Non-human animals comprising a human or humanized C3 and/or C5 nucleic acid sequence are provided as well as methods for using the same to identify compounds capable of modulating the complement system. Non-human animals that comprise a replacement of the endogenous C5 gene and/or C3 gene with a human or humanized C5 gene and/or C3 gene, and methods for making and using the non-human animals, are described. Non-human animals comprising a human or humanized C5 gene under control of non-human C5 regulatory elements is also provided, including non-human animals that have a replacement of non-human C5-encoding sequence with human C5-encoding sequence at an endogenous non-human C5 locus. Non-human animals comprising a human or humanized C3 gene under control of non-human C3 regulatory elements is also provided, including non-human animals that have a replacement of non-human C3 protein-encoding sequence with human or humanized C3 protein-encoding sequence at an endogenous non-human C3 locus. Non-human animals comprising human or humanized C3 and/or C5 sequences, wherein the non-human animals are rodents, e.g., mice or rats, are provided.

The present invention relates to a non-human mammalian animal which has been modified to have in the blood, plasma and/or serum (a) an increased number of leukocytes and/or neutrophils, and (b) a reduced activity of the DNase 1 and/or DNase 1-like 3 enzymes. The non-human mammalian animal is particularly suitable for studying inflammation and/or a disease associated with inflammation. In a further aspect, the invention relates to the use of the non-human mammalian animal as a model for identifying therapeutic or diagnostic targets of inflammation and/or a disease associated with inflammation. In a still further aspect, the invention relates the use of the non-human mammalian animal as a model for drug candidate testing. In addition, a method for testing an anti-inflammatory drug candidate against extracellular DNA is provided. Finally, a method for testing an anti-inflammatory drug candidate for modifying the formation or degradation of neutrophil extracellular traps is provided. In still another aspect, the present invention relates to a non-human mammalian animal, which has been modified to have an increased number of neutrophils in blood.

Non-human animals comprising a human or humanized IL-4 and/or IL-4R nucleic acid sequence are provided. Non-human animals that comprise a replacement of the endogenous IL-4 gene and/or IL-4R gene with a human IL-4 gene and/or IL-4R gene in whole or in part, and methods for making and using the non-human animals, are described. Non-human animals comprising a human or humanized IL-4 gene under control of non-human IL-4 regulatory elements is also provided, including non-human animals that have a replacement of non-human IL-4-encoding sequence with human IL-4-encoding sequence at an endogenous non-human IL-4 locus. Non-human animals comprising a human or humanized IL-4R gene under control of non-human IL-4R regulatory elements is also provided, including non-human animals that have a replacement of non-human IL-4R-encoding sequence with human or humanized IL-4R-encoding sequence at an endogenous non-human C IL-4R locus. Non-human animals comprising human or humanized IL-4 gene and/or IL-4R sequences, wherein the non-human animals are rodents, e.g., mice or rats, are provided.

Non-human animals comprising a human or humanized IL-4 and/or IL-4R? nucleic acid sequence are provided. Non-human animals that comprise a replacement of the endogenous IL-4 gene and/or IL-4R? gene with a human IL-4 gene and/or IL-4R? gene in whole or in part, and methods for making and using the non-human animals, are described. Non-human animals comprising a human or humanized IL-4 gene under control of non-human IL-4 regulatory elements is also provided, including non-human animals that have a replacement of non-human IL-4-encoding sequence with human IL-4-encoding sequence at an endogenous non-human IL-4 locus. Non-human animals comprising a human or humanized IL-4R? gene under control of non-human IL-4R? regulatory elements is also provided, including non-human animals that have a replacement of non-human IL-4R?-encoding sequence with human or humanized IL-4R?-encoding sequence at an endogenous non-human C IL-4R? locus. Non-human animals comprising human or humanized IL-4 gene and/or IL-4R? sequences, wherein the non-human animals are rodents, e.g., mice or rats, are provided.

The present invention relates to a composition comprising a peptide derived from myelin basic protein (MBP) peptide for use in treating or preventing uveitis in a subject

Provided are methods of treating and/or preventing dermatological disorders. Provided are methods of reducing skin inflammation, reducing pain, and/or reducing itch in a subject in need thereof. The methods may include administering to the subject an effective amount of a TRPA1 and/or TRPV4 inhibitor. Further provided are compositions including a TRPA1 and/or TRPV4 inhibitor compound in combination with a carrier, vehicle, or diluent that is suitable for topical application.

A biologically relevant animal model for psoriasis is provided. Epidermal-immune interactions governing epidermal tissue homeostasis are altered in psoriasis, an inflammatory disease affecting one in thirty adults. Here, we characterize Rac1 as a key mediator of this process. Rac1 activation was consistently elevated in psoriatic epidermis and primary psoriatic human keratinocytes (PHKC).

Provided are a psoriasis-induced transgenic animal model overexpressing the Pellino homolog 1 (Peli1) gene according to doxycycline administration, and a use thereof. The transgenic animal model of the present disclosure exhibited similarity to phenotypes shown in patients with psoriasis, due to overexpression of the Pellino homolog 1 (Peli1) gene according to doxycycline administration. It is anticipated that the transgenic animal model may be usefully used in clinical studies, such as screening for a candidate drug for the treatment of psoriasis. Additionally, it is anticipated that a peptide derived from the Peli1 FHA domain targeting the FHA binding motif that inhibits normal substrate binding between a substrate protein and the Peli1 protein may be usefully used in the development of new drugs for psoriasis-associated diseases. Moreover, by confirming an expression level of the Peli1 protein, it is anticipated to be usefully used in evaluating the severity of patients with psoriasis.

Provided are an expression inhibitor of an inflammation promoting factor based on the discovery of a new factor influencing the expression amount/level of an inflammation promoting factor, and a development tool therefor. Provided are also a diagnostic agent and a diagnosis method for immune diseases, inflammatory diseases, painful conditions and similar. More specifically provided are: an expression inhibitor of an inflammation promoting factor containing at least one kind of inhibitor selected from the group consisting of RBMS2 expression inhibitor and RBMS2 function inhibitor; a screening method using as an indicator the expression or the function of RBMS2; an expression cassette useful for said method; as well as a diagnostic agent containing a product detection agent for RBMS2 gene expression and disease detection method using as an indicator RBMS2 gene expression amount/level.

An atopic dermatitis model non-human animal, containing a gene mutation in which a complex containing dedicator of cytokinesis 8 (DOCK8) protein, mammalian STE20-like kinase 1 (MST1) protein, and endothelial PAS domain protein 1 (EPAS1) protein is not formed in CD4.sup.+ T cells.