The present invention relates to a preparation method for an animal model with Alzheimer's disease by injecting a human mutant tau (AAV-hTau) vector and adenovirus into an animal. The preparation method for an AD animal model provided by the present invention may contribute to the development of the field of treatment technology for treating AD since the preparation method causes AD pathology to appear as early as 8 months old and facilitates studies on AD target treatment strategies and tau pathology.

Provided herein are transgenic non-human animals whose genomes comprise two or more human genes selected from TREM1, TREML1, TREM2, TREML2, and TREML4, to methods of screening candidate agents that bind to and/or modulate the function and/or activity of at least one of the human genes in the transgenic non-human animals, and to methods of screening candidate agents to determine their effect on one or more activities and/or functions associated with expression of at least one of the human genes in the transgenic non-human animals. Further provided herein are methods of recapitulating a human TREM immune system in a non-human animal, and methods of generating a non-human animal disease model comprising a human TREM repertoire.

The present disclosure relates to the use of PGC-1α expression to identify a subject that is conducive to treatment with a ma-485 inhibitor. In some aspects, the subject suffers from a disease or disorder associated with reduced PGC-1α expression. In some aspects, the PGC-1α expression is measured in the serum of the subject.

The present disclosure relates to the use of SIRT1 expression to identify a subject that is conducive to treatment with a miR-485 inhibitor. In some aspects, the subject suffers from a disease or disorder associated with reduced SIRT1 expression. In some aspects, the SIRT1 expression is measured in the serum of the subject.

Provided is use of thiamine pyrophosphokinase TPK as a target in the treatment of Alzheimer's disease; and AD symptoms due to the inhibited TPK can be prevented by promoting the kinase activity and/or expression level of TPK protein in brain with TPK as a target.

The disclosure provides for methods and compositions for treating a premature aging disorder or neurodegenerative disorder, particularly neurodegenerative disorders associated with amyloid deposition and neuronal death, such as Alzheimer's disease. Accordingly, aspects of the disclosure relate to a method for treating a premature aging disorder in a subject in need thereof, comprising administering a TERT activating therapy to the subject. Further aspects relate to a method for treating a neurodegenerative disorder in a subject comprising administering a TERT activating therapy to the subject.

The current Alzheimer's disease model mouse, developed by manipulating the expression of a gene directly related to distinctive pathology that is specific to the disease, such as acceleration of amyloid plaque deposition, is a model of a preclinical state, or of a pathology that is fundamentally different from human Alzheimer's disease. In view of the current state described above, the present invention addresses the problem of developing a non-human transgenic animal in which Alzheimer's pathology is more accurately reflected, and thereby elucidating a disease mechanism or contributing to drug discovery. In the present invention, by heterozygous knockout of the drebrin gene of a non-human Alzheimer's disease model animal used as a base, senescence risk can be imparted to the conventional non-human Alzheimer's disease model animal. Alzheimer's pathology is more accurately reflected in this non-human Alzheimer's disease model animal.

Provided herein are compositions and methods for selective expression of a transgene. Compositions and methods for selective expression of a transgene comprise one or more human regulatory elements, which, when operably linked to a transgene, can facilitate selective expression of a transgene (for example, cell-type selective expression) in a target cell as compared to at least one or more non-target cells.

The present invention relates to methods and compositions for high content drug screening in Caenorhabditis elegans which may be used to identify compounds that treat disorders associated with protein aggregation. It is based, at least in part, on the discovery that Caenorhabditis elegans, genetically modified to create a model system for disorders of protein aggregation, could be used, in a high throughput screening system, to identify agents that reduce the amount of aggregated protein.

Provided is a pharmaceutical composition for treating a degenerative brain disease, including a glycine transporter as an active ingredient. A composition including, as an active ingredient, a glycine transporter protein, a fragment thereof or a nucleic acid molecule encoding the protein or the fragment thereof, a vector including the nucleic acid molecule, or a cell transformed with the vector including the nucleic acid molecule, according to an embodiment, not only can achieve excellent effect(s) of inhibiting amyloid-beta aggregation and/or degrading aggregated amyloid-beta, but also degrades tau protein (and/or inhibition of the aggregation thereof), inhibits the hyperphosphorylation of tau protein, and has excellent blood-brain barrier permeability, thus making it possible to successively act on brain tissues. Therefore, the composition can be effectively applied to the prevention and/or treatment of various degenerative brain diseases associated with amyloid-beta aggregation, tau protein aggregation, and/or hyperphosphorylated tau protein.