Distribution patterns of estrogen receptor α and β in the human cortex and hippocampus during development and adulthood

González, Marı́a José; Cabrera-Socorro, Alfredo; Pérez-García, Carlos G.; Fraser, James D.; López, Francisco J.; Alonso, Rafael; Meyer, Gundela

doi:10.1002/cne.21419

Cited by 147 publications

(125 citation statements)

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“…Estrogen receptor beta shows a wide distribution within layer II-VI cortical neurons (González et al, 2007), providing a hypothetical link between menopausal estrogen loss and semantic memory symptoms. The association between estradiol and naming suggests the need to examine more closely the effects of menopause on this particular cognitive ability.…”

Section: Relations Between Hormone Measures and Cognitive Outcomesmentioning

confidence: 96%

Hormone levels and cognitive function in postmenopausal midlife women

Ryan

Stanczyk

Dennerstein

et al. 2012

Neurobiology of Aging

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Gonadal hormones may influence cognitive function. Postmenopausal midlife women in the populationbased Melbourne Women's Midlife Health Project cohort were administered a comprehensive battery of neuropsychological tests on two occasions two years apart. Participants (n=148, mean age 60 years) had undergone natural menopause and were not using hormone therapy. Estrone, total and free estradiol, and total and free testosterone levels were measured at time of the first testing. Principal component analysis identified four cognitive factors. In multiple linear regression analyses, better semantic memory performance was associated with higher total (p=0.02) and free (p=0.03) estradiol levels and a lower ratio of testosterone to estradiol (p=0.007). There were trends for associations between better verbal episodic memory and lower total testosterone (p=0.08) and lower testosterone/estradiol ratio (p=0.06). Lower free testosterone levels were associated with greater two-year improvement on verbal episodic memory (p=0.04); higher testosterone/estradiol predicted greater semantic memory improvement (p=0.03). In postmenopausal midlife women, endogenous estradiol and testosterone levels and the testosterone/estradiol ratio are associated with semantic memory and verbal episodic memory abilities.

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Section: Relations Between Hormone Measures and Cognitive Outcomesmentioning

confidence: 96%

Hormone levels and cognitive function in postmenopausal midlife women

Ryan

Stanczyk

Dennerstein

et al. 2012

Neurobiology of Aging

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show abstract

“…4 As estrogen has been thought to be involved in pathophysiology of psychiatric disorders, 5 we need to know its role during development. Despite these needs, very few attempts have been made to investigate lifetime dynamics of ERs in the central nervous system (CNS), [6][7][8][9] and we still cannot predict how the aging or diseased brain will respond to estrogen.…”

Section: Introductionmentioning

confidence: 99%

Spatiotemporal dynamics of the expression of estrogen receptors in the postnatal mouse brain

Sugiyama

Andersson

Lathe³

et al. 2008

Mol Psychiatry

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This study reports on the spatiotemporal dynamics of the expression of estrogen receptors (ERs) in the mouse central nervous system (CNS) during the early postnatal and the peripubertal period. At postnatal day 7 (P7), neurons with strong nuclear immunostaining for both ERa and ERb1 were widely distributed throughout the brain. Sucrose density gradient sedimentation followed by western blotting supported the histochemical evidence for high levels of both ERs at P7. Over the following 2 days, there was a rapid downregulation of ERs. At P9, ERa expression was visible only in the hypothalamic area. Decline in ERb1 expression was slower than that of ERa, and ERa-negative, ERb1-positive cells were observed in the dentate gyrus and walls of third ventricle. Between P14 and P35, ERs were undetectable except for the hypothalamic area. As before P7, the ovary does not produce estrogen but does produce 5a-androstane-3b, 17b-diol (3bAdiol), an estrogenic metabolite of dihydrotestosterone, we examined the effects of high levels of 3bAdiol in the postnatal period. We used CYP7B1 knockout mice which cannot hydroxylate and inactivate 3bAdiol. The brains of these mice are abnormally large with reduced apoptosis. In the early postnatal period, there was 1-week delay in the timing of the reduction in ER expression in the brain. These data reveal that the time when ERs might be activated in the brain is limited to the first 8 postnatal days. In addition, the importance of aromatase has to be reconsidered as the alternative estrogen, 3bAdiol, is important in neuronal function in the postnatal brain.

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“…29 SVGA cells were derived from fetal human brain tissue isolated at 8-12 weeks gestation, a time when ERa expression in the cortex has started to decline, while expression in the hippocampus has yet to occur. 37,41 Together this suggests that the absence of detectable levels of ERa in SVGA cells may be because the cells are not fully differentiated into mature astrocytes. Indeed, SVGA cells have been described as a presumptive progenitor cell of the CNS that morphologically does not appear differentiated.…”

Section: Discussionmentioning

confidence: 99%

“…Peroxidase staining for ERa and GFAP was performed. 36,37 Sections were deparaffinized, boiled in CBS as before, and incubated in 0.3% hydrogen peroxide in TBS containing 0.3% Triton X-100 for 30 min. After rinsing in TBS, sections were blocked in 5% normal goat serum for 1 h at RT followed by incubation at RT overnight in rabbit anti-ERa (1:75 MC-20, Santa Cruz Biotech.…”

Section: Quantitative Real Time Rt-pcrmentioning

confidence: 99%