The Alpha-1-Adrenergic Neuronal System Is Involved in the Pulsatile Release of Luteinizing Hormone-Releasing Hormone in the Ovariectomized Female Rhesus Monkey

Gearing, Maria; Terasawa, Ei

doi:10.1159/000125744

Cited by 58 publications

(21 citation statements)

References 24 publications

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“…In such studies, inter-GnRH-pulse intervals of approximately 1 h have been described for juvenile ovariectomized monkeys . In adult ovariectomized monkeys, direct and indirect assessment of GnRH pulse frequency has yielded comparable estimates of this parameter, namely approximately 1 pulse/h (Dierschke et al 1970, Wilson et al 1984, Gearing & Terasawa 1991. Since the present indirect analysis of GnRH pulse frequency in the prepubertal animal employed a pituitary with a responsiveness similar to that in the adult, the lack of congruency between the results obtained by the two methods in the prepubertal state must therefore be related to the smaller GnRH signal at this stage of development.…”

Section: Discussionmentioning

confidence: 71%

Indirect assessment of pulsatile gonadotropin-releasing hormone release in agonadal prepubertal rhesus monkeys (Macaca mulatta)

Pohl

Plant

1999

Journal of Endocrinology

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The major purpose of this study was to characterize the open-loop frequency of pulsatile GnRH release in the female rhesus monkey at an age (15-20 months) when the prepubertal restraint on the hypothalamic-pituitary axis is maximally imposed. Additionally, evidence for pulsatile GnRH release in agonadal males of comparable age was also sought. Episodic LH secretion from the pituitary was used as an indirect index of GnRH discharges. In order to maximize the sensitivity of this in situ bioassay, the responsiveness of the pituitary gonadotrophs was usually first heightened by an i.v. intermittent infusion of the synthetic peptide. Monkeys (five females, three males) were castrated between 9 and 14 months of age, implanted with indwelling venous catheters, fitted with nylon jackets and housed in specialized cages that permitted remote access to the venous circulation with minimal restraint and without interruption of the light-darkness cycle. In females, LH secretion was generally assessed at 20-day intervals during alternate nighttime (1900-0200 h) and daytime (0700-1400 h) windows. In males, LH was assessed less frequently and only at night. The mean frequency of pulsatile LH release in agonadal prepubertal females was 4 pulses/7 h during the night and 2 pulses/7 h during the day. These findings indicate that, prior to puberty in the female monkey, the GnRH pulse generator operates at a relatively slow frequency and is subjected to diurnal modulation. In males, evidence for robust pulsatile GnRH release was not observed. The striking difference in activity of the GnRH pulse generator in agonadal prepubertal male and female monkeys reinforces the view that the ontogeny of the hypothalamic drive to the pituitary-gonadal axis in higher primates, including man, is sexually differentiated.

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Section: Discussionmentioning

confidence: 71%

Indirect assessment of pulsatile gonadotropin-releasing hormone release in agonadal prepubertal rhesus monkeys (Macaca mulatta)

Pohl

Plant

1999

Journal of Endocrinology

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“…In earlier reports, we and others (Ojeda et al, 1982;Gearing and Terasawa, 1991) postulated that NE stimulates PGE 2 by binding to ␣ 1 -adrenergic receptors located on LHRH neurons and that, consequently, PGE 2 was an intracellular messenger acting within the LHRH neuron itself. There are, however, several findings indicating the need to revise this concept.…”

Section: Abstract: Gonadal Steroids; Astrocytes; Hypothalamus; Neuromentioning

confidence: 88%

Estradiol Enhances Prostaglandin E₂Receptor Gene Expression in Luteinizing Hormone-Releasing Hormone (LHRH) Neurons and Facilitates the LHRH Response to PGE₂by Activating a Glia-to-Neuron Signaling Pathway

et al. 1997

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Prostaglandin E 2 (PGE 2 ) mediates the stimulatory effect of norepinephrine (NE) on the secretion of luteinizing hormonereleasing hormone (LHRH), the neuropeptide controlling reproductive function. In rodents, this facilitatory effect requires previous exposure to estradiol, suggesting that the steroid affects downstream components in the cascade that leads to PGE 2 -induced LHRH release. Because astroglia are the predominant cell type contacting LHRH-secreting nerve terminals, we investigated the involvement of hypothalamic astrocytes in the estradiol facilitation of PGE 2 -induced LHRH release. A subpopulation of LHRH neurons was found to express the mRNA encoding the PGE 2 receptor subtype EP1-R, which is coupled to calcium mobilization. The LHRH-producing cell line GT1-1 also contains EP1-R mRNA and, to a lesser extent, the three alternatively spliced forms of EP3-R mRNA (␣, ␤, and ␥) that encode receptors linked to inhibition and stimulation of cAMP formation. Hypothalamic astrocytes treated with estradiol produced a conditioned medium that when applied to GT1-1 cells resulted in a selective upregulation of EP1-R and EP3␥-R mRNAs. The conditioned medium also enhanced the LHRH response to EP1-R and EP3-R agonists and the cAMP response to EP3-R activation. Thus, one mechanism by which estradiol facilitates the effect of neurotransmitters acting via PGE 2 to stimulate LHRH release is by enhancing the glial production of substances that upregulate PGE 2 receptors on LHRH neurons. The existence of such a mechanism underscores the emerging importance of glial-neuronal communication in the control of brain neurosecretory activity.

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“…The receptor-mediated actions of GnRH on the neuronal network of GnRH cells (6,7), with decreases in the frequency and increases in the amplitude of GnRH pulses, lead to switching of the pattern of neuropeptide secretion from the basal pulsatile mode to one of episodic secretion and surge-like release as observed during the preovulatory period (34). Several other neuropeptides are known to modulate the activity of the GnRH pulse generator and may participate in the control of the preovulatory GnRH surge (8)(9)(10)(11)(12)(13)(14)(15)(16). There is also abundant evidence that estrogen promotes the development of the midcycle luteinizing hormone surge (35)(36)(37).…”

Section: Discussionmentioning

confidence: 99%

“…Recently, pulsatile neuropeptide secretion was found to be an intrinsic property of GnRH neuronal networks and to depend on voltage-sensitive Ca2+ influx for its maintenance (4-7). The activity of the GnRH pulse generator is influenced by several factors, including endothelin, N-methyl-D-aspartate, opiates, -aminobutyrate, and a-adrenergic input, as well as estrogens and androgens (8)(9)(10)(11)(12)(13)(14)(15)(16)). In addition, GnRH has been proposed to exert an inhibitory action on its own secretion (17-19); however, the mechanism and circuitry of such an ultrashort loop feedback effect have not yet been defined.…”

Section: Introductionmentioning

confidence: 99%

Expression of gonadotropin-releasing hormone receptors and autocrine regulation of neuropeptide release in immortalized hypothalamic neurons.

Krsmanović

Stojilković

Mertz

et al. 1993

Proc. Natl. Acad. Sci. U.S.A.

135

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The hypothalamic control of gonadotropin secretion is mediated by episodic basal secretion and midcycle ovulatory surges of gonadotropin-releasing hormone (GnRH), which interacts with specific plasma membrane receptors in pituitary gonadotrophs. Similar GnRH receptors and their mRNA transcripts were found to be expressed in immortalized hypothalamic neurons, which release GnRH in a pulsatile manner in vitro. Activation of these neuronal GnRH receptors elicited dose-related intraceDlular Ca2+ concentration responses that were dependent on calcium mobilization and entry and were inhibited by GnRH antagonists. Exposure of perifused neurons to a GnRH agonist analog caused a transient elevation of GnRH release and subsequent suppression of the basal pulsatile secretion. This was followed by dose-dependent induction of less frequent but larger GnRH pulses and ultimately by single massive episodes of GnRH release. The ability of GnRH to exert autocrine actions on its secretory neurons, and to promote episodic release and synchronized discharge ofthe neuropeptide, could reflect the operation of the endogenous pulse generator and the genesis of the preovulatory GnRH surge in vivo.The major regulator of reproduction in mammals, gonadotropin-releasing hormone (GnRH), is produced by neuronal cells located in the preoptic area and adjacent sites in the rostral portion of the hypothalamus and secreted into the hypophyseal portal vessels at the median eminence (1, 2). The secretion of GnRH occurs in an episodic manner due to the activity of a hypothalamic GnRH pulse generator (3). Recently, pulsatile neuropeptide secretion was found to be an intrinsic property of GnRH neuronal networks and to depend on voltage-sensitive Ca2+ influx for its maintenance (4-7). The activity of the GnRH pulse generator is influenced by several factors, including endothelin, N-methyl-D-aspartate, opiates, -aminobutyrate, and a-adrenergic input, as well as estrogens and androgens (8)(9)(10)(11)(12)(13)(14)(15)(16)). In addition, GnRH has been proposed to exert an inhibitory action on its own secretion (17-19); however, the mechanism and circuitry of such an ultrashort loop feedback effect have not yet been defined. We now report that GnRH acts directly on immortalized GnRH neuronal cells to regulate its own secretion and that this autocrine action of the neuropeptide is associated with activation of calcium-mobilizing GnRH receptors expressed in its cells of origin. MATERIALS AND METHODSBinding Studies. Plasma membrane receptors for GnRH were analyzed by binding studies with 125I-labeled des- Glyl0[D-Ala6]GnRH N-ethylamide (Hazleton LaboratoriesAmerica, Vienna, VA). The radioligand (150 pM) and nonradioactive peptides were added in 100-,ul aliquots to monolayers of GT1-7 cells (generously provided by Richard Weiner, University of California, San Francisco) cultured in 12-well Falcon plates at 24°C. After incubation to equilibrium for 90 min at room temperature, the cells were washed three times with ice-cold phosphate-buffered saline/0.1% bo...

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The Alpha-1-Adrenergic Neuronal System Is Involved in the Pulsatile Release of Luteinizing Hormone-Releasing Hormone in the Ovariectomized Female Rhesus Monkey

Cited by 58 publications

References 24 publications

Indirect assessment of pulsatile gonadotropin-releasing hormone release in agonadal prepubertal rhesus monkeys (Macaca mulatta)

Indirect assessment of pulsatile gonadotropin-releasing hormone release in agonadal prepubertal rhesus monkeys (Macaca mulatta)

Estradiol Enhances Prostaglandin E₂Receptor Gene Expression in Luteinizing Hormone-Releasing Hormone (LHRH) Neurons and Facilitates the LHRH Response to PGE₂by Activating a Glia-to-Neuron Signaling Pathway

Expression of gonadotropin-releasing hormone receptors and autocrine regulation of neuropeptide release in immortalized hypothalamic neurons.

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The Alpha-1-Adrenergic Neuronal System Is Involved in the Pulsatile Release of Luteinizing Hormone-Releasing Hormone in the Ovariectomized Female Rhesus Monkey

Cited by 58 publications

References 24 publications

Indirect assessment of pulsatile gonadotropin-releasing hormone release in agonadal prepubertal rhesus monkeys (Macaca mulatta)

Indirect assessment of pulsatile gonadotropin-releasing hormone release in agonadal prepubertal rhesus monkeys (Macaca mulatta)

Estradiol Enhances Prostaglandin E2Receptor Gene Expression in Luteinizing Hormone-Releasing Hormone (LHRH) Neurons and Facilitates the LHRH Response to PGE2by Activating a Glia-to-Neuron Signaling Pathway

Expression of gonadotropin-releasing hormone receptors and autocrine regulation of neuropeptide release in immortalized hypothalamic neurons.

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Resources

About

Estradiol Enhances Prostaglandin E₂Receptor Gene Expression in Luteinizing Hormone-Releasing Hormone (LHRH) Neurons and Facilitates the LHRH Response to PGE₂by Activating a Glia-to-Neuron Signaling Pathway