high prognostic value in predicting cancer patient populations that may benefit from mitochondrial biogenesis inhibitor therapy may be identified under the present approach. Also disclosed are methods for identifying candidates for anti-mitochondrial therapy, and in particular mitochondrial biogenesis inhibitor therapy. Diagnostic kits including reagents for determining transcripts or probes of high prognostic value are also disclosed. Additionally, mitochondrial biogenesis inhibitors may be used as anti-cancer agents for diverse oncogenic stimuli, including for example, c-MYC and H-Ras oncogenes, as well as environmental stimuli such as, for example rotenone.

The present invention relates to a normal-pressure hydrocephalus diagnosis composition and diagnosis marker detection method which use the level of expression of chitinase 3-like 1 (CHI3L1) in blood and, more specifically, to a normal-pressure hydrocephalus diagnosis composition and diagnosis kit which comprise a preparation for measuring the expression level of CHI3L1 protein or of mRNA encoding the protein, and to a normal-pressure hydrocephalus diagnosis method using same. According to the present invention, the expression level of CHI3L1 is significantly increased in patients with normal-pressure hydrocephalus. Thus, the present invention is excellent since it can rapidly and accurately diagnose normal-pressure hydrocephalus by analyzing the expression level of CHI3L1.

Provide are a diagnostically useful carrier coated with a recombinant polypeptide comprising SEQ ID NO: 1, an isolated autoantibody binding specifically to a polypeptide having SEQ ID NO: 1, a kit comprising the carrier, a method for the diagnosis of a membranous nephropathy (MN) that includes detecting the presence or absence of an autoantibody binding specifically to a polypeptide having SEQ ID NO: 1 in a liquid sample comprising antibodies from a subject, a use of an autoantibody binding specifically to a polypeptide having SEQ ID NO: 1 or a polypeptide comprising SEQ ID NO: 1, and a aqueous solution comprising an autoantibody binding specifically to a polypeptide having SEQ ID NO: 1.

Provided is a lateral flow assay device capable of detecting a traumatic brain injury marker including a sample pad into which a blood sample containing a traumatic brain injury marker is injected, an adsorption pad including a probe which is mixed to the marker when the traumatic brain injury marker moves from the sample pad to form a traumatic brain injury marker complex, and a porous film which fluid-communicates with the adsorption pad and capillary-migrates the traumatic brain injury marker complex from the adsorption pad to a detection line, in which the probe includes a capture antibody consisting of an antibody labeled with a specific binding material specifically binding to the traumatic brain injury marker and a detector antibody consisting of an antibody labeled with a fluorescent material having a relatively long emission lifetime of 1 microsecond or more, and a mixture of at least two different kinds-origin antibodies is used as the antibody labeled with the specific binding material or the fluorescent material.

Disclosed herein are methods that aid in the determination of whether a subject has a traumatic brain injury (TBI) by detecting levels of at least one biomarker, glial fibrillary acidic protein (GFAP), in samples taken from a subject, such as a human subject, where the subject has received a head CT scan that is negative for a TBI.