The bi-modal effects of estradiol on gonadotropin synthesis and secretion in female mice are dependent on estrogen receptor-α
Depending on the estrous/menstrual cycle stage in females, ovarian-derived estradiol (E2) exerts either a negative or a positive effect on the hypothalamic–pituitary axis to regulate the synthesis and secretion of pituitary gonadotropins, LH, and FSH. To study the role of estrogen receptor-α (ERα) m...
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| Published in | Journal of endocrinology Vol. 191; no. 1; pp. 309 - 317 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Colchester
BioScientifica
01.10.2006
Portland Press |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Depending on the estrous/menstrual cycle stage in females, ovarian-derived estradiol (E2) exerts either a negative or a positive effect on the hypothalamic–pituitary axis to regulate the synthesis and secretion of pituitary gonadotropins, LH, and FSH. To study the role of estrogen receptor-α (ERα) mediating these effects, we assessed the relevant parameters in adult wild-type (WT) and ERα-null (αERKO) female mice in vivo and in primary pituitary cell cultures. The αERKO mice exhibited significantly higher plasma and pituitary LH levels relative to WT females despite possessing markedly high levels of circulating E2. In contrast, hypothalamic GnRH content and circulating FSH levels were comparable between genotypes. Ovariectomy led to increased plasma LH in WT females but no further increase in αERKO females, while plasma FSH levels increased in both genotypes. E2 treatment suppressed the high plasma LH and pituitary Lhb mRNA expression in ovariectomized WT females but had no effect in αERKO. In contrast, E2 treatments only partially suppressed plasma FSH in ovariectomized WT females, but this too was lacking in αERKO females. Therefore, negative feedback on FSH is partially E2/ERα mediated but more dependent on ovarian-derived inhibin, which was increased threefold above normal in αERKO females. Together, these data indicate that E2-mediated negative feedback is dependent on functional ERα and acts to primarily regulate LH synthesis and secretion. Studies in primary cultures of pituitary cells from WT females revealed that E2 did not suppress basal or GnRH-induced LH secretion but instead enhanced the latter response, indicating that the positive influence of E2 on gonadotropin secretion may occur at the level of the pituitary. Once again this effect was lacking in αERKO gonadotropes in culture. These data indicate that the aspects of negative and positive effects of E2 on gonadotropin secretion are ERα dependent and occur at the level of the hypothalamus and pituitary respectively. |
|---|---|
| AbstractList | Depending on the estrous/menstrual cycle stage in females, ovarian-derived estradiol (E
2
) exerts either a negative or a positive effect on the hypothalamic–pituitary axis to regulate the synthesis and secretion of pituitary gonadotropins, LH, and FSH. To study the role of estrogen receptor-α (ERα) mediating these effects, we assessed the relevant parameters in adult wild-type (WT) and ERα-null (αERKO) female mice
in vivo
and in primary pituitary cell cultures. The αERKO mice exhibited significantly higher plasma and pituitary LH levels relative to WT females despite possessing markedly high levels of circulating E
2
. In contrast, hypothalamic GnRH content and circulating FSH levels were comparable between genotypes. Ovariectomy led to increased plasma LH in WT females but no further increase in αERKO females, while plasma FSH levels increased in both genotypes. E
2
treatment suppressed the high plasma LH and pituitary
Lhb
mRNA expression in ovariectomized WT females but had no effect in αERKO. In contrast, E
2
treatments only partially suppressed plasma FSH in ovariectomized WT females, but this too was lacking in αERKO females. Therefore, negative feedback on FSH is partially E
2
/ERα mediated but more dependent on ovarian-derived inhibin, which was increased threefold above normal in αERKO females. Together, these data indicate that E
2
-mediated negative feedback is dependent on functional ERα and acts to primarily regulate LH synthesis and secretion. Studies in primary cultures of pituitary cells from WT females revealed that E
2
did not suppress basal or GnRH-induced LH secretion but instead enhanced the latter response, indicating that the positive influence of E
2
on gonadotropin secretion may occur at the level of the pituitary. Once again this effect was lacking in αERKO gonadotropes in culture. These data indicate that the aspects of negative and positive effects of E
2
on gonadotropin secretion are ERα dependent and occur at the level of the hypothalamus and pituitary respectively. Depending on the estrous/menstrual cycle stage in females, ovarian-derived estradiol (E(2)) exerts either a negative or a positive effect on the hypothalamic-pituitary axis to regulate the synthesis and secretion of pituitary gonadotropins, LH, and FSH. To study the role of estrogen receptor-alpha (ERalpha) mediating these effects, we assessed the relevant parameters in adult wild-type (WT) and ERalpha-null (alphaERKO) female mice in vivo and in primary pituitary cell cultures. The alphaERKO mice exhibited significantly higher plasma and pituitary LH levels relative to WT females despite possessing markedly high levels of circulating E(2). In contrast, hypothalamic GnRH content and circulating FSH levels were comparable between genotypes. Ovariectomy led to increased plasma LH in WT females but no further increase in alphaERKO females, while plasma FSH levels increased in both genotypes. E(2) treatment suppressed the high plasma LH and pituitary Lhb mRNA expression in ovariectomized WT females but had no effect in alphaERKO. In contrast, E(2) treatments only partially suppressed plasma FSH in ovariectomized WT females, but this too was lacking in alphaERKO females. Therefore, negative feedback on FSH is partially E(2)/ERalpha mediated but more dependent on ovarian-derived inhibin, which was increased threefold above normal in alphaERKO females. Together, these data indicate that E(2)-mediated negative feedback is dependent on functional ERalpha and acts to primarily regulate LH synthesis and secretion. Studies in primary cultures of pituitary cells from WT females revealed that E(2) did not suppress basal or GnRH-induced LH secretion but instead enhanced the latter response, indicating that the positive influence of E(2) on gonadotropin secretion may occur at the level of the pituitary. Once again this effect was lacking in alphaERKO gonadotropes in culture. These data indicate that the aspects of negative and positive effects of E(2) on gonadotropin secretion are ERalpha dependent and occur at the level of the hypothalamus and pituitary respectively. Depending on the estrous/menstrual cycle stage in females, ovarian-derived estradiol (E 2 ) exerts either a negative or a positive effect on the hypothalamic–pituitary axis to regulate the synthesis and secretion of pituitary gonadotropins, LH, and FSH. To study the role of estrogen receptor-α (ERα) mediating these effects, we assessed the relevant parameters in adult wild-type (WT) and ERα-null (αERKO) female mice in vivo and in primary pituitary cell cultures. The αERKO mice exhibited significantly higher plasma and pituitary LH levels relative to WT females despite possessing markedly high levels of circulating E 2 . In contrast, hypothalamic GnRH content and circulating FSH levels were comparable between genotypes. Ovariectomy led to increased plasma LH in WT females but no further increase in αERKO females, while plasma FSH levels increased in both genotypes. E 2 treatment suppressed the high plasma LH and pituitary Lhb mRNA expression in ovariectomized WT females but had no effect in αERKO. In contrast, E 2 treatments only partially suppressed plasma FSH in ovariectomized WT females, but this too was lacking in αERKO females. Therefore, negative feedback on FSH is partially E 2 /ERα mediated but more dependent on ovarian-derived inhibin, which was increased threefold above normal in αERKO females. Together, these data indicate that E 2 -mediated negative feedback is dependent on functional ERα and acts to primarily regulate LH synthesis and secretion. Studies in primary cultures of pituitary cells from WT females revealed that E 2 did not suppress basal or GnRH-induced LH secretion but instead enhanced the latter response, indicating that the positive influence of E 2 on gonadotropin secretion may occur at the level of the pituitary. Once again this effect was lacking in αERKO gonadotropes in culture. These data indicate that the aspects of negative and positive effects of E 2 on gonadotropin secretion are ERα dependent and occur at the level of the hypothalamus and pituitary respectively. Depending on the estrous/menstrual cycle stage in females, ovarian-derived estradiol (E sub(2)) exerts either a negative or a positive effect on the hypothalamic-pituitary axis to regulate the synthesis and secretion of pituitary gonadotropins, LH, and FSH. To study the role of estrogen receptor- alpha (ER alpha ) mediating these effects, we assessed the relevant parameters in adult wild-type (WT) and ER alpha -null ( alpha ERKO) female mice in vivo and in primary pituitary cell cultures. The alpha ERKO mice exhibited significantly higher plasma and pituitary LH levels relative to WT females despite possessing markedly high levels of circulating E sub(2). In contrast, hypothalamic GnRH content and circulating FSH levels were comparable between genotypes. Ovariectomy led to increased plasma LH in WT females but no further increase in alpha ERKO females, while plasma FSH levels increased in both genotypes. E sub(2) treatment suppressed the high plasma LH and pituitary Lhb mRNA expression in ovariectomized WT females but had no effect in alpha ERKO. In contrast, E sub(2) treatments only partially suppressed plasma FSH in ovariectomized WT females, but this too was lacking in alpha ERKO females. Therefore, negative feedback on FSH is partially E sub(2)/ER alpha mediated but more dependent on ovarian-derived inhibin, which was increased threefold above normal in alpha ERKO females. Together, these data indicate that E sub(2)-mediated negative feedback is dependent on functional ER alpha and acts to primarily regulate LH synthesis and secretion. Studies in primary cultures of pituitary cells from WT females revealed that E sub(2) did not suppress basal or GnRH-induced LH secretion but instead enhanced the latter response, indicating that the positive influence of E sub(2) on gonadotropin secretion may occur at the level of the pituitary. Once again this effect was lacking in alpha ERKO gonadotropes in culture. These data indicate that the aspects of negative and positive effects of E sub(2) on gonadotropin secretion are ER alpha dependent and occur at the level of the hypothalamus and pituitary respectively. Depending on the estrous/menstrual cycle stage in females, ovarian-derived estradiol (E2) exerts either a negative or a positive effect on the hypothalamic–pituitary axis to regulate the synthesis and secretion of pituitary gonadotropins, LH, and FSH. To study the role of estrogen receptor-α (ERα) mediating these effects, we assessed the relevant parameters in adult wild-type (WT) and ERα-null (αERKO) female mice in vivo and in primary pituitary cell cultures. The αERKO mice exhibited significantly higher plasma and pituitary LH levels relative to WT females despite possessing markedly high levels of circulating E2. In contrast, hypothalamic GnRH content and circulating FSH levels were comparable between genotypes. Ovariectomy led to increased plasma LH in WT females but no further increase in αERKO females, while plasma FSH levels increased in both genotypes. E2 treatment suppressed the high plasma LH and pituitary Lhb mRNA expression in ovariectomized WT females but had no effect in αERKO. In contrast, E2 treatments only partially suppressed plasma FSH in ovariectomized WT females, but this too was lacking in αERKO females. Therefore, negative feedback on FSH is partially E2/ERα mediated but more dependent on ovarian-derived inhibin, which was increased threefold above normal in αERKO females. Together, these data indicate that E2-mediated negative feedback is dependent on functional ERα and acts to primarily regulate LH synthesis and secretion. Studies in primary cultures of pituitary cells from WT females revealed that E2 did not suppress basal or GnRH-induced LH secretion but instead enhanced the latter response, indicating that the positive influence of E2 on gonadotropin secretion may occur at the level of the pituitary. Once again this effect was lacking in αERKO gonadotropes in culture. These data indicate that the aspects of negative and positive effects of E2 on gonadotropin secretion are ERα dependent and occur at the level of the hypothalamus and pituitary respectively. |
| Author | Yates, Mariana M Couse, John F Korach, Kenneth S Lindzey, Jonathan Jayes, Friederike L |
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| Snippet | Depending on the estrous/menstrual cycle stage in females, ovarian-derived estradiol (E2) exerts either a negative or a positive effect on the... Depending on the estrous/menstrual cycle stage in females, ovarian-derived estradiol (E 2 ) exerts either a negative or a positive effect on the... Depending on the estrous/menstrual cycle stage in females, ovarian-derived estradiol (E(2)) exerts either a negative or a positive effect on the... Depending on the estrous/menstrual cycle stage in females, ovarian-derived estradiol (E 2 ) exerts either a negative or a positive effect on the... Depending on the estrous/menstrual cycle stage in females, ovarian-derived estradiol (E sub(2)) exerts either a negative or a positive effect on the... |
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| SubjectTerms | Animals Biological and medical sciences Blotting, Northern - methods Cells, Cultured Estradiol - pharmacology Estrogen Receptor alpha - genetics Estrogen Receptor alpha - metabolism Estrogen Receptor beta - metabolism Female Follicle Stimulating Hormone - biosynthesis Follicle Stimulating Hormone - secretion Fundamental and applied biological sciences. Psychology Gonadotropin-Releasing Hormone - pharmacology Gonadotropins, Pituitary - biosynthesis Gonadotropins, Pituitary - secretion Hormone metabolism and regulation Hypothalamus - metabolism Luteinizing Hormone - biosynthesis Luteinizing Hormone - genetics Luteinizing Hormone - secretion Luteinizing Hormone, beta Subunit - genetics Mammalian female genital system Mice Mice, Inbred C57BL Mice, Knockout Ovariectomy Pituitary Gland - chemistry Pituitary Gland - metabolism Regular papers Reverse Transcriptase Polymerase Chain Reaction Vertebrates: reproduction |
| Title | The bi-modal effects of estradiol on gonadotropin synthesis and secretion in female mice are dependent on estrogen receptor-α |
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