Testosterone acts directly at the pituitary to regulate gonadotropin-releasing hormone-induced calcium signals in male rat gonadotropes

We have recently shown that castration alters GnRH-induced calcium (Ca2+) signaling in the gonadotropes of male rats. Instead of generating spike-plateau Ca2+ responses to high concentrations of GnRH (100 nM), the majority of gonadotropes from castrated rats have oscillatory Ca2+ responses, which ar...

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Veröffentlicht in:	Endocrinology (Philadelphia) 1997-08, Vol.138 (8), p.3314-3319
Hauptverfasser:	Tobin, V A, Millar, R P, Canny, B J
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Calcium - analysis Calcium - metabolism Calcium - physiology Cells, Cultured Cycloheximide - pharmacology Dose-Response Relationship, Drug Gonadotropin-Releasing Hormone - pharmacology Luteinizing Hormone - blood Male Orchiectomy Pituitary Gland, Anterior - cytology Pituitary Gland, Anterior - drug effects Pituitary Gland, Anterior - physiology Protein Synthesis Inhibitors - pharmacology Rats Rats, Sprague-Dawley Testosterone - pharmacology
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container_issue	8
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container_title	Endocrinology (Philadelphia)
container_volume	138
creator	Tobin, V A Millar, R P Canny, B J
description	We have recently shown that castration alters GnRH-induced calcium (Ca2+) signaling in the gonadotropes of male rats. Instead of generating spike-plateau Ca2+ responses to high concentrations of GnRH (100 nM), the majority of gonadotropes from castrated rats have oscillatory Ca2+ responses, which are generally only seen with low concentrations of GnRH in the gonadotropes of intact rats. This change in the nature of GnRH-induced Ca2+ responses is prevented by in vivo testosterone treatment. The aims of the present study were, therefore, to determine if testosterone acts directly at the pituitary or via the regulation of hypothalamic GnRH secretion. Accordingly, castrated male rats were treated with a GnRH antagonist to ablate the effects of increased GnRH secretion at the pituitary gland. GnRH antagonist treatment (10 microg/100 g BW, twice daily for 7 days from the time of castration) decreased the concentration of LH in the serum of castrated rats (0.4 +/- 0.1 ng/ml vs. 11.2 +/- 0.4 ng/ml in untreated castrated rats, mean +/- SEM) but had no effect on the proportion of gonadotropes having oscillatory Ca2+ responses to 100 nM GnRH when compared with untreated castrated rats (63% in antagonist-treated castrated rats vs. 70% in untreated castrated rats). The GnRH antagonist treatment did not, however, interfere with the ability of in vivo testosterone treatment (100 microg/100 g body weight/day) to decrease the proportion of gonadotropes having oscillatory Ca2+ responses to 100 nM GnRH (26% in testosterone-treated rats vs. 25% in testosterone and antagonist-treated rats). These findings indicate that testosterone acts directly at the pituitary, and not by altered GnRH secretion, to modulate GnRH-induced Ca2+ signals. To confirm this suggestion, cultured gonadotropes of castrated male rats were treated in vitro with 10 nM testosterone. Testosterone treatment for twelve, but not 4 h, restored the proportion of gonadotropes having oscillatory Ca2+ responses to that seen in gonadotropes from intact rats. The in vitro effects of testosterone over 12 h were prevented by concomitant treatment with the protein synthesis inhibitor cycloheximide (10 microM), which, when given alone, had no effect on GnRH-induced Ca2+ signals in cells from castrate male rats. Taken together, these findings suggest that testosterone has a direct genomic action at the pituitary to regulate GnRH-induced Ca2+ signals, via a process that involves new protein synthesis.
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Instead of generating spike-plateau Ca2+ responses to high concentrations of GnRH (100 nM), the majority of gonadotropes from castrated rats have oscillatory Ca2+ responses, which are generally only seen with low concentrations of GnRH in the gonadotropes of intact rats. This change in the nature of GnRH-induced Ca2+ responses is prevented by in vivo testosterone treatment. The aims of the present study were, therefore, to determine if testosterone acts directly at the pituitary or via the regulation of hypothalamic GnRH secretion. Accordingly, castrated male rats were treated with a GnRH antagonist to ablate the effects of increased GnRH secretion at the pituitary gland. GnRH antagonist treatment (10 microg/100 g BW, twice daily for 7 days from the time of castration) decreased the concentration of LH in the serum of castrated rats (0.4 +/- 0.1 ng/ml vs. 11.2 +/- 0.4 ng/ml in untreated castrated rats, mean +/- SEM) but had no effect on the proportion of gonadotropes having oscillatory Ca2+ responses to 100 nM GnRH when compared with untreated castrated rats (63% in antagonist-treated castrated rats vs. 70% in untreated castrated rats). The GnRH antagonist treatment did not, however, interfere with the ability of in vivo testosterone treatment (100 microg/100 g body weight/day) to decrease the proportion of gonadotropes having oscillatory Ca2+ responses to 100 nM GnRH (26% in testosterone-treated rats vs. 25% in testosterone and antagonist-treated rats). These findings indicate that testosterone acts directly at the pituitary, and not by altered GnRH secretion, to modulate GnRH-induced Ca2+ signals. To confirm this suggestion, cultured gonadotropes of castrated male rats were treated in vitro with 10 nM testosterone. Testosterone treatment for twelve, but not 4 h, restored the proportion of gonadotropes having oscillatory Ca2+ responses to that seen in gonadotropes from intact rats. The in vitro effects of testosterone over 12 h were prevented by concomitant treatment with the protein synthesis inhibitor cycloheximide (10 microM), which, when given alone, had no effect on GnRH-induced Ca2+ signals in cells from castrate male rats. 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Instead of generating spike-plateau Ca2+ responses to high concentrations of GnRH (100 nM), the majority of gonadotropes from castrated rats have oscillatory Ca2+ responses, which are generally only seen with low concentrations of GnRH in the gonadotropes of intact rats. This change in the nature of GnRH-induced Ca2+ responses is prevented by in vivo testosterone treatment. The aims of the present study were, therefore, to determine if testosterone acts directly at the pituitary or via the regulation of hypothalamic GnRH secretion. Accordingly, castrated male rats were treated with a GnRH antagonist to ablate the effects of increased GnRH secretion at the pituitary gland. GnRH antagonist treatment (10 microg/100 g BW, twice daily for 7 days from the time of castration) decreased the concentration of LH in the serum of castrated rats (0.4 +/- 0.1 ng/ml vs. 11.2 +/- 0.4 ng/ml in untreated castrated rats, mean +/- SEM) but had no effect on the proportion of gonadotropes having oscillatory Ca2+ responses to 100 nM GnRH when compared with untreated castrated rats (63% in antagonist-treated castrated rats vs. 70% in untreated castrated rats). The GnRH antagonist treatment did not, however, interfere with the ability of in vivo testosterone treatment (100 microg/100 g body weight/day) to decrease the proportion of gonadotropes having oscillatory Ca2+ responses to 100 nM GnRH (26% in testosterone-treated rats vs. 25% in testosterone and antagonist-treated rats). These findings indicate that testosterone acts directly at the pituitary, and not by altered GnRH secretion, to modulate GnRH-induced Ca2+ signals. To confirm this suggestion, cultured gonadotropes of castrated male rats were treated in vitro with 10 nM testosterone. Testosterone treatment for twelve, but not 4 h, restored the proportion of gonadotropes having oscillatory Ca2+ responses to that seen in gonadotropes from intact rats. The in vitro effects of testosterone over 12 h were prevented by concomitant treatment with the protein synthesis inhibitor cycloheximide (10 microM), which, when given alone, had no effect on GnRH-induced Ca2+ signals in cells from castrate male rats. Taken together, these findings suggest that testosterone has a direct genomic action at the pituitary to regulate GnRH-induced Ca2+ signals, via a process that involves new protein synthesis.</description><subject>Animals</subject><subject>Calcium - analysis</subject><subject>Calcium - metabolism</subject><subject>Calcium - physiology</subject><subject>Cells, Cultured</subject><subject>Cycloheximide - pharmacology</subject><subject>Dose-Response Relationship, Drug</subject><subject>Gonadotropin-Releasing Hormone - pharmacology</subject><subject>Luteinizing Hormone - blood</subject><subject>Male</subject><subject>Orchiectomy</subject><subject>Pituitary Gland, Anterior - cytology</subject><subject>Pituitary Gland, Anterior - drug effects</subject><subject>Pituitary Gland, Anterior - physiology</subject><subject>Protein Synthesis Inhibitors - pharmacology</subject><subject>Rats</subject><subject>Rats, Sprague-Dawley</subject><subject>Testosterone - pharmacology</subject><issn>0013-7227</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1997</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpFkDtPwzAcxD2ASimMjEie2BL8bJIRVbykSixljvz4JzVK7GA7Qz8BX5tIVGI6ne70k-4QuqOkpIySR_Al5XVZl5xTcYHWhFBeVIxVV-g6pa_FCiH4Cq0axmlV8zX6OUDKIWWIwQNWJidsXQSThxNWGecj4Mnl2WUVTzgHHKGfB5UB98ErG3IMk_NFhAFUcr7HxxDHhVQ4b2cDFhs1GDePOLneqyFh5_GoBsBxgf8jIN2gy27J4fasG_T58nzYvRX7j9f33dO-MIzRXMhaNlwQLbUkVaU48FoZQYjgmjWgt1oZqLeGSKgEtVbLrmNSMd4w3TWMWr5BD3_cKYbvedneji4ZGAblIcyprRoqmeRiKd6fi7MewbZTdOPyQXt-jv8CZYBxmw</recordid><startdate>199708</startdate><enddate>199708</enddate><creator>Tobin, V A</creator><creator>Millar, R P</creator><creator>Canny, B J</creator><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>7X8</scope></search><sort><creationdate>199708</creationdate><title>Testosterone acts directly at the pituitary to regulate gonadotropin-releasing hormone-induced calcium signals in male rat gonadotropes</title><author>Tobin, V A ; Millar, R P ; Canny, B J</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c221t-5859340b5b5077a3e38ac40043b29eb6bace86c05e741ddb5ff25a2392bf921d3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1997</creationdate><topic>Animals</topic><topic>Calcium - analysis</topic><topic>Calcium - metabolism</topic><topic>Calcium - physiology</topic><topic>Cells, Cultured</topic><topic>Cycloheximide - pharmacology</topic><topic>Dose-Response Relationship, Drug</topic><topic>Gonadotropin-Releasing Hormone - pharmacology</topic><topic>Luteinizing Hormone - blood</topic><topic>Male</topic><topic>Orchiectomy</topic><topic>Pituitary Gland, Anterior - cytology</topic><topic>Pituitary Gland, Anterior - drug effects</topic><topic>Pituitary Gland, Anterior - physiology</topic><topic>Protein Synthesis Inhibitors - pharmacology</topic><topic>Rats</topic><topic>Rats, Sprague-Dawley</topic><topic>Testosterone - pharmacology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Tobin, V A</creatorcontrib><creatorcontrib>Millar, R P</creatorcontrib><creatorcontrib>Canny, B J</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>MEDLINE - Academic</collection><jtitle>Endocrinology (Philadelphia)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Tobin, V A</au><au>Millar, R P</au><au>Canny, B J</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Testosterone acts directly at the pituitary to regulate gonadotropin-releasing hormone-induced calcium signals in male rat gonadotropes</atitle><jtitle>Endocrinology (Philadelphia)</jtitle><addtitle>Endocrinology</addtitle><date>1997-08</date><risdate>1997</risdate><volume>138</volume><issue>8</issue><spage>3314</spage><epage>3319</epage><pages>3314-3319</pages><issn>0013-7227</issn><abstract>We have recently shown that castration alters GnRH-induced calcium (Ca2+) signaling in the gonadotropes of male rats. Instead of generating spike-plateau Ca2+ responses to high concentrations of GnRH (100 nM), the majority of gonadotropes from castrated rats have oscillatory Ca2+ responses, which are generally only seen with low concentrations of GnRH in the gonadotropes of intact rats. This change in the nature of GnRH-induced Ca2+ responses is prevented by in vivo testosterone treatment. The aims of the present study were, therefore, to determine if testosterone acts directly at the pituitary or via the regulation of hypothalamic GnRH secretion. Accordingly, castrated male rats were treated with a GnRH antagonist to ablate the effects of increased GnRH secretion at the pituitary gland. GnRH antagonist treatment (10 microg/100 g BW, twice daily for 7 days from the time of castration) decreased the concentration of LH in the serum of castrated rats (0.4 +/- 0.1 ng/ml vs. 11.2 +/- 0.4 ng/ml in untreated castrated rats, mean +/- SEM) but had no effect on the proportion of gonadotropes having oscillatory Ca2+ responses to 100 nM GnRH when compared with untreated castrated rats (63% in antagonist-treated castrated rats vs. 70% in untreated castrated rats). The GnRH antagonist treatment did not, however, interfere with the ability of in vivo testosterone treatment (100 microg/100 g body weight/day) to decrease the proportion of gonadotropes having oscillatory Ca2+ responses to 100 nM GnRH (26% in testosterone-treated rats vs. 25% in testosterone and antagonist-treated rats). These findings indicate that testosterone acts directly at the pituitary, and not by altered GnRH secretion, to modulate GnRH-induced Ca2+ signals. To confirm this suggestion, cultured gonadotropes of castrated male rats were treated in vitro with 10 nM testosterone. Testosterone treatment for twelve, but not 4 h, restored the proportion of gonadotropes having oscillatory Ca2+ responses to that seen in gonadotropes from intact rats. The in vitro effects of testosterone over 12 h were prevented by concomitant treatment with the protein synthesis inhibitor cycloheximide (10 microM), which, when given alone, had no effect on GnRH-induced Ca2+ signals in cells from castrate male rats. Taken together, these findings suggest that testosterone has a direct genomic action at the pituitary to regulate GnRH-induced Ca2+ signals, via a process that involves new protein synthesis.</abstract><cop>United States</cop><pmid>9231783</pmid><doi>10.1210/en.138.8.3314</doi><tpages>6</tpages><oa>free_for_read</oa></addata></record>
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source	MEDLINE; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Oxford University Press Journals All Titles (1996-Current)
subjects	Animals Calcium - analysis Calcium - metabolism Calcium - physiology Cells, Cultured Cycloheximide - pharmacology Dose-Response Relationship, Drug Gonadotropin-Releasing Hormone - pharmacology Luteinizing Hormone - blood Male Orchiectomy Pituitary Gland, Anterior - cytology Pituitary Gland, Anterior - drug effects Pituitary Gland, Anterior - physiology Protein Synthesis Inhibitors - pharmacology Rats Rats, Sprague-Dawley Testosterone - pharmacology
title	Testosterone acts directly at the pituitary to regulate gonadotropin-releasing hormone-induced calcium signals in male rat gonadotropes
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