Progesterone suppresses tyrosine hydroxylase messenger ribonucleic acid levels in the arcuate nucleus on proestrus.

Arbogast, Lydia A.; Voogt, James L.

doi:10.1210/endo.135.1.7912184

Cited by 48 publications

(44 citation statements)

References 42 publications

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“…With molecular probes directed to specific genes, studied primarily in female rats, several of them have been revealed as upregulated by progesterone: these include neuropeptide Y receptor, 25 34 and tyrosine hydroxylase. 35,36 The manners in which these particular downstream genes contribute to reproductive behaviors will be exciting to explore.…”

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confidence: 99%

Hormonal symphony: steroid orchestration of gene modules for sociosexual behaviors

Mong

Pfaff

2004

Mol Psychiatry

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Genes induced by estrogens in the mammalian forebrain influence a variety of neural functions. Among them, reproductive behavior mechanisms are very well understood. Their functional genomics provide a theoretical paradigm for linking genes to neural circuits to behavior. We propose that estrogen-induced genes are organized in modules: Growth of hypothalamic neurons; Amplification of the estrogen effect by progesterone; Preparative behaviors; Permissive actions on sex behavior circuitry; and Synchronization of mating behavior with ovulation. These modules may represent mechanistic routes for CNS management of successful reproduction. Moreover, new microarray results add estrogen-dependent genes, including some expressed in glia, suggesting possible hormone-dependent neuronal/ glial coordination. Molecular Psychiatry (2004) 9, 550-556. doi:10.1038/sj.mp.4001493Keywords: sex; estrogen; gene; hypothalamus; lordosis; arousal; noradrenalin; acetylcholine; oxytocin; enkephalin; opioid; GnRH; LHRH; neurotrophic; anxiety Sexual behaviors are important for psychiatry. Not only hypersexual disorders but also concerns about lack of sexual desire are prominent, internationally, in the psychiatric landscape. Further, in some traditions of psychiatric theory, sexual problems are held to be at the root of apparently unrelated syndromes. Finally, biological thought has held that sexual affiliations provide the bauplan, the structural precedent, for a wide variety of other social relations, both normal or abnormal. Fortunately, the molecular analysis of stereotyped sexual behaviors has benefited greatly from several strategic advantages: Even in mammals, simple stimuli and responses permit neural net analysis. Steroid hormones acting through nuclear receptors which are transcription factors invoke regulated gene expression, for example, in hypothalamic neurons.1 In turn, these neurons control mating behavior circuits.Drawing hormone-regulated gene expression into the explanation of mammalian sex behavior has proceeded rapidly. Here we theoretically propose a gene network-really, a micronet-downstream of estrogen action in the forebrain responsible for courtship and lordosis behavior in females. Not a massive review of the literature or an original data report, this paper comprises an attempt to draw different transcriptional systems into a new theoretical formulation. These efforts to explain hormone-driven behaviors have benefited from Rosenfeld's example of genetic network control over pituitary gland development.2 Both direct and indirect causal routes are depicted below.Causal routes, downstream from genomic action; a modular system emergent The primary sex behavior of female quadrupeds, lordosis, depends on defined physical signals: cutaneous stimuli and estrogens þ progestins 1 (E þ P). The neural circuit has been worked out; estrogen-dependent transcription in ventromedial hypothalamic cells allows permissive signals to the midbrain central gray, thus enabling the rest of the circuit. In the absence of fear or anxiety-pro...

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confidence: 99%

Hormonal symphony: steroid orchestration of gene modules for sociosexual behaviors

Mong

Pfaff

2004

Mol Psychiatry

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“…25,39 This notion is further supported by the present results suggesting that the enhancement of short-term CAG in E after left Adx in PE is partly mediated by estrogen and progesterone-driven reduction of dopaminergic activity. In favour of this assumption are previous 32 and recent data showing that administration of estrogen to ovariectomized rats, followed by progesterone administration on the next day, decreases the dopaminergic activity in the intermediate lobe. 40 We may conclude that our present results in 4-day cycling rats indicate a profound difference of short-term IAG and CAG between PE and E. It is suggested that the expected rise in CRH, promoted by the rise of estradiol levels preceding left Adx in PE, favours the within 19-20 h significant IAG and CAG observed in E. Moreover, the expected rise in progesterone in the afternoon of PE contributes to the enhancement of CAG and IAG by reducing stress-associated dopaminergic activation.…”

Section: Discussionmentioning

confidence: 95%

“…This could be attributed, in part, to the suppression of TH mRNA levels by progesterone, as found in the arcuate nucleus in PE. 32 Recent evidence suggests that estradiol 17β may affect receptors in hypothalamic dopaminergic neurons by membrane initiated rapid signaling. 33 Thus, a possible suppressive role of estrogens through a rapid effect on dopaminergic activity cannot be excluded.…”

Section: Discussionmentioning

confidence: 99%

The impact of the hormonal milieu and stress-associated hypothalamic dopaminergic activation on the rapid compensatory adrenal growth in cycling female rats

Sfikakis¹,

Pitychoutis²,

Αντωνίου³

et al. 2008

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OBJECTIVE: We sought to investigate the impact of emotional and surgical stress applied in two hormonally different estrous-cycle phases as well as the hypothalamic dopaminergic involvement on the rapid compensatory adrenal growth (CAG) and the individual adrenal growth (IAG) in rats. DESIGN: After surgery for left and sham adrenalectomy (Adx) carried out on either diestrus-2 (DE-2) or proestrus (PE), CAG and IAG were evaluated in PE or estrus (E), respectively. Hypothalamic dopaminergic activity was also assessed by measuring dopamine (DA) and 3,4-dihydroxyphenylacetic acid (DOPAC) levels in DE-2, PE and E in controls and in PE and E in sham and left adrenalectomized rats. All groups experienced similar chronic emotional stress assessed by the emotional reactivity score recorded during vaginal screening. RESULTS: In controls, DOPAC levels in DE-2 were higher than in PE and E. In PE, following surgery in DE-2, DOPAC levels and DOPAC/DA ratio were increased compared to PE controls; CAG was not significant, while negative correlations of IAG and CAG with DOPAC/DA ratio were observed. In E, CAG and IAG were significant, while dopaminergic activity was not increased compared to E controls. CONCLUSIONS: The significant CAG and IAG following left Adx in PE but not in DE-2 suggest a pronounced positive impact of the hormonal milieu on this process. The profound attenuation of CAG and IAG in PE suggests a negative effect of stress-associated dopaminergic activation.

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“…These data suggest a stimulatory action on TH gene expression through the classical nuclear PR. The inhibitory effect of progesterone is observed on the afternoon of pro-oestrus, with the initial response of decreased TH phosphorylation state in the median eminence followed by decreased TH mRNA levels in the arcuate nucleus (8)(9)(10). The stimulatory effect of progesterone on TH content is not limited to the hypothalamic neurons, as progesterone increases TH content in the olfactory bulb (11).…”

Section: Introductionmentioning

confidence: 99%

“…(1,2). These neurons express oestradiol-inducible progesterone receptor (PR) and progesterone can have both stimulatory and inhibitory actions on their activity, resulting in altered prolactin secretion (3)(4)(5)(6)(7)(8). Progesterone treatment increases tyrosine hydroxylase (TH) mRNA levels in the arcuate nucleus of oestradiol-treated ovariectomized female rats and the progesterone receptor antagonist RU486 blocks this stimulatory effect of progesterone (7).…”

Section: Introductionmentioning

confidence: 99%

Differential and Interactive Effects of Ligand-Bound Progesterone Receptor A and B Isoforms on Tyrosine Hydroxylase Promoter Activity.

Jensik¹,

Arbogast²

2010

Posters I

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The classical progesterone receptors (PRs) are expressed in some hypothalamic dopaminergic and brainstem noradrenergic neurons. Progesterone influences prolactin and luteinising hormone release from the anterior pituitary gland, in part by regulating the activity of these catecholaminergic neurons. The aim of this study was to determine the effects of PRs on tyrosine hydroxylase (TH) promoter activity. When CAD, SK-N-SH and CV-1 cells were transfected with TH promoter constructs and PR-A or PR-B expression vectors, progesterone treatment caused three-to six-fold increases in TH-9.0kb promoter activity in PR-B expressing cells, but a modest increase or no change in PR-A expressing cells. Using CAD cells, deletional analysis mapped the site of PR action to the −1403 to −1304 bp region of the TH promoter. Mutational analysis of putative regulatory sequences in this region indicated multiple DNA elements are required for complete PR-B transactivation. Electrophoretic mobility shift assays were unable to demonstrate direct PR-B binding to TH promoter DNA sequences. However, chromatin immunoprecipitation (ChIP) analysis indicated PR-B was recruited to the TH promoter. Two different PR-B DNA binding domain mutants had opposite effects on PR-B mediated TH promoter activation. A GS to AA mutation located in the p-box of the first zinc finger of PR-B inhibited progesterone transactivation of the TH promoter, whereas a C to A mutation in the zinc finger increased transactivation. PR-A was able to inhibit PR-B transactivation in a dose-dependent manner, although the degree of PR-A inhibition was dependent on the TH promoter deletion construct. These data indicate that ligand-bound PR-B is recruited to DNA elements in the TH promoter and acts as a transcriptional activator of the TH gene and that changes in the ratio of PR-A to PR-B may affect the ability of progesterone to increase TH expression.

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Progesterone suppresses tyrosine hydroxylase messenger ribonucleic acid levels in the arcuate nucleus on proestrus.

Cited by 48 publications

References 42 publications

Hormonal symphony: steroid orchestration of gene modules for sociosexual behaviors

Hormonal symphony: steroid orchestration of gene modules for sociosexual behaviors

The impact of the hormonal milieu and stress-associated hypothalamic dopaminergic activation on the rapid compensatory adrenal growth in cycling female rats

Differential and Interactive Effects of Ligand-Bound Progesterone Receptor A and B Isoforms on Tyrosine Hydroxylase Promoter Activity.

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