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Species, interindividual, and tissue specificity in endocrine signaling.

The activity of endocrine-active agents exhibits specificity at many levels. Differential responsiveness to these agents has been observed between different species and extends to interindividual differences within a species and between different tissues as well. In cases where they have been identi...

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Detalles Bibliográficos
Autores principales: Walker, C, Ahmed, S A, Brown, T, Ho, S M, Hodges, L, Lucier, G, Russo, J, Weigel, N, Weise, T, Vandenbergh, J
Formato: Texto
Lenguaje:English
Publicado: 1999
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1567505/
https://www.ncbi.nlm.nih.gov/pubmed/10421772
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author Walker, C
Ahmed, S A
Brown, T
Ho, S M
Hodges, L
Lucier, G
Russo, J
Weigel, N
Weise, T
Vandenbergh, J
author_facet Walker, C
Ahmed, S A
Brown, T
Ho, S M
Hodges, L
Lucier, G
Russo, J
Weigel, N
Weise, T
Vandenbergh, J
author_sort Walker, C
collection PubMed
description The activity of endocrine-active agents exhibits specificity at many levels. Differential responsiveness to these agents has been observed between different species and extends to interindividual differences within a species and between different tissues as well. In cases where they have been identified, the biologic and molecular mechanisms underlying this specificity are quite diverse. Determinants of species specificity include differences that exist in receptor binding, gene transcription, and cellular responses to endocrine-active compounds between species. Interindividual differences in responsiveness may be determined at the level of genetic polymorphisms in hormone-metabolizing enzymes, hormone receptors, and in those genes that are transactivated by these receptors, as well as during changing windows of susceptibility that occur as a function of age, such as prenatal and postmenopausal exposures. Extrinsic factors such as diet can also impact individual susceptibility to endocrine-active agents. Tissue-specific determinants of susceptibility are well documented, but little is known regarding the mechanisms underlying these different responses. Differences in the expression of accessory proteins for steroid hormone receptors and different patterns of receptor expression, estrogen receptor alpha and estrogen receptor beta; for example, may contribute to tissue specificity, as may differences in the pattern of expression of other genes such as hormone-metabolizing enzymes. The use of animal model systems and development of appropriate mathematical models has the potential to yield additional valuable information for elucidating the role of these determinants of specificity at low-dose exposures and for improved risk assessments for the adverse health effects of endocrine-active compounds.
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spelling pubmed-15675052006-09-19 Species, interindividual, and tissue specificity in endocrine signaling. Walker, C Ahmed, S A Brown, T Ho, S M Hodges, L Lucier, G Russo, J Weigel, N Weise, T Vandenbergh, J Environ Health Perspect Research Article The activity of endocrine-active agents exhibits specificity at many levels. Differential responsiveness to these agents has been observed between different species and extends to interindividual differences within a species and between different tissues as well. In cases where they have been identified, the biologic and molecular mechanisms underlying this specificity are quite diverse. Determinants of species specificity include differences that exist in receptor binding, gene transcription, and cellular responses to endocrine-active compounds between species. Interindividual differences in responsiveness may be determined at the level of genetic polymorphisms in hormone-metabolizing enzymes, hormone receptors, and in those genes that are transactivated by these receptors, as well as during changing windows of susceptibility that occur as a function of age, such as prenatal and postmenopausal exposures. Extrinsic factors such as diet can also impact individual susceptibility to endocrine-active agents. Tissue-specific determinants of susceptibility are well documented, but little is known regarding the mechanisms underlying these different responses. Differences in the expression of accessory proteins for steroid hormone receptors and different patterns of receptor expression, estrogen receptor alpha and estrogen receptor beta; for example, may contribute to tissue specificity, as may differences in the pattern of expression of other genes such as hormone-metabolizing enzymes. The use of animal model systems and development of appropriate mathematical models has the potential to yield additional valuable information for elucidating the role of these determinants of specificity at low-dose exposures and for improved risk assessments for the adverse health effects of endocrine-active compounds. 1999-08 /pmc/articles/PMC1567505/ /pubmed/10421772 Text en
spellingShingle Research Article
Walker, C
Ahmed, S A
Brown, T
Ho, S M
Hodges, L
Lucier, G
Russo, J
Weigel, N
Weise, T
Vandenbergh, J
Species, interindividual, and tissue specificity in endocrine signaling.
title Species, interindividual, and tissue specificity in endocrine signaling.
title_full Species, interindividual, and tissue specificity in endocrine signaling.
title_fullStr Species, interindividual, and tissue specificity in endocrine signaling.
title_full_unstemmed Species, interindividual, and tissue specificity in endocrine signaling.
title_short Species, interindividual, and tissue specificity in endocrine signaling.
title_sort species, interindividual, and tissue specificity in endocrine signaling.
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1567505/
https://www.ncbi.nlm.nih.gov/pubmed/10421772
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