Expression of estrogen receptor-α and c-Fos in adrenergic neurons of the female rat during the steroid-induced LH surge

The cerebral vasculature is an important target tissue for estrogen, as evidenced by significant effects of estrogen on vascular reactivity and protein levels of endothelial nitric oxide synthase and prostacyclin synthase. However, the presence, localization, and regulation of estrogen receptors in the cerebral vasculature have not been investigated. In this study, we identified the presence of estrogen receptor-α (ER-α) in female rat cerebral blood vessels and localized this receptor to both smooth muscle and endothelial cells by use of immunohistochemistry and confocal microscopy. With immunoblot analysis, multiple forms of ER-α were detected at 110, 93, 82, 50, and 45 kDa in addition to a relatively weak band corresponding to the 66-kDa putative unmodified receptor. The 82-kDa band was identified as Ser118-phosphorylated ER-α, whereas the 50-kDa band lacks the normal NH2 terminus, suggestive of an ER-α splice variant. Lower molecular mass bands persisted after in vivo inhibition of 26S proteasome activity with lactacystin, whereas the 110- and 93-kDa bands increased. All forms of ER-α in cerebral vessels were decreased after ovariectomy but significantly increased after chronic estrogen exposure in vivo.

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In vivo analysis of cardiac cell death with age and estrogen deficiency in the female rat: protective effects of acute estrogen receptor‐α activation

The FASEB Journal ◽

10.1096/fasebj.25.1_supplement.1060.5 ◽

2011 ◽

Vol 25 (S1) ◽

Author(s):

Stephanie V. Eldred ◽

Richard W. Ball ◽

J. Craig Hunter ◽

Donna H. Korzick

Keyword(s):

Cell Death ◽

Estrogen Receptor ◽

Estrogen Receptor Α ◽

Estrogen Deficiency ◽

Female Rat ◽

Protective Effects ◽

Cardiac Cell ◽

In Vivo Analysis

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Demonstration of estrogen receptor α protein in glutamatergic (vesicular glutamate transporter 2 immunoreactive) neurons of the female rat hypothalamus and amygdala using double-label immunocytochemistry

Experimental Brain Research ◽

10.1007/s00221-013-3474-8 ◽

2013 ◽

Vol 226 (4) ◽

pp. 595-602 ◽

Cited By ~ 6

Author(s):

József Kiss ◽

Zsolt Csaba ◽

Ágnes Csáki ◽

Béla Halász

Keyword(s):

Estrogen Receptor ◽

Glutamate Transporter ◽

Estrogen Receptor Α ◽

Female Rat ◽

Vesicular Glutamate Transporter ◽

Rat Hypothalamus ◽

Double Label

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Estrogen receptor-α and -β coexist in a subpopulation of sensory neurons of female rat dorsal root ganglia

Neuroscience Letters ◽

10.1016/s0304-3940(01)02562-9 ◽

2002 ◽

Vol 319 (2) ◽

pp. 71-74 ◽

Cited By ~ 54

Author(s):

Raymond E. Papka ◽

Megan Storey-Workley

Keyword(s):

Estrogen Receptor ◽

Sensory Neurons ◽

Dorsal Root Ganglia ◽

Dorsal Root ◽

Estrogen Receptor Α ◽

Female Rat

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Estradiol Dose-Dependent Regulation of Membrane Estrogen Receptor-α, Metabotropic Glutamate Receptor-1a, and Their Complexes in the Arcuate Nucleus of the Hypothalamus in Female Rats

Endocrinology ◽

10.1210/en.2013-1235 ◽

2013 ◽

Vol 154 (9) ◽

pp. 3251-3260 ◽

Cited By ~ 19

Author(s):

Matthew Mahavongtrakul ◽

Martha P. Kanjiya ◽

Maribel Maciel ◽

Shrey Kanjiya ◽

Kevin Sinchak

Keyword(s):

Estrogen Receptor ◽

Glutamate Receptor ◽

Arcuate Nucleus ◽

Metabotropic Glutamate Receptor ◽

Estradiol Benzoate ◽

Estrogen Receptor Α ◽

Female Rats ◽

Female Rat ◽

Metabotropic Glutamate ◽

Dose Dependent

Sexual receptivity in the female rat is dependent on dose and duration of estradiol exposure. A 2 μg dose of estradiol benzoate (EB) primes reproductive behavior circuits without facilitating lordosis. However, 50 μg EB facilitates lordosis after 48 hours. Both EB doses activate membrane estrogen receptor-α (mERα) that complexes with and signals through metabotropic glutamate receptor-1a (mGluR1a). This mERα-mGluR1a signaling activates a multisynaptic lordosis-inhibiting circuit in the arcuate nucleus (ARH) that releases β-endorphin in the medial preoptic nucleus (MPN), activating μ-opioid receptors (MOP). MPN MOP activation is maintained, inhibiting lordosis for 48 hours by 2 μg EB, whereas 50 μg EB at 48 hours deactivates MPN MOP, facilitating lordosis. We hypothesized that 50 μg EB down-regulates ERα and mERα-mGluR1a complexes in the ARH to remove mERα-mGluR1a signaling. In experiment I, 48 hours after 2 μg or 50 μg EB, the number of ARH ERα-immunopositive cells was reduced compared with controls. In experiment II, compared with oil controls, total ARH ERα protein was decreased 48 hours after 50 μg EB, but the 2 μg dose was not. These results indicate that both EB doses reduced the total number of cells expressing ERα, but 2 μg EB may have maintained or increased ERα expressed per cell, whereas 50 μg EB appeared to reduce total ERα per cell. In experiment III, coimmunoprecipitation and Western blot revealed that total mERα and coimmunoprecipitated mERα with mGluR1a were greater 48 hours after 2 μg EB treatment vs rats receiving 50 μg EB. These results indicate 2 μg EB maintains but 50 μg EB down-regulates mERα-mGluR1a to regulate the lordosis circuit activity.

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Genetic Deletion of Esr1 in the Mouse Preoptic Area Disrupts the LH Surge and Estrous Cyclicity

Endocrinology ◽

10.1210/en.2019-00284 ◽

2019 ◽

Vol 160 (8) ◽

pp. 1821-1829 ◽

Cited By ~ 3

Author(s):

Robert Porteous ◽

Allan E Herbison

Keyword(s):

Estrogen Receptor ◽

Third Ventricle ◽

Estrogen Receptor Α ◽

Adeno Associated Virus ◽

Estrous Cycles ◽

Lh Surge ◽

Periventricular Nucleus ◽

Gnrh Neurons ◽

Estrous Cyclicity ◽

Periventricular Area

Abstract Estrogen receptor α (ESR1) is critical for the generation of the preovulatory LH surge. Experiments in rodents have indicated a role for neurons located in the anteroventral periventricular area and preoptic periventricular nucleus [termed the rostral periventricular area of the third ventricle (RP3V)] in surge generation. In the current study, we aimed to examine whether ESR1 expressed by RP3V neurons was necessary for the LH surge. The estrous cycles of mice with estrogen receptor α (Esr1) exon 3 flanked by LoxP sites (Esr1 flox) and controls were monitored before and after bilateral stereotactic injection of adeno-associated virus encoding Cre recombinase into the RP3V. This resulted in 84% and 72% decreases in ESR1-immunoreactive cell numbers in the anteroventral periventricular area and preoptic periventricular nucleus, respectively, with no changes in the arcuate nucleus. Beginning three weeks after the adeno-associated virus injection, Esr1 flox mice began to show a loss of estrous cyclicity going, primarily, into constant estrus. Wild-type mice and Esr1 flox mice with injections outside the RP3V or unilateral ablations of ESR1 continued to exhibit normal estrous cycles. Mice were then gonadectomized and given an estradiol replacement regimen to generate the LH surge. This resulted in an absence of cFOS expression in GnRH neurons (1 ± 1% vs 28 ± 4% of GnRH neurons; P < 0.01) and markedly reduced LH surge levels (2.5 ± 0.6 vs 9.1 ± 1.0 ng/mL; P < 0.01) in Esr1 flox mice compared with controls. These results demonstrate that neurons expressing ESR1 within the RP3V are critical for the generation of the LH surge and estrous cyclicity in the mouse.

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