Progesterone Treatment That either Blocks or Augments the Estradiol-Induced Gonadotropin-Releasing Hormone Surge Is Associated with Different Patterns of Hypothalamic Neural Activation

Richter, Trevor; Robinson, Jane E.; Evans, Neil P.

doi:10.1159/000054656

Cited by 25 publications

(29 citation statements)

References 54 publications

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“…P blocks the E 2 -induced LH surge at both the early follicular phase and the early luteal phase in rhesus monkeys with gonadal-axes intact (19). The mechanisms of action of P in its stimulatory and inhibitory effects on pituitary LH and FSH discharges are mediated by the interactions among E 2 , P, and the GnRH neurosecretory system (20,21). P administration timing was critical in determining whether it would stimulate or inhibit an ovulatory LH surge in animal studies of rhesus monkeys and ewes (20,22,23).…”

Section: Discussionmentioning

confidence: 99%

Medroxyprogesterone acetate is an effective oral alternative for preventing premature luteinizing hormone surges in women undergoing controlled ovarian hyperstimulation for in vitro fertilization

Kuang

Chen

et al. 2015

Fertility and Sterility

316

380

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Section: Discussionmentioning

confidence: 99%

Medroxyprogesterone acetate is an effective oral alternative for preventing premature luteinizing hormone surges in women undergoing controlled ovarian hyperstimulation for in vitro fertilization

Kuang

Chen

et al. 2015

Fertility and Sterility

316

380

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“…In addition, studies of the effects of progesterone on estradiolinduced expression of the protein product of the immediateearly gene, c-fos, which is believed to be involved in the regulation of transcription in several neuronal systems [38], also support this idea. For example, the increase in Fos expression in GnRH and non-GnRH cells that is normally observed when a GnRH surge is induced by estradiol, is absent from rats and ewes that have been treated with progesterone to prevent activation of the surge [39,40].…”

Section: Discussionmentioning

confidence: 99%

Progesterone Blocks the Estradiol-Stimulated Luteinizing Hormone Surge by Disrupting Activation in Response to a Stimulatory Estradiol Signal in the Ewe1

Richter

Robinson

Evans

2002

Biology of Reproduction

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The preovulatory surges of GnRH and LH are activated by increased concentrations of circulating estradiol, but ovulation is blocked when progesterone concentrations are elevated. Although it is has been shown that this action of progesterone is due to a central inhibition of the GnRH surge, the mechanisms that underlie the blockade of the GnRH surge are poorly understood. In this study we investigated whether progesterone can block the estradiol-dependent activation stage of the GnRH surge induction process, and thus prevent expression of the LH surge. The results demonstrated that exposure to progesterone for half or the full duration of the activation stage can prevent the stimulation of LH surges by estradiol (experiment 1), whereas exposure to progesterone midway though a period of estradiol exposure, which in itself is sufficient to activate the surge, did not block the LH surge (experiment 2). These results suggest that progesterone 1) disrupts activation of the surge induction system in response to a stimulatory estradiol signal and 2) does not compromise the ability of animals to respond to a stimulatory estradiol signal applied immediately after progesterone exposure. Because the disruptive effects of activated progesterone in response to estradiol are rapid but transient, it may be that progesterone directly interferes with the activation of estradiol-responsive neural systems to block the GnRH/LH surge.

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“…Investigations of the neural mechanisms through which oestradiol acts within the hypothalamus to regulate reproduction in the ewe has led to differentiation of the GnRH/LH surge‐induction process into three stages, the absolute durations of which vary between breeds of sheep (3–6): (i) ‘activation’ (during which oestradiol concentrations must be elevated) is the stage during which oestradiol‐receptive neurones within the anteromedial hypothalamus are activated; (ii) ‘transmission’ (oestradiol‐independent) is the stage during which the activational oestradiol signal is transmitted from oestradiol‐receptive cells to GnRH‐releasing neurones; and (iii) ‘surge’ (oestradiol‐independent) is the stage during which the release of GnRH peptide into the pituitary portal vasculature increases dramatically (6, 7),…”

mentioning

confidence: 99%

“…Oestradiol positive feedback, in the ewe, can be blocked by high circulating concentrations of progesterone (11), which normally occur during the luteal phase of the oestrous cycle. Investigations of the efficacy of progesterone to block the surge, relative to the three stages of the surge‐induction process outlined above, have demonstrated that progesterone can block the surge if it is administered either coincident with (6) or immediately after (4) the stimulatory oestradiol signal (i.e. during either the activation or transmission stages of the surge‐induction process).…”

mentioning

confidence: 99%

“…Previous work has demonstrated that the administration of progesterone at the same time as the surge‐inducing oestradiol signal prevents the activation of GnRH neurones, as well as non‐GnRH‐immunoreactive cells, within the hypothalamus at the time of the LH surge (6), but where within the brain progesterone acts to block the oestradiol‐induced GnRH/LH surge is unclear. As is the case for oestradiol, the actions of progesterone on GnRH secretion are likely indirect in the ewe, because ovine GnRH neurones do not express progesterone receptors (12).…”

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confidence: 99%

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Progesterone Can Block the Preovulatory Gonadotropin‐Releasing Hormone/Luteinising Hormone Surge in the Ewe by a Direct Inhibitory Action on Oestradiol‐Responsive Cells within the Hypothalamus

Richter

Robinson

Lozano

et al. 2005

J Neuroendocrinology

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Elevated oestradiol concentrations during the follicular phase stimulate a surge in gonadotropin-releasing hormone (GnRH) and luteinising hormone (LH) concentrations, which leads to ovulation. Progesterone can block the oestradiol-induced GnRH/LH surge, but the mechanism that is involved is unclear. We examined the effect of progesterone on oestradiol-induced activation of cells within the ovine hypothalamus/preoptic area (POA) to determine: (i) in which regions progesterone acts to block the GnRH/LH surge and (ii) whether progesterone directly or indirectly prevents activation of oestradiol-responsive cells. Cellular activation was assessed by measuring the number of cells that expressed Fos (an immediate early gene). Exposure to increased oestradiol concentrations in the absence of progesterone (which normally stimulates a LH surge) did not cause any region-specific changes in hypothalamic Fos expression during the activation stage of the LH surge-induction process (Experiment 1). The same treatment significantly increased cellular activation within the POA, lateral septum (LS), and arcuate nucleus at the time of surge onset (Experiment 2). Concurrent exposure to increased oestradiol and progesterone concentrations during the activation stage of the surge-induction process (which normally blocks the LH surge) was associated with significantly reduced cellular activation within the ventromedial hypothalamus and anterior hypothalamic area, relative to the positive controls (oestradiol increment alone) and arcuate nucleus relative to the negative controls (no increment in oestradiol) during the activation stage (Experiment 1). At the time of surge onset (Experiment 2), exposure to progesterone during the activation period prevented the oestradiol-induced increase in cellular activation that occurred in the POA, LS and arcuate nucleus of the positive controls. These results demonstrated that oestradiol and progesterone induced differential region- and time-specific effects on cellular activation within the regions of the ovine brain that generate the preovulatory GnRH/LH surge. Moreover, the lack of cellular activation within the POA, LS and arcuate nucleus at the time of surge onset in animals exposed to progesterone during the activation stage is consistent with the hypothesis that progesterone can block the preovulatory surge by direct inhibition of oestradiol-induced cellular activation in these areas.

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Progesterone Treatment That either Blocks or Augments the Estradiol-Induced Gonadotropin-Releasing Hormone Surge Is Associated with Different Patterns of Hypothalamic Neural Activation

Cited by 25 publications

References 54 publications

Medroxyprogesterone acetate is an effective oral alternative for preventing premature luteinizing hormone surges in women undergoing controlled ovarian hyperstimulation for in vitro fertilization

Medroxyprogesterone acetate is an effective oral alternative for preventing premature luteinizing hormone surges in women undergoing controlled ovarian hyperstimulation for in vitro fertilization

Progesterone Blocks the Estradiol-Stimulated Luteinizing Hormone Surge by Disrupting Activation in Response to a Stimulatory Estradiol Signal in the Ewe1

Progesterone Can Block the Preovulatory Gonadotropin‐Releasing Hormone/Luteinising Hormone Surge in the Ewe by a Direct Inhibitory Action on Oestradiol‐Responsive Cells within the Hypothalamus

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