39 results about "Excitatory amino-acid transporter" patented technology

In one aspect, the present invention features methods for detecting at least one neurological disorder in a patient, the method comprising obtaining a biological sample from the patient; and detecting at least one aberrant human glutamate transporter 2 (EAAT 2) mRNA in the sample as being indicative of the neurological disorder in the patient. In a particular aspect, the invention is useful for detecting amyotrophic lateral sclerosis (ALS) in the patient.

Glutamate Transporter Associated Proteins and nucleotide encoding Glutamate Transporter Associated Proteins are provided. Also provided is a method for identifying a compound that modulates a cellular response mediated by a Glutamate Transporter Associated Protein. A method is further provided for identifying a compound that inhibits an interaction between a Glutamate Transporter Associated Protein and a glutamate transporter protein. A method is provided for treating a disorder associated with glutamate transport.

The invention includes a transgenic, non-human mammal useful for identifying candidate compounds for treating neurological and/or psychiatric disorders. Incorporated into the genome of the transgenic mammal is a transgene comprising a glutamate transporter promoter operatively linked to a reporter gene. The transgenic non-human mammal and cells isolated therefrom can be used as an in vivo model for the identification of candidate compounds useful for the treatment of neurological and/or psychiatric disorders.

The invention discloses an application of miRNA-543-3p in diagnosis and treatment of a Parkinson's disease. In the invention, it is screened and verified that the miRNA-543-3p has an effect of regulating expressions and functions of a glutamate transporter, and it is further verified that miRNA-543-5p directly acts on the glutamate transporter. It is discovered that miRNA-543-5p inhibitors can inhibit functions of the miRNA-543-5p, so that an inhibition effect of the miRNA-543-5p on mRNA translation of the glutamate transporter is reduced, and an expression level of a glutamate transporter protein is improved to some extent, thereby reducing a neurotoxicity effect of glutamic acid, relieving the state of the Parkinson's disease and providing a new target and a new way for clinical treatment of the Parkinson's disease.

The invention discloses oligopeptide and application thereof, and belongs to the field of biomedicine. The amino acid sequence of the oligopeptide is as shown in the sequence listing SEQ ID NO.1 or anamino acid sequence with the same function formed by replacing, deleting or adding one or several amino acids to the sequence. An SHH signaling pathway can rapidly regulate and control the activity of glutamate transporter GLT-1 in ischemic stroke, that is, by reducing the amount of glutamate transporter GLT-1 protein on a cell membrane, the activity of the glutamate transporter GLT-1 is reduced.His-2A-TAT can effectively prevent the reduction of the activity of the glutamate transporter GLT-1 caused by SHH, and thus a neuroprotective role in the ischemic stroke is played.

Methods of treating brain ischema or hypoxia by using an inhibitor of cysteine-glutamate transporter (i.e. system x_c⁻) is provided. The inhibitor includes sorafenib and a derivative thereof, erastin, and suifasalazine. These inhibitors can effectively decrease a concentration of extracellular glutamate, so that excitotoxicity to central nervous system (CNS) and a cortical infarct volume in brains can be reduced.

The invention discloses application of Nedd4-2 to parkinson's disease treatment. It is found that the regulation effect on glutamate transporter from Nedd4-2 participates in attack of PD, significance of regulation abnormity of Nedd4-2 to the glutamate transporter in the PD attack process is focused on, interaction between Nedd4-2 and the glutamate transporter and the influence on the expression and the function of the glutamate transporter from the concentration and activity of N2dd4-2 are discussed at the animal model and cell experiment level, the molecule mechanism for adjusting the glutamate transporter by Nedd4-2 is analyzed, and it is approved that Nedd4-2 can serve as a target for treating PD. Gene treatment on parkinson's disease is directed, parkinson's disease resistant drugs are effectively screened, and Nedd4-2 has great significance in the life quality improvement of parkinson's disease patients.

The present invention relates to photosensitive derivatives of optically active L-threo-β-benzyloxyaspartate or its benzene ring-substituted analogs, represented by the following formula (1) or (2): (1) (2) wherein R¹ represents hydrogen atom, amino group, straight or branched lower aliphatic acylamino group optionally substituted at the acyl group portion, alicyclic acylamino group or aromatic acylamino group optionally having a substituent on the aromatic ring, R² represents hydrogen atom or one or more straight or branched optionally substituted lower aliphatic alkyloxy groups on the benzene ring, R3 represents hydrogen atom, methyl group or carboxyl group, and R4 and R5 each represent hydrogen atom, hydroxyl group, straight or branched lower alkyloxy group optionally substituted at the alkyl portion, amino group, straight or branched lower alkyl-substituted amino group, or a halogen atom, which upon photoirradiation can produce compounds exhibiting a function of suppressing the glutamate uptake activity of L-glutamate transporters.

The present disclosure provides in one aspect compounds of Formula I. In certain embodiments, the compounds of the disclosure are useful for treating, ameliorating or preventing a disease or disorder that is caused, induced or characterized by abnormal reduction in glutamate transporter activity or abnormal increase in extracellular CNS glutamate concentration in a subject. In certain embodiments, the compounds of the disclosure stimulate a glutamate transporter.

The invention surprisingly found that agents that inhibit system x_c⁻ provide the therapeutic intervention in substance-related and addictive disorders and the treatment and/or prevention in substance-mediated brain damage and confirms that system x_c⁻ is a promising therapeutic target for substance-induced addiction and brain damage.