Deinduction of transcription of Xenopus 74-kDa albumin genes and destabilization of mRNA by estrogen in vivo and in hepatocyte cultures

Wolffe, Alan P.; Glover, James F.; Martin, Stella C.; Tenniswood, Martin; Williams, J. L.; Tata, Jamshed R.

doi:10.1111/j.1432-1033.1985.tb08678.x

Cited by 57 publications

(20 citation statements)

References 53 publications

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“…Only E2 was able to modify Alb gene expression in trout, a large decrease in Alb mRNA level being observed after 5 days of treatment. Several studies performed in Xenopus (Wolffe et al 1985, Riegel et al 1986) and more recently in turtle (Selcer & Palmer 1995) showed a similar inhibition by E2 of Alb gene expression in oviparous liver. However, our results differ from those obtained in Xenopus with regard to the mechanisms involved in this inhibition.…”

Section: Albumin Gene Expression ·   and Others 359mentioning

confidence: 98%

“…Hybridization of the same RNA samples with a specific ER probe shows that regulation of ER gene expression by E2 occurs at both the transcriptional and post-transcriptional level, as previously demonstrated . Reduction of transcription of the Xenopus Alb gene has also been reported, but in this species the main mechanism involved in the downregulation of Alb gene expression is mRNA destabilization (Kazmaier et al 1985, Wolffe et al 1985, Riegel et al 1986, 1987. This Alb mRNA destabilization is mediated by a polysomal endoribonuclease which is under estrogenic control (Pastori et al 1991, Dompenciel et al 1995.…”

Section: Albumin Gene Expression ·   and Others 359mentioning

confidence: 99%

“…Although most examples concern E2 up-regulation, it is interesting to note that, in parallel, E2 downregulation occurs in the same organ. In Xenopus, several studies show that E2 is able to down-regulate the production of albumin (Alb), a serum protein synthesized in the liver (Wolffe et al 1985, Riegel et al 1986, Selcer & Palmer 1995. This downregulation in Xenopus is mediated by a decrease in gene transcriptional activity and destabilization of its mRNA.…”

Section: Introductionmentioning

confidence: 99%

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Transcriptional regulation of expression of the rainbow trout albumin gene by estrogen

Flouriot

Ducouret²,

Byrnes³

et al. 1998

Journal of Molecular Endocrinology

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Estrogens modulate the expression of many liverspecific genes in oviparous species. For instance, expression of the estrogen receptor and vitellogenin genes is strongly up-regulated by estradiol in rainbow trout liver. Using hepatocyte primary cultures, we demonstrate that trout albumin (Alb) gene is also regulated by this hormone. Indeed, treatment of hepatocytes with 1 µM estradiol led, after 24 h, to a dramatic decrease in Alb mRNA level. To investigate the mechanism of this down-regulation, run-off experiments were performed and mRNA half-lives were determined in the presence and absence of estradiol. The results show that the down-regulation of Alb mRNA expression by estrogens occurs only at the transcriptional level.

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Section: Albumin Gene Expression ·   and Others 359mentioning

confidence: 98%

Section: Albumin Gene Expression ·   and Others 359mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Transcriptional regulation of expression of the rainbow trout albumin gene by estrogen

Flouriot

Ducouret²,

Byrnes³

et al. 1998

Journal of Molecular Endocrinology

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“…Ligand-activated steroid hormone receptors may affect the steady state of mRNA levels by other mechanisms than alterations in transcriptional activity, for example stabilization and degradation of mRNA [33][34][35][36][37]. Steroid receptors may also be activated by ligand-independent phosphorylation [30,[38][39][40][41][42].…”

Section: Discussionmentioning

confidence: 99%

Expression of the Estrogen and Progesterone Receptors and Insulin-like Growth Factor-I Genes in the Porcine Myometrium during Early Pregnancy.

Sahlin¹,

Persson

Masironi³

et al. 1998

Journal of Reproduction and Development

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“…The broad spectrum of estrogen effects on mRNA stability in Xenopus liver provides a striking example of the specificity and flexibility of this type of control. In hepatocytes, estrogen elicits a 30-fold increase in the stability of vitellogenin mRNA (6) and decreases the stability of albumin mRNA by 3-fold (30,41) without affecting the 16-h half-life (at 25°C) of total poly(A) mRNA (6).…”

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confidence: 99%

Estradiol and estrogen receptor-dependent stabilization of a minivitellogenin mRNA lacking 5,100 nucleotides of coding sequence.

Nielsen

Shapiro

1990

Mol. Cell. Biol.

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We have developed a transfection assay to investigate the estrogen-mediated stabilization of cytoplasmic vitellogenin mRNA. A miniviteliogenin (MV5) gene containing the 5' and 3' untranslated and coding regions but lacking 5,075 nucleotides of internal coding sequence was constructed. Cotransfection of the MV5 plasmid and a Xenopus estrogen receptor expression plasmid into Xenopus liver tissue culture cells yielded a 529-nucleotide MV5 mRNA, which was specifically stabilized by estrogen. MV5 mRNA exhibited the increased stability indicative of positive regulation when the estradiol-estrogen receptor complex was present and was not destabilized by unliganded estrogen receptor. Transfected estrogen receptor, estradiol, and 529 nucleotides of the 5,604-nucleotide vitellogenin Bl mRNA were sufficient for stabilization.Our quantitative studies indicate that regulation of vitellogenin gene transcription and control of the cytoplasmic stability of vitellogenin mRNA, not changes in the efficiency of nuclear vitellogenin RNA processing, are responsible for the massive estrogen induction of the hepatic mRNA coding for the Xenopus laevis egg yolk precursor protein vitellogenin (2, 5, 6). In Xenopus liver fragment cultures, vitellogenin mRNA is essentially stable, with a half-life of 500 h when estrogen is present and 16 h at 25°C or 30 h at 20°C after removal of estrogen from the culture medium (6; J. E. Blume and D. J. Shapiro, Nucleic Acids Res., in press). Vitellogenin mRNA undergoing cytoplasmic degradation can be specifically restabilized by addition of estrogen to the culture medium (6), indicating that vitellogenin mRNA stabilization is a reversible cytoplasmic effect of estrogen. The broad spectrum of estrogen effects on mRNA stability in Xenopus liver provides a striking example of the specificity and flexibility of this type of control. In hepatocytes, estrogen elicits a 30-fold increase in the stability of vitellogenin mRNA (6) and decreases the stability of albumin mRNA by 3-fold (30, 41) without affecting the 16-h half-life (at 25°C) of total poly(A) mRNA (6).The mechanisms governing the degradation of the more than 20 eucaryotic mRNAs whose stability is known to be regulated are currently attracting considerable attention (reviewed in references 3, 29, 31, and 36). Although hormones have been shown to regulate the stability of several mRNAs, the absence of functional assays for steroid hormone control of mRNA degradation has greatly hindered studies, and the mechanisms controlling mRNA degradation in these systems remain largely unknown. In this work, we demonstrate that the estrogen-mediated stabilization of vitellogenin mRNA can be reproduced in a transfection system. Only the estrogen receptor, estradiol, and 529 nucleotides of the 5,604- A. M. Nardulli, T.-C. Chang, and D. J. Shapiro, submitted for publication), were grown at 20°C in 0.6x phenol red-free Higuchi medium containing 10% charcoal-dextran-treated (12) fetal bovine serum. DNA was transfected into cells by a modification of the calcium phosphate...

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Deinduction of transcription of Xenopus 74-kDa albumin genes and destabilization of mRNA by estrogen in vivo and in hepatocyte cultures

Cited by 57 publications

References 53 publications

Transcriptional regulation of expression of the rainbow trout albumin gene by estrogen

Transcriptional regulation of expression of the rainbow trout albumin gene by estrogen

Expression of the Estrogen and Progesterone Receptors and Insulin-like Growth Factor-I Genes in the Porcine Myometrium during Early Pregnancy.

Estradiol and estrogen receptor-dependent stabilization of a minivitellogenin mRNA lacking 5,100 nucleotides of coding sequence.

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