Humanized mouse models and methods are provided for determining whether administration of an immunomodulatory drug likely elicits a severe cytokine release syndrome in a human. Humanized mouse models and methods are also provided for determining the immunotoxicity in a human of a drug candidate or of drug combinations.

The present disclosure relates to genetically modified non-human animals that express a human or chimeric (e.g., humanized) IL4R and/or IL4, and methods of use thereof.

Provided is a drug target for vitiligo. The drug target is IFN-γ signaling. It also provides a method for establishing vitiligo animal model, or a vitiligo induction method in an animal, and the established vitiligo animal model. Further, provided is a method for screening candidate drugs for treating vitiligo using the said animal model.

The present disclosure relates to genetically modified non-obese diabetic (NOD) mice deficient in murine class I MHC molecules, class II molecules, or both class I and class II MHC molecules. The MHC knockout transgenic mice provided herein are useful, for example, for developing therapies for diabetes.

Provided are a humanized transgenic non-human animal, especially a rodent, in particular a transgenic mouse containing a human interleukin 17A (IL-17A) gene, a human gene 17RA (IL-17RA) and/or a human TNF-alpha gene, and a preparation method therefor and the use thereof.

It was found that bacteria belonging to the genus Clostridium induce accumulation of regulatory T cells (Treg cells) in the colon. Moreover, the present inventors found that regulatory T cells (Treg cells) induced by from these bacteria suppressed proliferation of effector T-cells. From these findings, the present inventors found that the use of bacteria belonging to the genus Clostridium or a physiologically active substance derived therefrom made it possible to induce proliferation or accumulation of regulatory T cells (Treg cells), and further to suppress immune functions.

The present disclosure relates to genetically modified non-obese diabetic (NOD) mice deficient in murine class I MHC molecules, class II molecules, or both class I and class II MHC molecules. The MHC knockout transgenic mice provided herein are useful, for example, for developing therapies for diabetes.

The present disclosure relates to genetically modified non-human animals that express a human or chimeric (e.g., humanized) IL15, and methods of use thereof.

Non-human animals, cells, methods and compositions for making and using the same are provided, wherein the non-human animals and cells comprise a humanized B-cell activating factor gene. Non-human animals and cells that express a human or humanized B-cell activating factor protein from an endogenous B-cell activating factor locus are described.

The present disclosure relates to genetically modified non-human animals that express a human or chimeric (e.g., humanized) IL4R and/or IL4, and methods of use thereof.