Synergistic Induction of Aromatase Activity in the Rat Brain by Estradiol and 5α-Dihydrotestosterone

Roselli, Charles E.

doi:10.1159/000125701

Cited by 71 publications

(48 citation statements)

References 25 publications

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“…Proliferation of neural progenitor cells separated from the hippocampi of 3-month old rats was also enhanced by estrogen in vitro in a dose-dependent manner, although the significant effect of estrogen was observed at a relatively high concentration (10 -5 M). Since aromatase, an estradiol-synthesizing enzyme, is expressed in the cell of the dentate gyrus [ 45 ] a n d e s t r o g e n c a n i n c r e a s e a r o m at a s e expression [46], it is possible that systemicallyadministered estrogen increases hippocampal aromatase and that locally-produced estrogen in the hippocampus in turn participates in enhancing progenitor cell proliferation. Observation that the antibody against granulin precursor effectively blocked the stimulatory effect of estrogen on proliferation of progenitors further supports the above-mentioned notion that granulin is involved in estrogenic action on cell proliferation.…”

Section: Discussionmentioning

confidence: 99%

Involvement of Granulin in Estrogen-Induced Neurogenesis in the Adult Rat Hippocampus

et al. 2007

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Abstract. Recent studies have demonstrated the presence of neurogenesis in the adult mammalian hippocampus, and it has been suggested that estrogen and various growth factors influence the processes of adult neurogenesis. The present study assessed cell proliferation in the dentate gyrus and the mRNA expression levels of granulin, insulin-like growth factor-I (IGF-I), and brain-derived neurotrophic factor (BDNF) in the hippocampus 4 h after treatment with estradiol benzoate (EB) in 3-and 12-month old ovariectomized rats. At 3 months of age, mRNA expression of granulin precursor and cell proliferation were increased by EB treatment, although the mRNA expressions of IGF-I and BDNF remained unchanged. At 12 months of age, however, neither mRNA expression of the three genes nor cell proliferation in the dentate gyrus were affected by EB treatment. In addition, 17β-estradiol enhanced the proliferation of neural progenitor cells derived from hippocampal tissue of 3-month-old female rats in vitro; this was inhibited by neutralization of granulin with specific antibody. These results suggest that estrogen induces granulin gene expression in the hippocampus and that the product of this gene is involved in the mitogenic effects of estrogen in the dentate gyrus, although the responses to estrogen decline with age. Key words: Aging, Estrogen, Granulin, Hippocampus, Neurogenesis, Rat (J. Reprod. Dev. 53: [297][298][299][300][301][302][303][304][305][306][307] 2007) he brain has long been considered to be an organ that is not capable of regeneration. However, recent studies have shown the presence of active neurogenesis even in the brains of adult mammals [1]. Adult neurogenesis in the brain takes place principally in two distinct regions: the subventricular zone (SVZ) and the dentate gyrus of the hippocampus [2]. In the hippocampus, neural precursor cells are located in the subgranular zone (SGZ), which is the border region between the granule cell layer and the hilus in the dentate gyrus, and these precursor cells proliferate and produce daughter cells that are capable of differentiation into mature granule neurons [3]. Recent studies suggest that adult neurogenesis in the dentate gyrus is involved with learning [4,5] Among the factors regulating neurogenesis, more attention has been paid to estrogen since it is known to enhance cell proliferation and increase the number of immature neurons in the adult dentate gyrus [13][14][15]. In addition, a recent study indicated the presence of estrogen receptors (ERs) in neural stem cells in the SVZ and SGZ [16]. Estrogen also affects learning tasks [17,18] and the

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Section: Discussionmentioning

confidence: 99%

Involvement of Granulin in Estrogen-Induced Neurogenesis in the Adult Rat Hippocampus

et al. 2007

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“…Testosterone facilitates aromatase activity through a receptor mechanism [16] in preoptic, hypothalamic as well as limbic regions. E 2 in combination with DHT also activates aromatase activity in the preoptic area [17]. This suggests the existence of a single cell type, one that contains AR, ER and the aromatase, which would be activated during mating.…”

Section: Discussionmentioning

confidence: 99%

“…Depending on the tissue, androgenic and estrogenic interactions may be either antagonistic or synergistic [14, 15]. Levels of aromatase activity are directly proportional to levels of testosterone [16, 17], and treatment of castrated males with DHT combined with E 2 at doses which have little or no effect alone, restores aromatase activity to levels equivalent to those achieved by treatment with testosterone [17]. …”

Section: Introductionmentioning

confidence: 99%

Androgen Receptors and Estrogen Receptors Are Colocalized in Male Rat Hypothalamic and Limbic Neurons that Express Fos Immunoreactivity Induced by Mating

et al. 1998

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Conversion of testosterone into estradiol is important for male rat sexual behavior, and both steroids probably contribute to mating. The distributions of neurons containing androgen receptors (AR) and estrogen receptors (ER) overlap, and many AR-immunoreactive (AR-ir) neurons express Fos immunoreactivity (Fos-ir) induced by mating. Because mating-induced Fos-ir in the male rat occurs mainly in AR-ir neurons, and because both steroids are important for mating, we hypothesized that (i) AR-ir and ER-ir are colocalized and that (ii) some of these neurons are activated during mating. We examined, in adjacent sections from the medial preoptic area (MPN) through the central tegmental field (CTF), the expression of ER-ir in: (i) AR-ir-containing neurons, and (ii) Fos-ir-expressive neurons. PG21 anti-AR, OA-11-824 anti-c-fos, H222 or 1D5 anti-ER primary antibodies were visualized, respectively, with cyanine-conjugated, fluorescein- or cyanine-conjugated, and fluorescein-conjugated secondary antibodies in male rats which were killed 1 h after ejaculating with a receptive female. In MPN, bed nucleus of the stria terminalis (BNST), and medial amygdala (MEA), 80–90% of ER-ir labeling occurred in AR-ir-positive neurons but only about 30% of AR-ir neurons were ER-ir-positive. No ER-ir was found in the CTF. This suggests the presence of three types of brain neurons sensitive to gonadal steroid hormones: neurons sensitive to androgens only, neurons sensitive to both androgens and estrogens, and neurons sensitive to estrogens only. About 50% of ER-ir labeling occurred in cells expressing mating-induced Fos-ir but only about 30% of Fos-ir neurons were ER-ir-positive. These findings suggest that, in the MPN, at least two different neuronal populations are activated during mating: the first contains AR-ir only and the second contains AR-ir and ER-ir. In the BNST and MEA, at least three hormonally sensitive populations are activated during mating: the two described above plus a third population which expresses ER-ir only.

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“…When steroids are reduced by exposure to short-dav photoperiod or eliminated via cas- only estrogens stimulate the preovulatory LH surge [5]. In contrast, both DHT and estradiol can facilitate sexual behavior and suppress gonadotropin secretion [6][7][8][9][10][11], and the combination of DHT and estradiol is often supe rior to either hormone alone [10,12], To understand how androgens and estrogens regulate neural function, indi vidually and in combination, it is necessary to determine sites of steroid action in the brain. In particular, the over lapping functions of androgens and estrogens to influence neuroendocrine control and sexual behavior suggest that the receptors for these two steroids overlap.…”

Section: Introductionmentioning

confidence: 99%

Androgen and Estrogen Receptors Coexist within Individual Neurons in the Brain of the Syrian Hamster

Wood

Newman²

1995

Neuroendocrinology

105

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Many aspects of reproductive neuroendocrine function and sexual behavior are responsive to both androgens and estrogens, suggesting that receptors for these steroid hormones may reside within single cells in brain regions that control reproductive function. We determined the distribution of estrogen receptor-containing neurons in 40-µm coronal brain sections in gonadectomized, DHT-treated male Syrian hamsters using immunocytochemistry with the H222 antibody (10 µg/ml; Abbott Laboratories). Subsequently, we colocalized estrogen receptors with androgen receptors using the PG-21 antibody (0.5 µg/ml; G.S. Prins). In males, the distribution of estrogen receptor-containing neurons was similar to that reported previously for the female hamster. Colocalization of androgen and estrogen receptor immunoreactivity was observed in brain regions that contain numerous androgen and estrogen receptor-positive neurons, including subdivisions of the medial preoptic area, bed nucleus of the stria terminalis, ventromedial nucleus of the hypothalamus, and the amygdalohippocampal area. Single-labelled estrogen receptor-containing neurons were most numerous in the amygdalohippocampal area and the rostral medial preoptic nucleus; androgen receptor-immunoreactive cells were most abundant in the ventral premammillary nucleus and the lateral septum. These data suggest the potential of androgens and estrogens to influence neuronal function within individual steroid receptor-containing neurons of the hamster limbic system.

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Synergistic Induction of Aromatase Activity in the Rat Brain by Estradiol and 5α-Dihydrotestosterone

Cited by 71 publications

References 25 publications

Involvement of Granulin in Estrogen-Induced Neurogenesis in the Adult Rat Hippocampus

Involvement of Granulin in Estrogen-Induced Neurogenesis in the Adult Rat Hippocampus

Androgen Receptors and Estrogen Receptors Are Colocalized in Male Rat Hypothalamic and Limbic Neurons that Express Fos Immunoreactivity Induced by Mating

Androgen and Estrogen Receptors Coexist within Individual Neurons in the Brain of the Syrian Hamster

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