An essential role for Rxrα in the development of Th2 responses

Xin Du; Koichi Tabeta; Navjiwan Mann; Karine Crozat; Suzanne Mudd; Bruce Beutler

doi:10.1002/eji.200535366

An essential role for Rxrα in the development of Th2 responses

Xin Du, Koichi Tabeta, Navjiwan Mann, Karine Crozat, Suzanne Mudd, Bruce Beutler

Research output: Contribution to journal › Article › peer-review

47 Scopus citations

Abstract

A viable hypomorphic allele of mouse retinoid X receptor a (Rxra) was created by random germline mutagenesis. The mutation (I273N) alters the ligand binding and heterodimerization domain, and causes a 90% decline in ligand-inducible transactivation. Homozygotes develop progressive alopecia and dermal cysts, and progressive exaggeration of Th1 and loss of Th2 responses to antigen. Th1 skewing is directly caused by aberrant function of both antigen-presenting cells and naïve CD4 T cells; the predominant Th1 response to antigen is attributable to decreased suppression of regulatory T cells in mutant mouse. Dietary depletion of vitamin A in Th2-prone wildtype mice mimics the immune phenotype caused by the mutation. Hence, RXRα plays an important post-developmental role in the regulation of adaptive immune responses, and provides a plausible link between nutritional environment and the type of adaptive response that results from immunization.

Original language	English (US)
Pages (from-to)	3414-3423
Number of pages	10
Journal	European Journal of Immunology
Volume	35
Issue number	12
DOIs	https://doi.org/10.1002/eji.200535366
State	Published - Dec 2005

Keywords

Allergy
Nuclear receptor
Retinoid X receptor α
Th1/Th2
Vitamin A

ASJC Scopus subject areas

Immunology and Allergy
Immunology

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10.1002/eji.200535366

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title = "An essential role for Rxrα in the development of Th2 responses",

abstract = "A viable hypomorphic allele of mouse retinoid X receptor a (Rxra) was created by random germline mutagenesis. The mutation (I273N) alters the ligand binding and heterodimerization domain, and causes a 90% decline in ligand-inducible transactivation. Homozygotes develop progressive alopecia and dermal cysts, and progressive exaggeration of Th1 and loss of Th2 responses to antigen. Th1 skewing is directly caused by aberrant function of both antigen-presenting cells and na{\"i}ve CD4 T cells; the predominant Th1 response to antigen is attributable to decreased suppression of regulatory T cells in mutant mouse. Dietary depletion of vitamin A in Th2-prone wildtype mice mimics the immune phenotype caused by the mutation. Hence, RXRα plays an important post-developmental role in the regulation of adaptive immune responses, and provides a plausible link between nutritional environment and the type of adaptive response that results from immunization.",

keywords = "Allergy, Nuclear receptor, Retinoid X receptor α, Th1/Th2, Vitamin A",

author = "Xin Du and Koichi Tabeta and Navjiwan Mann and Karine Crozat and Suzanne Mudd and Bruce Beutler",

year = "2005",

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AU - Du, Xin

AU - Tabeta, Koichi

AU - Mann, Navjiwan

AU - Crozat, Karine

AU - Mudd, Suzanne

AU - Beutler, Bruce

PY - 2005/12

Y1 - 2005/12

N2 - A viable hypomorphic allele of mouse retinoid X receptor a (Rxra) was created by random germline mutagenesis. The mutation (I273N) alters the ligand binding and heterodimerization domain, and causes a 90% decline in ligand-inducible transactivation. Homozygotes develop progressive alopecia and dermal cysts, and progressive exaggeration of Th1 and loss of Th2 responses to antigen. Th1 skewing is directly caused by aberrant function of both antigen-presenting cells and naïve CD4 T cells; the predominant Th1 response to antigen is attributable to decreased suppression of regulatory T cells in mutant mouse. Dietary depletion of vitamin A in Th2-prone wildtype mice mimics the immune phenotype caused by the mutation. Hence, RXRα plays an important post-developmental role in the regulation of adaptive immune responses, and provides a plausible link between nutritional environment and the type of adaptive response that results from immunization.

AB - A viable hypomorphic allele of mouse retinoid X receptor a (Rxra) was created by random germline mutagenesis. The mutation (I273N) alters the ligand binding and heterodimerization domain, and causes a 90% decline in ligand-inducible transactivation. Homozygotes develop progressive alopecia and dermal cysts, and progressive exaggeration of Th1 and loss of Th2 responses to antigen. Th1 skewing is directly caused by aberrant function of both antigen-presenting cells and naïve CD4 T cells; the predominant Th1 response to antigen is attributable to decreased suppression of regulatory T cells in mutant mouse. Dietary depletion of vitamin A in Th2-prone wildtype mice mimics the immune phenotype caused by the mutation. Hence, RXRα plays an important post-developmental role in the regulation of adaptive immune responses, and provides a plausible link between nutritional environment and the type of adaptive response that results from immunization.

KW - Allergy

KW - Nuclear receptor

KW - Retinoid X receptor α

KW - Th1/Th2

KW - Vitamin A

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JO - European Journal of Immunology

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An essential role for Rxrα in the development of Th2 responses

Abstract

Keywords

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