GnRH Signaling in Goldfish Pituitary Cells

Chang, John P.; Goor, Fredrick Van; Jobin, Richard M.; Lo, Angelina

doi:10.1159/000109176

Cited by 31 publications

(42 citation statements)

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“…Results from studies on the brain distribution of GnRH protein and mRNA also support the view that both peptides act as hypophysiotropic neurohormones in goldfish (reviewed in Yu et al 1998). The presence of GnRH receptors on both GTH-II and GH cells, the ability of sGnRH and cGnRH-II to stimulate GTH-II and GH release from pituitary cell preparations, as well as correlative changes in brain GnRH content during physiological modulations of serum GTH-II and GH levels, are consistent with a role of both sGnRH and cGnRH-II as neuroendocrine regulators of gonadotrope and somatotrope functions (reviewed in Chang et al 1996b;Peng and Peter 1997). It has been suggested that GTH-II and GH cells possess different GnRH receptors, or suites of receptors (reviewed in Chang et al 1996b;Illing et al 1999).…”

Section: Gnrh Peptides and Receptorsmentioning

confidence: 74%

“…The presence of GnRH receptors on both GTH-II and GH cells, the ability of sGnRH and cGnRH-II to stimulate GTH-II and GH release from pituitary cell preparations, as well as correlative changes in brain GnRH content during physiological modulations of serum GTH-II and GH levels, are consistent with a role of both sGnRH and cGnRH-II as neuroendocrine regulators of gonadotrope and somatotrope functions (reviewed in Chang et al 1996b;Peng and Peter 1997). It has been suggested that GTH-II and GH cells possess different GnRH receptors, or suites of receptors (reviewed in Chang et al 1996b;Illing et al 1999). Recently, cDNAs encoding two goldfish GnRH receptors have been cloned, and their presence in the pituitary confirmed (Yu et al 1998;Illing et al 1999).…”

Section: Gnrh Peptides and Receptorsmentioning

confidence: 83%

“…The long-term GTH-II response to cGnRH-II is more sensitive to (and often abolished by) the reduction of [Ca 2+ ] in the incubation medium and treatments with VSCC inhibitors, than that elicited by sGnRH (reviewed in Chang et al 1996b;1997). These results suggest that prolonged cGnRH-II-induced GTH-II release is more dependent on the availability of extracellular Ca 2+ .…”

Section: Gth-ii Releasementioning

confidence: 99%

“…Pharmacological studies indicate that prolonged sGnRH and cGnRH-II stimulation of GH secretion also involve extracellular Ca 2+ entry through VSCC present on identified goldfish somatotropes (reviewed in Chang et al , 1996bFig. 2).…”

Section: Gh Releasementioning

confidence: 99%

“…Emphasis is placed on more current developments in these areas since these topics were last reviewed Chang et al 1996bChang et al , 1997. Recent results on the signal transduction mechanisms mediating the effects of SRIF, NE, and PACAP on GH secretion are also presented and reviewed.…”

Section: Introductionmentioning

confidence: 99%

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Signal transduction mechanisms mediating secretion in goldfish gonadotropes and somatotropes

Chang

Johnson²,

Goor³

et al. 2000

Biochem. Cell Biol.

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The intracellular signal transduction mechanisms mediating maturational gonadotropin and somatotropin secretion in goldfish are reviewed. Several major signaling mechanisms, including changes in intracellular [Ca2+], arachidonic acid cascades, protein kinase C, cyclic AMP/protein kinase A, calmodulin, nitric oxide, and Na+/H+ antiport, are functional in both cell types. However, their relative importance in mediating basal secretion and neuroendocrine-factor-regulated hormone release differs according to cell type. Similarly, agonist- and cell-type-specificity are also present in the transduction pathways leading to neuroendocrine factor-modulated maturational gonadotropin and somatotropin release. Specificity is present not only in the actions of different regulators within the same cell type and with the same ligand in the two cell types, but this also exists between isoforms of the same neuroendocrine factor within a single cell type. Other evidence suggests that function-selectivity of signaling may also result from differential modulation of Ca2+ fluxes from different sources. The interaction of different second messenger systems provide the basis by which regulation of maturational gonadotropin and somatotropin release by multiple neuroendocrine factors can be integrated at the target cell level.

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Section: Gnrh Peptides and Receptorsmentioning

confidence: 74%

Section: Gnrh Peptides and Receptorsmentioning

confidence: 83%

Section: Gth-ii Releasementioning

confidence: 99%

Section: Gh Releasementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Signal transduction mechanisms mediating secretion in goldfish gonadotropes and somatotropes

Chang

Johnson²,

Goor³

et al. 2000

Biochem. Cell Biol.

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Thyroid hormone and reproduction: Regulation of estrogen receptors in goldfish gonads

et al. 2010

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There is increasing evidence that thyroid hormones influence reproduction in vertebrates. However, little information is available on the mechanisms by which this happens. As a first step in determining these mechanisms, we test the hypothesis that the estrogen receptor subtypes (ERalpha, ERbeta-1, and ERbeta-2) are regulated by the thyroid hormone, (T(3)), in the gonads of goldfish. All three subtypes were down-regulated by T(3) in the testis or ovary. We also found evidence that T(3) decreased pituitary gonadotropin expression and decreased transcript for gonadal aromatase. Collectively, it appears that T(3) acts to diminish estrogen signaling by (1) decreasing pituitary LH expression and thus steroidogenesis, (2) down-regulating gonadal aromatase expression and thus decreasing estrogen synthesis from androgens, and (3) decreasing sensitivity to estrogen by down-regulating the ER subtypes. Goldfish are seasonal breeders, spawning once a year, and thus have two distinct periods of growth: somatic and reproductive. Circulating thyroid hormone levels have been found to increase just after spawning. Therefore, we propose that this may be an endocrine mechanism that goldfish use to switch their energy expenditure from reproductive to growth efforts in the goldfish.

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Somatostatin Inhibition of Growth Hormone Release in Goldfish: Possible Targets of Intracellular Mechanisms of Action

Kwong

Chang

1997

General and Comparative Endocrinology

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GnRH Signaling in Goldfish Pituitary Cells

Cited by 31 publications

References 0 publications

Signal transduction mechanisms mediating secretion in goldfish gonadotropes and somatotropes

Signal transduction mechanisms mediating secretion in goldfish gonadotropes and somatotropes

Thyroid hormone and reproduction: Regulation of estrogen receptors in goldfish gonads

Somatostatin Inhibition of Growth Hormone Release in Goldfish: Possible Targets of Intracellular Mechanisms of Action

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