Endogenous synthesis of corticosteroids in the hippocampus

Background

Brain synthesis of steroids including sex-steroids is attracting much attention. The endogenous synthesis of corticosteroids in the hippocampus, however, has been doubted because of the inability to detect deoxycorticosterone (DOC) synthase, cytochrome P450(c21).

Methodology/Principal Findings

The expression of P450(c21) was demonstrated using mRNA analysis and immmunogold electron microscopic analysis in the adult male rat hippocampus. DOC production from progesterone (PROG) was demonstrated by metabolism analysis of ³H-steroids. All the enzymes required for corticosteroid synthesis including P450(c21), P450(2D4), P450(11β1) and 3β-hydroxysteroid dehydrogenase (3β-HSD) were localized in the hippocampal principal neurons as shown via in situ hybridization and immunoelectron microscopic analysis. Accurate corticosteroid concentrations in rat hippocampus were determined by liquid chromatography-tandem mass spectrometry. In adrenalectomized rats, net hippocampus-synthesized corticosterone (CORT) and DOC were determined to 6.9 and 5.8 nM, respectively. Enhanced spinogenesis was observed in the hippocampus following application of low nanomolar (10 nM) doses of CORT for 1 h.

Conclusions/Significance

These results imply the complete pathway of corticosteroid synthesis of ‘pregnenolone →PROG→DOC→CORT’ in the hippocampal neurons. Both P450(c21) and P450(2D4) can catalyze conversion of PROG to DOC. The low nanomolar level of CORT synthesized in hippocampal neurons may play a role in modulation of synaptic plasticity, in contrast to the stress effects by micromolar CORT from adrenal glands.     

Estrogen regulation of nitric oxide synthesis in the procine oocyte

The endothelial type (NOS-3) of three isoforms of nitric oxide (NO) synthase occurs in porcine oocytes and granulosa cells, but the regulation of NO synthesis in oocytes remains unknown. The present study was designed to evaluate steroid control in the process of oocyte NO synthesis. Cumulus-oocyte complexes (COCs), obtained from small-sized antral follicles of immature porcine ovaries, were cultured in estrogen-deprived medium, and the effect of steroids or steroid-free porcine follicular fluids on the NO release from oocytes was investigated. Oocytes that were isolated from cultured COCs were incubated with 1 M ionomycin. The NO metabolites were identified using a NO detector-high-pressure liquid chromatography system. Oocytes from COCs cultured with 10 nM 17-estradiol (E₂) released NO in response to ionomycin, whereas progesterone and testosterone had little effect on the synthesis of NO. An inhibitor of NOS suppressed the synthesis of NO. The maximal synthesis was observed after a 15 h-culture with E₂. However, oocytes freshly obtained from antral follicles did not response to ionomycin, and the E₂ action was suppressed by the addition of steroid-free follicular fluids. Analyses of RT-PCR and Western blotting showed that E₂ did not increase NOS-3 expression. In addition, estrogen receptor was detected in oocytes and cumulus cells, and estrogen receptor was detected only in cumulus cells. These findings suggest that oocyte NOS-3 is promoted for the synthesis of NO by E₂ without increases in NOS-3 expression, but the synthesis of NO is suppressed, at least in the oocytes of early antral follicles.     

Estrogen regulation of nitric oxide synthesis in the porcine oocyte

The endothelial type (NOS-3) of three isoforms of nitric oxide (NO) synthase occurs in porcine oocytes and granulosa cells, but the regulation of NO synthesis in oocytes remains unknown. The present study was designed to evaluate steroid control in the process of oocyte NO synthesis. Cumulus-oocyte complexes (COCs), obtained from small-sized antral follicles of immature porcine ovaries, were cultured in estrogen-deprived medium, and the effect of steroids or steroid-free porcine follicular fluids on the NO release from oocytes was investigated. Oocytes that were isolated from cultured COCs were incubated with 1 microM ionomycin. The NO metabolites were identified using a NO detector-high-pressure liquid chromatography system. Oocytes from COCs cultured with 10 nM 17beta-estradiol (E2) released NO in response to ionomycin, whereas progesterone and testosterone had little effect on the synthesis of NO. An inhibitor of NOS suppressed the synthesis of NO. The maximal synthesis was observed after a 15 h-culture with E2. However, oocytes freshly obtained from antral follicles did not response to ionomycin, and the E2 action was suppressed by the addition of steroid-free follicular fluids. Analyses of RT-PCR and Western blotting showed that E2 did not increase NOS-3 expression. In addition, estrogen receptor beta was detected in oocytes and cumulus cells, and estrogen receptor alpha was detected only in cumulus cells. These findings suggest that oocyte NOS-3 is promoted for the synthesis of NO by E2 without increases in NOS-3 expression, but the synthesis of NO is suppressed, at least in the oocytes of early antral follicles.     

Estrogen synthesis in human colon cancer epithelial cells

Epidemiological and experimental data suggest an involvement of estrogen in the development and progression of colorectal cancer. In order to determine whether local synthesis of estrogen occurred in human colonic cancer cells, two colorectal cancer cell lines, HCT8 and HCT116, were evaluated for gene expression and enzyme activity of cytochrome P450 aromatase. In addition, the effect on aromatase expression of charcoal-stripped fetal calf serum, of quercetin and genistein and of tamoxifen and raloxifene was investigated in both cell lines. RT-PCR analysis revealed that colorectal adenocarcinoma cell lines contain aromatase as a major component. The conversion of [³H]-androstenedione to estrone and labeled water was dose-dependently inhibited by 4-hydroxyandrostenedione and obeyed Michaelis–Menten kinetic with apparent Km values of 20 nM and V_max values of approx. 200 and 500 fmol/mg protein/h for HCT8 and HCT116 cells, respectively. After 24 h incubation, genistein (1 μM) significantly increased aromatase activity in HCT8 cells, with no effect on HCT116 cells. In accord with previous observation in reproductive tissues, quercetin (1 μM) significantly inhibited the enzyme activity in both cell lines. Also tamoxifen (100 nM) acted as inhibitor, while raloxifene (10 nM) decreased the enzyme activity only in HCT116 cells. The aromatase gene expression modulation by these effective agents was consistent with their effects on enzyme activity. These findings demonstrate for the first time that colorectal adenocarcinoma cell lines express aromatase. Interestingly, the enzyme activity was inhibited by quercetin, one major dietary flavonoid, by tamoxifen, a hormonal therapeutic agent for breast cancer, and by raloxifene, used in the prevention of postmenopausal osteoporosis.     

Estrogen preferentially stimulates lactosaminoglycan-containing oligosaccharide synthesis in mouse uteri

The effects of steroid hormones on the synthesis of lactosaminoglycan (LAG)-containing oligosaccharides by mouse uteri are reported. The uterine LAG-containing oligosaccharides were degraded partially by Pseudomonas endo-beta-galactosidase, releasing an oligosaccharide of the apparent structure: Gal beta----N-acetylglucosaminyl(----N-acetylgalactosaminyl)beta 1,3----galactose. A larger fraction of the LAG-containing oligosaccharides bound to pokeweed mitogen than to Datura stramonium lectin, suggesting the presence of highly branched structures. LAG-containing oligosaccharides were resistant to sequential digestion with Pronase, nitrous acid, hyaluronidase, and chondroitinase ABC. These polysaccharides exhibited a Gal:GlcNAc:GalNAc ratio of approximately 1.0:1.0:0.3 and were not fucosylated. The ion-exchange behavior of the LAG-containing oligosaccharides before and after mild acid hydrolysis indicated the presence of sialic acid residues. The LAG-containing glycopeptides were highly resistant to beta-elimination but were released quantitatively by hydrazinolysis, demonstrating an N-linkage to protein. Binding to pokeweed mitogen was markedly enhanced following release of these oligosaccharides from peptides by hydrazinolysis, suggesting that peptide-bound oligosaccharides were partially inaccessible to the lectin. Molecular exclusion chromatography of the oligosaccharides released by hydrazinolysis revealed a broad distribution ranging from Mr 4,000 to 15,000 with a median Mr of approximately 8,000. We extended the above observations by determining how the steroid hormones 17-beta-estradiol (E2) and progesterone affected synthesis of the LAG-containing oligosaccharides in ovariectomized mice. Generally, E2 and a number of E2 agonists stimulated glycoconjugate synthesis; however, chronic E2 treatment or combined treatment with E2 plus progesterone caused the synthesis of most glycosaminoglycans to return to basal levels. In contrast, E2 either alone or in combination with progesterone stimulated synthesis of LAG-containing oligosaccharides in preference not only to glycosaminoglycans but also to other classes of N-linked oligosaccharides. This effect was apparent during both priming and nidatory E2 treatments. Collectively, these data provide the first demonstration of LAG-containing oligosaccharides in uteri and for the hormonally regulated synthesis of lactosaminoglycans. In addition, this is the first demonstration of the ability of steroid hormones to induce the synthesis of certain types of N-linked oligosaccharides in preference to others in the same tissue.     

Hibernators' brain: protein synthesis in the neocortex and the hippocampus

[3H]leucine incorporation into 16 electrophoretic protein fractions from the neocortex and the hippocampus and their relative content have been estimated in various physiological states of ground squirrels: in torpor, in 3 transition phases, in long-term wakefulness and a fortnight after forced arousal in winter. The changes are greater in the neocortex than in the hippocampus. Incorporation is not the same in naturally awake animals and forced awake animals.     

Estrogen formation in the mammalian brain: Possible role of aromatase in sexual differentiation of the hippocampus and neocortex

Recent studies suggest that sex differences in cognitive function may involve effects of circulating androgens on the developing cerebral cortex and hippocampus. The mechanism of these effects is not understood. In rhesus monkeys, aromatase activity is present in the hippocampus and several areas of the cerebral cortex during late fetal and early postnatal life. Similarly, work in rats and mice indicates that the hippocampus and cerebral cortex may be capable of estrogen biosynthesis during early development. These results are consistent with the hypothesis that the actions of androgens on the developing cerebral cortex and hippocampus may involve local estrogen-mediated effects similar to those responsible for differentiation of the hypothalamic mechanisms controlling reproductive function.     

Choline availability and acetylcholine synthesis in the hippocampus of acetylcholinesterase-deficient mice

Mice deficient for acetylcholinesterase (AChE) have strongly increased extracellular levels of acetylcholine (ACh) in the dorsal hippocampus [Hartmann, J., Kiewert, C., Duysen, E.G., Lockridge, O., Greig, N.H., Klein, J., 2007. Excessive hippocampal acetylcholine levels in acetylcholinesterase-deficient mice are moderated by butyrylcholinesterase activity. J. Neurochem. 100, 1421-1429]. Using microdialysis, we found that increased ACh levels are accompanied by decreased levels of extracellular choline which were 1.60 microM in AChE-deficient mice and 4.36 microM in wild-type mice. Addition of choline (10 microM) to the perfusion fluid, while ineffective in wild-type animals, more than doubled extracellular ACh levels in AChE-deficient mice. High-affinity choline uptake (HACU), as measured ex vivo in corticohippocampal synaptosomes, was more than doubled in AChE-deficient mice. Inhibition of HACU by hemicholinium-3 (HC-3) in vivo reduced extracellular levels of ACh by 60% in wild-type mice but by more than 90% in AChE-deficient mice. Decreased ACh levels caused by infusion of HC-3 or tetrodotoxin (TTX) were accompanied by increased levels of free choline. Infusion of scopolamine (1 microM) caused a fivefold increase of ACh levels in wild-type animals but only a 50% increase in AChE-deficient mice. In conclusion, absence of AChE causes dynamic changes in the ratio of choline to ACh. High levels of extracellular ACh are accompanied by reduced levels of extracellular choline, and ACh release becomes strongly dependent on choline availability. Similar changes may take place in patients chronically exposed to AChE inhibitors.     

Estrogen induced synthesis of specific proteins in human breast cancer cells

Human breast cancer cells in tissue culture (MCF-7) were pretreated with the antiestrogen nafoxidine to arrest cellular proliferation and then were given estradiol to release this block and stimulate DNA synthesis and cell division. During this period of growth stimulation intracellular proteins, labeled by a double isotope method, were analyzed on SDS-polyacrylamide gel electrophoresis. Estradiol directly increases the rates of synthesis of specific proteins which migrate on SDS-gels at molecular weights of 24,000 and 36,000. Nafoxidine-pretreatment alone does not induce these same proteins, and no changes in the rates of specific protein synthesis occur in cells grown on control medium for the same length of time as on estradiol. Induced synthesis of these proteins is observed only during the period of estrogen stimulation of cell proliferation following pretreatment with nafoxidine. We do not detect induction when cells are incubated with estradiol without antiestrogen-pretreatment. Since rescue of antiestrogen growth inhibition is also the only condition under which MCF-7 cell division can be reproducibly stimulated by estrogen, these proteins may be related to estrogen effects on cellular proliferation.     

Estrogen enhances epidermal growth factor-induced DNA synthesis in mammary epithelial cells

Estradiol (E₂) priming (1 nM for 48 h) of normal murine mammary gland epithelial cells significantly increased the response of those cells to epidermal growth factor (EGF)-induced DNA synthesis. The synergism between E₂ and EGF was evident in two aspects: After serum-free synchronization for 24 h, more cells entered the S-phase of the cell cycle after E₂ priming and when treated with 0.17 nM EGF (13%) than did control cells (1.3%) or cells treated with EGF (4%) or E₂ (3.5%) alone; further, the dose of EGF required to elicit maximal response was reduced an order of magnitude in estrogen-primed cells (0.17 nM) compared to controls (1.7 mM). Estrogen alone, however, did not increase DNA synthesis in these cells. Ligand binding studies indicate that these effects of estrogen on proliferating mammary epithelial cells may be explained, at least in part, by a 3.7-fold increase in the number of high affinity EGF-receptors observed in estrogen primed cells (7,300 receptors per cell) compared to estrogen deprived cells (1,960 receptors/cell). © 1993 Wiley-Liss, Inc.     

Estrogen stimulation of progesterone synthesis by porcine granulosa cells in culture

Estrogen stimulates synthesis of progesterone by porcine granulosa cells in tissue culture. This enhancement is inhibited by cycloheximide, suggesting that protein synthesis is required for the effect. Estrogen is synergistic with hCG in increasing progesterone synthesis. Sequential treatment with hCG followed by estradiol causes maximal stimulation of progesterone production.     

Estrogen induces rapid decrease in dendritic thorns of CA3 pyramidal neurons in adult male rat hippocampus

Modulation of hippocampal synaptic plasticity by estrogen has been attracting much attention. Thorns of thorny excrescences of CA3 hippocampal neurons are post-synaptic regions whose presynaptic partners are mossy fiber terminals. Here we demonstrated the rapid effect of estradiol on the density of thorns of thorny excrescences, by imaging Lucifer Yellow-injected CA3 neurons in adult male rat hippocampal slices. The application of 1nM estradiol induced rapid decrease in the density of thorns on pyramidal neurons within 2h. The estradiol-mediated decrease in the density of thorns was blocked by CNQX (AMPA receptor antagonist) and PD98059 (MAP kinase inhibitor), but not by MK-801 (NMDA receptor antagonist). ERalpha agonist PPT induced the same suppressive effect as that induced by estradiol on the density of thorns, but ERbeta agonist DPN did not affect the density of thorns. Note that a 1nM estradiol treatment did not affect the density of spines in the stratum radiatum and stratum oriens. A search for synaptic ERalpha was performed using purified RC-19 antibody. The localization of ERalpha (67kDa) in the CA3 mossy fiber terminals and thorns was demonstrated using immunogold electron microscopy. These results imply that estradiol drives the signaling pathway including ERalpha and MAP kinase.     

Estrogen and prothrombin synthesis. The prothrombinogenic action of estrogen

Vitamin K deficient castrate male rats exhibit more rapid prothrombin depletion after injection of 100 μg of methyltestosterone, decreasing from 25% to 8% of normal plasma prothrombin levels. During the same 96 hour period, control castrate male rats showed a decline from 25% to 16%. Injection of 100 μg ethynylestradiol to similar vitamin K deficient, castrate male rats increased plasma prothrombin levels from 23% to approximately 45% within 96 hours. The effect of estradiol on biosynthesis of prothrombin was investigated by measuring incorporation of [³H]L-amino acids into the electrophoretically separable prothrombin. We conclude that the observed estrogen effect is due to a prothrombinogenic, rather than prothrombin-sparing mechanism.     

Estrogen receptors, progestin receptors and DNA synthesis in the macaque endometrium during the luteal-follicular transition

We have suggested that in the nonhuman primate endometrium, stromal cells might play a role in mediating the effects of estrogen on the epithelium, especially during the luteal-follicular transition (LFT) when target cells normally escape from the inhibitory influence of progesterone (P). We now report that like estrogen receptors (ER), endometrial progestin receptors (PR) are detectable only in stromal cells until the fifth day of the LFT. With a technique that combined immunocytochemistry and autoradiography on the same sections, we characterized the cellular distribution of ER or PR coincidentally with the localization of [3H]thymidine taken up in vitro by endometria from monkeys undergoing an LFT. DNA synthesis in the glands of the upper endometrium was E2-dependent, but the distribution of [3H]thymidine was not positively correlated with the presence of ER or PR. Readministration of P to animals on days 3 or 4 of the LFT significantly reduced the [3H]thymidine labeling index of the glandular epithelium and caused stromal ER to decline, but P did not block the eventual appearance of ER in epithelial cells on day 5 of the LFT. Thus, E2 stimulated DNA synthesis in epithelial cells that lacked ER, and P suppressed DNA synthesis in these cells even though PR was only detected in the stroma when P treatment began. These data are consistent with a role for endometrial stromal cells in mediating the effects of E2 and P on the epithelium during the LFT.     

Estrogen synthesis in the stomach of Sprague-Dawley rats: comparison to Wistar rats

Aromatase, an estrogen synthase, exists in the gastric parietal cells of Wistar rats. The stomach synthesizes large amounts of estrogens and secretes them into the portal vein. We have been particularly studying gastric estrogen synthesis using Wistar rats. However, estrogen synthesis in the stomach of Sprague-Dawley (SD) rats, which are used as frequently as those of the Wistar strain, has not been clarified. We examined steroid synthesis in the stomach of SD rats using immunohistochemistry, in situ hybridization, Western blotting, real-time PCR, and LC-MS/MS. Aromatase also exists in the stomach of SD rats. Its distribution was not found to be different from that of Wistar rats. Results show that H⁺/K⁺-ATPase β-subunit and aromatase colocalized in double immunofluorescence staining. Each steroid synthase downstream from progesterone was present in the gastric mucosa. These results suggest that steroid hormones are synthesized in the parietal cells in the same pathway as Wistar rats. Although mRNA expression of steroid synthases were higher in SD, no significant difference was found in the amount of protein and each steroid hormone level in the portal vein. Although differences between strains might exist in steroid hormone synthesis, results show that SD rats are as useful as Wistar rats for gastric estrogen synthesis experimentation.     

The intensity of RNA synthesis in rat hippocampus during learning]

Intensity of hippocampal RNA synthesis was studied in albino rats on days when elementary links of the chain motor conditioned reflex with food reinforcement were formed. A gradual increase in the nuclear RNA synthesis intensity was found in both learned and unlearned rats from the 1st towards the 5th day. This increase was, however, higher in the learned rats. A decrease was recorded in the difference in the intensity of the hippocampal nuclear RNA synthesis between the learned and unlearned rats from the 1st to the 5th day; this is possibly connected with the formation of certain mechanisms of memory consolidation, since the learned and unlearned rats differed in this property only.