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Title: Regulation and dysregulation of vitellogenin mRNA accumulation in daphnids (Daphnia magna).

Authors: Hannas, Bethany R; Wang, Ying H; Thomson, Susanne; Kwon, Gwijun; Li, Hong; Leblanc, Gerald A

Published In Aquat Toxicol, (2011 Jan 25)

Abstract: The induction of vitellogenin in oviparous vertebrates has become the gold standard biomarker of exposure to estrogenic chemicals in the environment. This biomarker of estrogen exposure also has been used in arthropods, however, little is known of the factors that regulate the expression of vitellogenin in these organisms. We investigated changes in accumulation of mRNA products of the vitellogenin gene Vtg2 in daphnids (Daphnia magna) exposed to a diverse array of chemicals. We further evaluated the involvement of hormonal factors in the regulation of vitellogenin expression that may be targets of xenobiotic chemicals. Expression of the Vtg2 gene was highly responsive to exposure to various chemicals with an expression range spanning approximately four orders of magnitude. Chemicals causing the greatest induction were piperonyl butoxide, chlordane, 4-nonylphenol, cadmium, and chloroform. Among these, only 4-nonylphenol is recognized to be estrogenic. Exposure to several chemicals also suppressed Vtg2 mRNA levels, as much as 100-fold. Suppressive chemicals included cyproterone acetate, acetone, triclosan, and atrazine. Exposure to the estrogens diethylstilbestrol and bisphenol A had little effect on vitellogenin mRNA levels further substantiating that these genes are not induced by estrogen exposure. Exposure to the potent ecdysteroids 20-hydroxyecdysone and ponasterone A revealed that Vtg2 was subject to strong suppressive control by these hormones. Vtg2 mRNA levels were not significantly affected from exposure to several juvenoid hormones. Results indicate that ecdysteroids are suppressors of vitellogenin gene expression and that vitellogenin mRNA levels can be elevated or suppressed in daphnids by xenobiotics that elicit antiecdysteroidal or ecdysteroidal activity, respectively. Importantly, daphnid Vtg2 is not elevated in response to estrogenic activity.

PubMed ID: 21216345 Exiting the NIEHS site

MeSH Terms: Animals; Cadmium/toxicity; Daphnia/drug effects; Daphnia/genetics; Daphnia/metabolism*; Ecdysteroids/toxicity; Ecdysterone/toxicity; Environmental Pollutants/toxicity*; Estrogens/toxicity; Gene Expression/drug effects; Heterocyclic Compounds/toxicity; Polycyclic Compounds/toxicity; RNA, Messenger/metabolism; Vitellogenins/genetics*; Vitellogenins/metabolism; Xenobiotics/toxicity*

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