A computational model to predict rat ovarian steroid secretion from in vitro experiments with endocrine disruptors

A finely tuned balance between estrogens and androgens controls reproductive functions, and the last step of steroidogenesis plays a key role in maintaining that balance. Environmental toxicants are a serious health concern, and numerous studies have been devoted to studying the effects of endocrine...

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Bibliographic Details
Published in:PloS one 2013-01, Vol.8 (1), p.e53891
Main Authors: Quignot, Nadia, Bois, Frédéric Y
Format: Article
Language:English
Subjects:
17β-Estradiol
Androgens
Androgens - metabolism
Androgens - physiology
Androstenedione
Animal experimentation
Animals
Aromatase
Aromatase - metabolism
Atrazine
Bioengineering
Biology
Bisphenol A
Chemicals
Computer applications
Computer Science
Computer simulation
Cyprinidae
Dehydrogenases
Endocrine disruptors
Endocrine Disruptors - administration & dosage
Environmental Sciences
Enzymes
Estradiol
Estrogens
Estrogens - metabolism
Estrogens - physiology
Estrone
Estrus cycle
Female
Females
Functions (mathematics)
Gene expression
Gonadal Steroid Hormones - biosynthesis
Gonadal Steroid Hormones - metabolism
Gonadal Steroid Hormones - physiology
Granulosa cells
Herbicides
Life Sciences
Mathematical models
Metabolites
Methoxychlor
Models, Theoretical
mRNA
Ovary - drug effects
Ovary - metabolism
Phenols
Rats
Reproduction - physiology
RNA
Secretion
Sex
Sex hormones
Steroidogenesis
Steroids
Studies
Synthesis
Testosterone
Toxicants
Toxicity
Toxicology
Vinclozolin
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Summary:A finely tuned balance between estrogens and androgens controls reproductive functions, and the last step of steroidogenesis plays a key role in maintaining that balance. Environmental toxicants are a serious health concern, and numerous studies have been devoted to studying the effects of endocrine disrupting chemicals (EDCs). The effects of EDCs on steroidogenic enzymes may influence steroid secretion and thus lead to reproductive toxicity. To predict hormonal balance disruption on the basis of data on aromatase activity and mRNA level modulation obtained in vitro on granulosa cells, we developed a mathematical model for the last gonadal steps of the sex steroid synthesis pathway. The model can simulate the ovarian synthesis and secretion of estrone, estradiol, androstenedione, and testosterone, and their response to endocrine disruption. The model is able to predict ovarian sex steroid concentrations under normal estrous cycle in female rat, and ovarian estradiol concentrations in adult female rats exposed to atrazine, bisphenol A, metabolites of methoxychlor or vinclozolin, and letrozole.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0053891