The present invention relates to a method for producing an avatar mouse, which is an animal model of atopic dermatitis, and a method of screening a therapeutic agent for atopic dermatitis using the same. According to the present invention, it is possible to more effectively identify a patient-specific immune response by representing an immune response in an actual atopic dermatitis patient. Thus, the present invention is expected to be widely used in the development of a new immunotherapy system enabling tailored treatment.

The present disclosure provides a chimeric non-human animal comprising human hepatocytes, methods for preparing the chimeric non-human animal comprising human hepatocytes and methods of utilizing the chimeric non-human animal comprising human hepatocytes to screening and identifying metabolites for any type of drugs, typically small molecule drugs, which might affect human liver functions and any other bodily function.

The present invention relates to a method for preparing a large animal model, with peritoneal carcinomatosis, which is an abdominal cavity metastasis of tumor commonly found in advanced or recurrent solid cancer, is induced using a large animal, and the method for preparing a large animal model with peritoneal carcinomatosis comprises injecting a cancer cell line into the abdominal cavity of a piglet in which the immune function is not completed. The method for preparing a large animal model with peritoneal carcinomatosis, when a human-derived immortalized cell line is inoculated into a pig, can overcome xenograft rejection and induce peritoneal carcinomatosis, can use animals with sufficient supply and demand, and can expect the spread of peritoneal carcinomatosis through breeding.

In this application, the provided are: a Down syndrome rat model characterized in that a rat gene homologous to at least one gene present on a human chromosome 21 or fragment thereof is a trisomy and is transmittable to progeny; or a Down syndrome rat model characterized in that it comprises a human chromosome 21 or fragment thereof, or an exogenous rat chromosome or fragment thereof on which a rat gene homologous to the human chromosome 21 or fragment thereof is present, wherein at least one gene on the human chromosome 21 or fragment thereof or on the exogenous rat chromosome or fragment thereof is added to endogenous rat genes homologous to the at least gene so as to become a trisomy and to be transmittable to progeny: and a method for producing the Down syndrome rat model.

The present application relates to a method for reestablishing stem cells capable of forming chimeras, and cells obtained by the method. The method of the present invention is a technique for monocloning stem cells, for example, capable of forming chimeras from a heterogeneous cell population to obtain high-quality stem cells.

The present invention discloses a novel means capable of producing a blood chimeric animal in which a state of retaining blood cells originating in a heterologous animal at a high percentage is sustained for a long period of time. The method for producing a non-human animal that retains blood cells originating in a heterologous animal, according to the present invention, comprises transplanting hematopoietic cells of a heterologous animal into a non-human animal, in which hematopoietic cells the function of a gene that acts on the hematopoietic system is modified, The gene that acts on the hematopoietic system is, for example, Lnk gene, When a medium to large mammal is used as a recipient, the survival rate of hematopoietic cells originating in a heterologous animal is dramatically increased such that blood chimerism of 10% or more can be maintained even in a 16 month old animal.

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.

Provided herein are several monoclonal antibodies that activate the adhesion activity of human and mouse E-cadherin, including the amino acid sequences for the CDRs that define the binding domains of each monoclonal antibody. Also described are methods of making these antibodies, as well as biologically functional fragments and derivatives thereof; and methods of using them in the treatment, prevention, and/or amelioration of disease and conditions characterized by disruption of normal cell adhesion and/or cell junctions. Specifically contemplated are methods and compositions for the treatment of cancer metastasis as well as inflammatory conditions (such as inflammatory bowel disease and airway inflammation).

The present invention provides a non-human animal having human interleukin-34 (IL-34) in the body thereof; a method for producing a non-human animal having human microglia, which includes transplanting human CD34-positive hematopoietic stem cells into the non-human animal having human IL-34 in the body; and a method for producing human microglia, which includes obtaining human microglia from the non-human animal having human microglia.

The present application discloses inhibitors of NME family of proteins.