The present application relates to a non-human mammal model of a human neurodegenerative disorder, methods of producing the non-human mammal model, and methods of using the non-human mammal model to identify agents suitable for treating a neurodegenerative disorder. The present application also relates to methods of treating neurodegenerative disorders and restoring normal brain interstitial potassium levels.

Disclosed herein are rodents (such as, but not limited to, mice and rats) genetically modified to comprise a humanized Cxcl13 gene. The rodents disclosed herein have been shown to support better engraftment and proliferation of human cells such as chronic lymphocytic leukemic cells. Compositions and methods for making such genetically modified rodents, as well as methods of using such genetically modified rodents for testing candidate therapeutic agents (e.g., candidate anti-cancer drugs), are provided.

The present disclosure relates to genetically modified non-human animals that express a human or chimeric (e.g., humanized) CD94 and/or NKG2A, and methods of use thereof.

Non-human animal genomes, non-human animal cells, and non-human animals comprising a humanized TRKB locus and methods of making and using such non-human animal genomes, non-human animal cells, and non-human animals are provided. Non-human animal cells or non-human animals comprising a humanized TRKB locus express a human TRKB protein or a chimeric transthyretin protein, fragments of which are from human TRKB. Methods are provided for using such non-human animals comprising a humanized TRKB locus to assess in vivo efficacy of human-TRKB-targeting reagents such as nuclease agents designed to target human TRKB.

The present invention relates to methods of treatment of clinical disorders associated with protein aggregation comprising administering, to a subject, an effective amount of an anti-protein aggregate (“APA”) compound selected from the group consisting of pimozide, fluphenazine (e.g., fluphenazine hydrochloride), tamoxifen (e.g., tamoxifen citrate), taxol, cantharidin, cantharidic acid, salts thereof and their structurally related compounds. It is based, at least in part, on the discovery that each of the aforelisted compounds were able to promote degradation of aggregated ATZ protein in a Caenorhabditis elegans model system. According to the invention, treatment with one or more of these APA compounds may be used to ameliorate the symptoms and signs of AT deficiency as well as other disorders marked by protein aggregation, including, but not limited to, Alzheimer's Disease, Parkinson's Disease, and Huntington's Disease.

A transgenic animal model that is suitable for the cell or tissue specific assessing of thyroid hormone (TH) action in vivo is described. The recombinant DNA construct and methods suitable to generate such an animal are also provided. The assessment of TH action is based on a reporter that is dependent on an endogenously expressed thyroid hormone receptor (TR) and coregulators of said receptor.

The present disclosure relates to genetically modified non-human animals that express a human or chimeric (e.g., humanized) CD276, and methods of use thereof.

Isolated or recombinant EphA5 or GRP78 targeting antibodies are provided. In some cases, antibodies of the embodiments can be used for the detection, diagnosis and/or therapeutic treatment of human diseases, such as cancer. A method of rapidly identifying antibodies or antibody fragments for the treatment of cancer using a combination of in vitro and in vivo methodologies is also provided.

Provided are an LncRNA and oncolytic adenovirus, and application thereof. The oncolytic adenovirus is used as a carrier to express the LncRNA, so as to express the LncRNA in a cancer cell; competitively binding a target gene of OncomiRs, and consuming the OncomiRs, thus protecting a cancer suppressor gene from interference and suppression of the OncomiRs, and achieving target intervention therapy of the cancer cell.

The present invention includes a method of treating a drug-induced atrioventricular (AV) block comprising: providing a subject in need of therapy a drug that is contraindicated to treat a disease or condition in the subject, wherein the drug causes an AV block, with an amount of a lipid sufficient to reduce or eliminate the AV block caused by the drug.