Ian Pate scite author profile

A major challenge in the emerging field of toxicogenomics is to define the relationships between chemically induced changes in gene expression and alterations in conventional toxicologic parameters such as clinical chemistry and histopathology. We have explored these relationships in detail using the rodent uterotrophic assay as a model system. Gene expression levels, uterine weights, and histologic parameters were analyzed 1, 2, 4, 8, 24, 48, and 72 hr after exposure to the reference physiologic estrogen 17β-estradiol (E 2 ). A multistep analysis method, involving unsupervised hierarchical clustering followed by supervised gene ontology-driven clustering, was used to define the transcriptional program associated with E 2 -induced uterine growth and to identify groups of genes that may drive specific histologic changes in the uterus. This revealed that uterine growth and maturation are preceded and accompanied by a complex, multistage molecular program. The program begins with the induction of genes involved in transcriptional regulation and signal transduction and is followed, sequentially, by the regulation of genes involved in protein biosynthesis, cell proliferation, and epithelial cell differentiation. Furthermore, we have identified genes with common molecular functions that may drive fluid uptake, coordinated cell division, and remodeling of luminal epithelial cells. These data define the mechanism by which an estrogen induces organ growth and tissue maturation, and demonstrate that comparison of temporal changes in gene expression and conventional toxicology end points can facilitate the phenotypic anchoring of toxicogenomic data.

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Threshold for classification as a skin sensitizer in the local lymph node assay: a statistical evaluation

Basketter

Lea

Cooper

et al. 1999

Food and Chemical Toxicology

108

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Uterotrophic Activity of Bisphenol A in the Immature Mouse

Tinwell

Joiner

Pate

et al. 2000

Regulatory Toxicology and Pharmacology

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A comparison of statistical approaches to the derivation of EC3 values from local lymph node assay dose responses

et al. 1999

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Ian Pate

A comparison of statistical approaches to the derivation of EC3 values from local lymph node assay dose responses

Phenotypic Anchoring of Gene Expression Changes during Estrogen-Induced Uterine Growth

Threshold for classification as a skin sensitizer in the local lymph node assay: a statistical evaluation

Uterotrophic Activity of Bisphenol A in the Immature Mouse

A comparison of statistical approaches to the derivation of EC3 values from local lymph node assay dose responses

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