Regulation and localization of estrogen and progestin receptors in the pituitary of steroid-treated monkeys

PRL increases during pregnancy in primates with rising levels of placental estradiol (E) and progesterone (P). However, while E will increase PRL secretion in monkey pituitary cell cultures, P has no effect. We recently localized progestin receptors (PR) to gonadotropes, but not lactotropes, with an immunocytochemical technique to double stain monkey pituitary cell cultures. The following studies were performed to confirm the immunocytochemical localization of PR in intact pituitary tissue and to determine the effect of E and P on the levels of estrogen receptors (ER) and PR in the pituitary. ER and PR levels were determined in the endometrium of the same animals for an internal comparison. Thirteen adult cycling female cynomolgus monkeys were ovariectomized and treated for 28 days with 1) an empty Silastic capsule (Spay), 2) a 2-cm E-filled capsule (E), or 3) a 2-cm E-filled capsule for 14 days plus a 6-cm P-filled capsule implanted for an additional 14 days (E + P). Blood samples were drawn daily for assay of serum E, P, and PRL levels. Serum PRL was not significantly affected by E, but the sequential addition of P significantly increased serum PRL levels over those observed in Spray animals. The anterior pituitary and endometrium were removed for measurement of ER and PR levels by a sucrose gradient shift assay incorporating monoclonal antibodies against ER and PR. Pituitary ER levels did not vary significantly with steroid treatment (158.2 +/- 33.6, 135.5 +/- 24.9, 104.3 +/- 13.4 fmol/mg DNA in Spay, E, and E + P animals, respectively). Pituitary PR levels were undetectable in Spay animals, were induced by E (393.3 +/- 53.4 fmol/mg DNA), and were suppressed to undetectable levels by the addition of P. A portion of the pituitary was frozen for immunocytochemical single staining for ER, PR, PRL, and LH and double staining for PRL + PR and LH + PR. ER staining was observed in many parenchymal cells, but there was no apparent change with steroid treatment. PR staining was absent in the Spay animals; many PR-positive cells were observed in E-treated females, and only a small number of faintly staining cells were detected in the E + P animals. Double staining for PRL + PR and LH + PR revealed PR in gonadotropes, but not lactotropes. In conclusion, PR, but not ER, are regulated by E and P in the monkey pituitary. Importantly, PR is regulated within gonadotropes, but not lactotropes. Therefore, P probably increases PRL secretion through a hypothalamic action.     

Characterization and distribution of angiotensin-II receptors in the primate fetus

The binding characteristics and distribution of angiotensin-II (AII) receptors were studied in Cynomolgus monkey fetuses and one second trimester human fetus. In contrast to the adult monkey, in which binding was confined to the adrenal gland, kidney, and smooth muscle, autoradiographic studies in the monkey fetus revealed the presence of high density binding in mesenchymal tissue throughout the body, especially in skeletal muscle and dermis. In the kidney at 11 weeks, binding was mainly associated with connective tissue surrounding primitive nephrons, while at 17 weeks, binding distribution was similar to that in the adult primate kidney, being confined to the glomeruli and smooth muscle of blood vessels, with low binding in the tubules. In fetal monkey adrenal, binding was high in the medulla and connective tissue of the capsule, and low in the zona glomerulosa, while in the adult, binding was high in the zona glomerulosa and medulla. In membrane preparations from fetal monkey skin and skeletal muscle, binding was specific for AII analogs, but in contrast to the adult adrenal, it was not affected by guanyl nucleotides. Scatchard analysis showed a single class of sites with a Kd of 0.6 +/- 0.1 nM and a capacity of 3060 +/- 8.3 fmol/mg, higher than that of the adult adrenal glomerulosa (605 +/- 30 fmol/mg). Specific binding for AII analogs was also present in human fetal skin and skeletal muscle membranes, where Scatchard analysis indicated a Kd of 0.8 nM and a binding capacity of 640 fmol/mg. The transient expression of abundant AII receptors during the phase of rapid growth in the fetus in conjunction with the known effects of AII on cellular growth suggest a role for AII during fetal development in the primate.     

Uterine estrogen receptors are increased by RU486 in late pregnant rhesus macaques but not after spontaneous labor

Progesterone withdrawal as a mechanism for parturition in primates is controversial. The progesterone antagonist RU486, given in late pregnancy to rhesus monkeys at a dose of 47 mmol/kg.day (20 mg/kg.day), causes an increase in uterine activity, but not the expected increase in amniotic fluid prostaglandins or cervical dilatation. We, therefore, studied the effect of RU486 on estrogen receptor (ER) localization and concentration in reproductive tract tissues in rhesus monkeys during late gestation and after spontaneous labor at term. Distribution of ER in pregnant uterine tissues was studied by immunocytochemical techniques and quantified by a biochemical assay, both of which employed a monoclonal antibody specific for ER. ER was not present in amnion and chorion by immunocytochemical investigation; however, a significant increase in receptor staining was seen in decidua and myometrium after RU486 treatment compared to that in both pregnant control tissues and parturient tissues. Sucrose gradient assay of nuclear (n) and cytosolic (c) ER revealed a low level of ER (expressed as fmol of estradiol bound/mg of DNA) in pregnant and parturient decidua (pregnant: nER = 7.3 +/- 2.4, cER = 17.1 +/- 6.4; parturient, nER = 7.7 +/- 3.1, cER = 16.4 +/- 8.8) and myometrium (pregnant: nER = 21.7 +/- 4.1, cER = 20.8 +/- 5.3; parturient: nER = 30.0 +/- 2.8, cER = 10.7 +/- 6.7). In contrast, tissues collected from RU486-treated animals contained high levels of ER in decidua (nER = 52.3 +/- 16.8, cER = 240.5 +/- 145.3) and myometrium (nER = 77.0 +/- 19.2; cER = 66.5 +/- 31.6). We conclude that 1) the increase in ER in decidua and myometrium after RU486 treatment is the result of a decrease in the inhibitory action of progesterone on ER and documents the progesterone receptor antagonism by RU486 during induced myometrial contractility in late pregnant rhesus monkeys; 2) the absence of ER from amnion and chorion indicates that the normally observed increase in prostaglandin production by rhesus fetal membranes during labor is not mediated by ER; and 3) the absence of a change in the concentration of ER in decidua and myometrium from pregnant control monkeys and those in spontaneous labor indicates that an increase in ER (and, by inference, a withdrawal of receptor-mediated progesterone inhibition) is not part of the normal events in preparation for parturition in primates.     

Intrafetal insulin-like growth factor-I infusion stimulates adrenal growth but not steroidogenesis in the sheep fetus during late gestation

We investigated the effects of an intrafetal infusion of IGF-I on adrenal growth and expression of the adrenal steroidogenic and catecholamine-synthetic enzyme mRNAs in the sheep fetus during late gestation. Fetal sheep were infused for 10 d with either IGF-I (26 microg/kg.h; n = 14) or saline (n = 10) between 120 and 130 d gestation, and adrenal glands were collected for morphological analysis and determination of the mRNA expression of steroidogenic and catecholamine-synthetic enzymes. Fetal body weight was not altered by IGF-I infusion; however, adrenal weight was significantly increased by 145% after IGF-I infusion. The density of cell nuclei within the fetal adrenal cortex (the zona glomerulosa and zona fasciculata), and within the adrenaline synthesizing zone of the adrenal medulla, was significantly less in the IGF-I-infused fetuses compared with the saline-infused group. Thus, based on cell-density measurements, there was a significant increase in cell size in the zona glomerulosa and zona fasciculata of the adrenal cortex and in the adrenaline-synthesizing zone of the adrenal medulla. There was no effect of IGF-I infusion on the adrenal mRNA expression of the steroidogenic or catecholamine-synthetic enzymes or on fetal plasma cortisol concentrations. In summary, infusion of IGF-I in late gestation resulted in a marked hypertrophy of the steroidogenic and adrenaline-containing cells of the fetal adrenal in the absence of changes in the mRNA levels of adrenal steroidogenic or catecholamine-synthetic enzymes or in fetal plasma cortisol concentrations. Thus, IGF-I infusion results in a dissociation of adrenal growth and function during late gestation.     

Regulation of primate angiotensin II receptors during altered sodium intake

In the rat, angiotensin II receptors of the adrenal glomerulosa and smooth muscle undergo reciprocal regulatory changes that parallel the changes in target cell sensitivity to angiotensin II during altered sodium intake. In primates, the relative importance of angiotensin II receptor regulation during sodium-induced changes in angiotensin II sensitivity is not clear. To evaluate the role of angiotensin II receptor regulation in the primate, we analyzed the changes in angiotensin II receptors of adrenal and bladder membrane-rich particles after 4 to 6 days of high or low sodium intake in the monkey (Macaca fascicularis). Consistent with the decreased pressor response to angiotensin II, smooth muscle angiotensin II receptors were fewer in sodium-restricted monkeys (93 +/- 17 fmol/mg) than in sodium-loaded monkeys (171 +/- 6 fmol/mg). However, in contrast to the rat, changes in zona glomerulosa angiotensin II receptors in monkey adrenal were similar to those in smooth muscle, decreasing with sodium restriction and increasing with sodium loading (344 +/- 64 and 660 +/- 68 fmol/mg, respectively). There was no change in angiotensin II receptor affinity in either smooth muscle or adrenal particles during altered sodium intake. Concomitant with the decrease in adrenal angiotensin II receptors, 18-hydroxylase activity was increased twofold in adrenal mitochondria from sodium-restricted monkeys (74 +/- 8 fmol/mg/min) compared with sodium-loaded animals (28 +/- 11 fmol/mg/min). The increased sensitivity of the primate adrenal to angiotensin II despite a fall in angiotensin II receptors indicates that full activation of steroidogenesis by angiotensin II can be maintained with partial receptor occupancy.(ABSTRACT TRUNCATED AT 250 WORDS)     

Identification and developmental expression of the estrogen receptor alpha and beta in the baboon fetal adrenal gland

We have previously shown that estrogen regulates the development and function of the fetal and definitive/transitional zones of the primate fetal adrenal gland. Thus, during baboon pregnancy estrogen acts directly on the fetal zone to suppress ACTH-stimulated dehydroepiandrosterone (DHA) formation, potentially to modulate C19-steroid production and consequently placental estrogen synthesis. It is proposed that this action of estrogen is mediated by the estrogen receptor. Therefore, in the present study a developmental approach was used to determine whether the messenger RNA (mRNA) and protein for the estrogen receptor were expressed in the fetal and definitive/transitional zones ofthe baboon fetal adrenal gland at mid (day 100) and late (day 170) gestation (term = 184 days). Estrogen receptor alpha mRNA levels, determined by competitive RT-PCR, were approximately 7-fold greater (P < 0.02) in the fetal adrenal of late (187.8+/-40.3 attomoles/microg RNA) compared with mid (27.4+/-5.4 attomoles/microg RNA) gestation. Moreover, estrogen receptor alpha mRNA expression, determined by quantitative in situ hybridization, was approximately 2.5-fold greater (P < 0.05) in the definitive/transitional zones (21.6+/-0.5 silver grains/0.025 mm2) than in the fetal zone (8.3+/-1.5 grains/0.025 mm2) late in gestation. The mRNA for the beta-isoform of the estrogen receptor was also expressed in the baboon fetal adrenal cortex. There was a gradient of immunocytochemical staining for the estrogen receptor alpha and beta proteins, with extensive immunoreactivity for both isoforms in the definitive zone and lower staining in the transitional zone and the fetal zone. In summary, the results of the present study show that estrogen receptor alpha and beta were expressed in the fetal and definitive/transitional zones of the baboon fetal adrenal cortex at mid and late gestation. The presence of the estrogen receptor provides a mechanism for mediating the action of estrogen in modulating ACTH-dependent and cortical zone-specific development and function of the primate fetal adrenal gland.     

Impact of restriction of placental and fetal growth on expression of 11beta-hydroxysteroid dehydrogenase type 1 and type 2 messenger ribonucleic acid in the liver, kidney, and adrenal of the sheep fetus

We have investigated the effects of fetal growth restriction, induced by restriction of placental growth and function (PR), on 11beta-hydroxysteroid dehydrogenase type 1 (11betaHSD-1) and 11betaHSD-2 messenger RNA (mRNA) expression in fetal tissues in the sheep, using Northern blot analysis. Fetal liver, kidney, and adrenals were collected from normally grown fetuses at 90 days (n = 6), 125 days (n = 6), and 141-145 days (n = 7) and from PR fetuses at 141-145 days (n = 6). Expression of 11betaHSD-1 mRNA in the fetal liver increased significantly between 125 days (7.4+/-0.8) and 141-145 days gestation (27+/-5.3). There was also an approximately 2-fold increase in the ratio of 11betaHSD-1 mRNA/18S rRNA expression in the PR group (53.8+/-7.9) compared with that in control animals at 141-145 days gestation. There was a significant decrease in 11betaHSD-2 mRNA in fetal adrenals between 125 days (41.6+/-2.4) and 141-145 days (26.7+/-1.1) gestation, but there was no effect of PR on the expression of adrenal 11betaHSD-2 mRNA. 11betaHSD-2 mRNA expression in the fetal kidney increased between 90 days (16.8+/-1.7) and 141-145 days gestation (31.7+/-4.3), but there was no effect of PR on the levels of 11betaHSD-2 mRNA in the fetal kidney. In summary, 11betaHSD-2 mRNA is differentially regulated in the fetal adrenal and kidney in the sheep fetus during late gestation. There is also a specific increase in the expression of 11betaHSD-1 mRNA in the liver of growth-restricted fetuses in late gestation. This suggests that there is increased hepatic exposure to cortisol in the growth-restricted fetus, which may be important in the reprogramming of hepatic physiology that occurs after growth restriction in utero.     

Immunocytochemical localization of estrogen receptors in the macaque endometrium during the luteal-follicular transition

We examined changes in estrogen receptors (ERs) in endometrial stromal and epithelial cells in cynomolgus macaques during artificially induced menstruation and repair. We used Silastic implants filled with either estradiol (E2) or progesterone (P) to treat spayed animals for 14 days with E2 followed by 14 days of E2 plus P. We then withdrew the P (but not the E2) implants and removed uteri 0, 0.5, 1, 2, 3, 4, 5, 7, and 14 days later. Uterine tissues were assayed biochemically for ER content, fixed for histology and frozen for immunocytochemistry of ER with monoclonal antiestrophilins. On day 0, ER levels in endometrium were low [1330 +/- 201 (n = 9) fmol/mg DNA]. An increase in total receptor was evident by 3-4 days of P withdrawal 2762 +/- 190 (n = 6) fmol/mg DNA; P less than 0.001]. Total receptor concentrations increased linearly with time from 0.5-7 days of P withdrawal (r = 0.88). On day 0, staining for nuclear ER in the glandular epithelium and stroma of zones I, II, and III of the endometrium was negative. Beginning at 12-24 h and continuing through 4 days of P withdrawal, nuclear staining became detectable and increased in intensity only in endometrial stromal fibroblasts and myometrial smooth muscle cells. The glandular epithelium of the endometrium did not develop nuclear staining until 5-7 days of P withdrawal, coincident with a 10-fold increase in the mitotic index of the epithelium of the upper zones. Thus, the increase in endometrial ER levels that occurred during the first 5 days of an induced luteal-follicular transition took place almost exclusively in stromal fibroblasts.     

Immunocytochemical localization of estradiol and progesterone receptors in the monkey ovary throughout the menstrual cycle

Both estradiol and progesterone may act locally to modulate ovarian function in various species. This study examined the distribution of estradiol and progesterone receptors (ER and PR, respectively) within the primate ovary throughout the menstrual cycle. Ovaries were collected from rhesus or cynomolgus monkeys during the early, mid-, and late (n = 3-6/stage) follicular and luteal phases of the cycle. The tissues were processed for indirect immunocytochemical localization of receptors with specific monoclonal antibodies against ER (H222 and D75) and PR (JZB39). Specific immunocytochemical staining, as determined by comparing adjacent tissue sections incubated with either receptor antibodies or a nonspecific antibody, was exclusively nuclear. Both ER and PR were localized in the germinal epithelium of ovaries at all stages of the cycle. ER was not detected in any other ovarian structure (i.e. stroma, follicles, interstitial tissue, or corpora lutea) regardless of the stage of development. However, ER was detected in other estrogen-responsive tissues, e.g. the oviduct of the monkey and corpora lutea of the pseudopregnant rabbit. In the monkey ovary, PR was detected in stromal and interstitial tissues as well as theca interna and externa of healthy and atretic follicles at all stages of the cycle. The granulosa cells of some primordial and primary follicles demonstrated staining for PR. However, the granulosa layer of follicles that developed beyond the primary stage were consistently negative for PR. Only the granulosa layer of large preovulatory follicles that showed signs of luteinization after the LH surge showed staining for PR equivalent to that in the theca. Monkey corpora lutea exhibited specific nuclear staining for PR. Moreover, the percentage of receptor-positive nuclei in the corpus luteum varied (P less than 0.05) between the early (28 +/- 3%), mid (48 +/- 1%)-, and late (4 +/- 2%) luteal phase of the cycle. Nonfunctional (serum progesterone less than 0.5 ng/ml) regressing corpora lutea did not exhibit for staining for PR. Luteal cells that were PR positive also contained histochemically detectable 3 beta-hydroxysteroid dehydrogenase. These data are consistent with the concept of a receptor-mediated autocrine or paracrine role for progestins, but not estrogens in the gametogenic and endocrine functions of the primate ovary throughout the menstrual cycle.     

Differences in the developmental patterns of somatotrophic and lactogenic receptors in rabbit liver cytosol

These studies have examined the ontogeny of specific GH- and PRL-binding proteins in rabbit liver cytosol across the fetal, early neonatal, and adult periods. The precise hormonal specificity of binding of the somatotropic/lactogenic ligand, [125I]human GH, was determined by displacement with monoclonal antibodies against either rabbit mammary gland PRL receptors or liver GH receptors. The developmental changes were evaluated by gel filtration chromatography, which allowed a measure of both the extent of binding and the molecular size (Mr). Scatchard analysis indicated that fetal liver cytosol contained mostly high affinity PRL receptors (Ka, 13.78 +/- 0.98 nM-1; capacity, 127 +/- 24.0 fmol/g tissue; mean +/- SEM; n = 5) and was low in GH-specific binding. This contrasts markedly with adult liver cytosol, which is a rich source of GH receptors (Ka, 2.44 nM-1; capacity, 20,765 fmol/g tissue), but is low in PRL-specific binding. Despite the deficiency of GH receptors in fetal liver, an abundant receptor-like GH-binding protein was present in fetal serum. Of several fetal tissue cytosols examined, only the placenta contained significant GH-specific binding; no tissues other than liver contained PRL-specific binding. After parturition PRL receptors in liver cytosol increased and predominated up until day 3 (Ka, 27.97 +/- 6.27 nM-1; capacity, 495 +/- 95.09 fmol/g tissue; n = 7), a period during which GH-specific binding was increasing only slightly. By day 6 a striking switch-over occurred, and GH receptors, which had a 4-fold lower affinity, became predominant (Ka, 6.89 +/- 0.63 nM-1; capacity, 600 +/- 47 fmol/g tissue; n = 5), while PRL-specific binding fell dramatically to levels observed in adult liver cytosol. After day 6 GH receptors increased steadily, reaching the high levels observed in adulthood by 2 months (Ka, 3.95 nM-1; capacity, 16,300 fmol/g tissue; n = 2), while PRL-specific binding appeared to change little. Structural and immunological analyses of the cytosolic GH and PRL receptors in the fetal/early neonatal period revealed similarities with the adult liver cytosolic GH receptor and mammary gland cytosolic PRL receptor, respectively. The increase in GH receptors on day 6 was clearly illustrated by cross-linking studies which showed the emergence of a GH-specific binding protein structurally distinct from PRL-specific binding proteins. These studies have demonstrated that in the rabbit major changes occur in the GH/PRL receptor profile during the early period of growth and suggest that important developmental changes occur in the requirement for GH and/or PRL action during this period.     

Cell-free interaction of the estrogen receptor with mouse uterine nuclear matrix: evidence of saturability, specificity, and resistance to KCl extraction

An integral part of the mechanism of estrogen action is the interaction of estrogen receptor (ER) complexes with specific nuclear acceptor sites to effect alterations in genomic expression. The localization of nuclear acceptor sites has been in question, but an increasing body of indirect evidence implicates the nuclear matrix. To assess the binding characteristics of [3H]estradiol-receptor complexes (3HER) to nuclear matrix, ER from ovariectomized mice was partially purified by ammonium sulfate precipitation and incubated under cell-free conditions with mouse uterine nuclear matrix at 4 C. The binding capacity of the nuclear matrix was determined to be 36.4 +/- 5.7 fmol/100 micrograms DNA, with a Kd of 0.23 +/- 0.03 nM. Binding to nuclear matrix sites was specific, as determined by the ability of increasing concentrations of unlabeled ER complexes to inhibit binding of 3HER. Spleen, used as a nontarget tissue, contained fewer binding sites (n = 4.07 fmol/100 micrograms DNA) than matrix from liver (n = 14.2). The binding affinity was the same in all three tissues. Injection of animals with estradiol before death was associated with loss of assayable nuclear matrix binding sites, implying occupancy of sites by ER in vivo. Unbound receptor (R) also demonstrated the ability to bind to uterine matrix (n = 40.2 +/- 2.7 fmol/100 micrograms DNA; Kd = 0.26 +/- 0.05 nM) as well as to competitively inhibit the binding of 3HER complexes. However, heat-inactivated receptor displayed no binding or competing activity, nor did the progesterone receptor. The two forms of the receptor can be functionally distinguished by extraction with 0.6 M KCl; 43% of ER, but no R, were resistant to KCl extraction. These results indicate that nuclear acceptor sites are associated with the nuclear matrix. Furthermore, these sites demonstrate the criteria expected of specific binding sites, i.e. high affinity, limited capacity, hormone receptor, and relative tissue specificity. The apparent association of uncomplexed receptor to nuclear acceptor sites may explain the uterine tissue nuclear localization of ER in the absence of hormone.     

Estrogen and progestin receptors and aromatase activity in rhesus monkey prostate

We examined nuclear estrogen receptors (ER) and progestin receptors (PR) in the rhesus monkey prostate. Tissues were obtained from six intact males, five untreated castrates, six castrates treated with testosterone (T) for 6 weeks, and four castrates treated with estradiol (E2) for 6 weeks. Samples of the caudal lobe were either assayed biochemically for ER or stained immunocytochemically (ICC) with monoclonal antibodies against the ER or PR. Prostates from untreated castrates had significantly more ER than tissues from intact or T-treated castrates. In E2-treated castrates, ER number increased compared to that in intact and T-treated castrates. With ICC, ER was found only in the nuclei of the fibroblasts and smooth muscle cells of the stroma, not the glandular, ductal, or urethral epithelial cells. Intact and T-treated castrates had a very small number of positive cells, while untreated and E2-treated castrates had a significantly increased number of positive ER cells in the fibromuscular stroma. With ICC, PR was absent in intact or T-treated animals and barely evident in untreated castrates, but was significantly increased in the fibromuscular stroma of E2-treated castrates. The histological preparations indicated there was no stromal hypertrophy in the E2-treated castrates, but the E2 treatment did cause dilation of the glandular acini. Aromatase activity was measured in prostatic microsomes with a radiometric assay. Levels were low (3-30 fmol/h.mg protein) compared to those in brain and placenta, and no differences in activity were seen between castrates and T-treated castrates. Our data demonstrate that androgens can suppress the level of nuclear ER in the rhesus prostate, and that E2 treatment of castrates can induce PR in the same cells as those that contain ER. Thus, under appropriate conditions, estrogens could affect the rhesus prostate through a receptor-mediated pathway.     

Effects of aging on cytochrome b5 expression in the human adrenal gland

CONTEXT: Aging in humans is characterized by a selective decline in circulating levels of adrenal androgens. The results of in vivo studies are suggestive of reduced adrenal 17,20-lyase activity in aging men and women. OBJECTIVE: We sought to determine whether there are changes in the distribution and/or expression of cytochrome B5 (CytB5), an accessory protein important in the regulation of 17,20-lyase activity, in the adrenals of aging humans. DESIGN: Comparison between younger and older adrenal glands. SETTING: The study was conducted in a University Center. PATIENTS OR OTHER PARTICIPANTS: Adrenal glands obtained at autopsy after sudden death as a result of trauma from 46 young (age 20-40 yr) and 26 older (age 50-91 yr) humans were obtained and fixed within 24 h postmortem. INTERVENTIONS: Paraffin sections were stained with hematoxylin and eosin and also were subjected to immunohistochemical staining for CytB5. All sections were quantitatively evaluated using an image capture and analysis program and qualitatively evaluated with respect to staining intensity. MAIN OUTCOME MEASURES: To determine whether there are any changes in CytB5 distribution in the adult human adrenal cortex during the aging process using qualitative and quantitative analysis with respect to age, gender, race, and postmortem interval. RESULTS: CytB5 immunoreactivity was found in cells that corresponded to those of the zona reticularis. The percentage of the adrenal cortex immunoreactive for CytB5 decreased with aging (38.6 +/- 7.6% for young and 30.1 +/- 5.9% for older, mean +/- sd; P < 0.0001) as did the percentage of adrenocortical tissue comprising the zona reticularis (36.8 +/- 10.8% for young and 27.2 +/- 5.9% for older; P < 0.001). However, there was no apparent change in the staining intensity of CytB5 among those cells that were immunopositive for this factor with aging. CONCLUSIONS: There appears to be a reduction in the proportion of the adrenal cortex that expresses CytB5 with aging, and this likely corresponds to a shrinkage of the zona reticularis. The mechanism and cause for this cortical regression are unknown.     

Immunocytochemistry versus binding assays of the estrogen receptor in the reproductive tract of spayed and hormone-treated macaques

We used immunocytochemistry (ICC) with monoclonal antibodies to the estrogen receptor (ER) to localize ER in the oviducts, uteri, and cervix of untreated, estrogen-treated, and estrogen-progestin-treated spayed macaques. We also used binding assays with labeled estrogens to quantify nuclear and cytosolic ER levels in parallel samples of the same tissues. In untreated spayed animals, cytosolic ER levels were much higher than nuclear ER levels, but all specific staining was nuclear. After treatment for 14 days with estradiol (E2), the degree of staining for ER in cell nuclei in the oviduct, cervix, and endometrium had increased, and there were significant increases in both nuclear and cytosolic ER levels. In the myometrium, ER levels and ICC staining of nuclei increased minimally with E2 treatment. In animals treated for 2 weeks with E2 followed by 2 weeks with E2 and progesterone (P; sequential P treatment) the degree of nuclear ER staining in the oviduct, endometrium, and cervix greatly decreased, and cytosolic and nuclear levels of ER declined significantly. In the myometrium of such animals there was a minimal decrease in the degree of staining and a nonsignificant decline in cytosolic and nuclear ER levels. Sequential P treatment reduced the degree of nuclear staining in the oviduct and endometrium below that found in spayed animals; however, such treatment only lowered the amount of cytosolic, not nuclear, ER significantly below spayed levels in those same tissues. Some animals were treated sequentially with P and sampled 1, 3, 12, and 24 h after the onset of P treatment. By 1 h, nuclear ER levels in the endometrium were significantly suppressed, but cytosolic levels were not lowered until 3 h of treatment; ICC staining was also not substantially reduced until 3 h of P treatment. In the oviduct, nuclear ER levels were significantly reduced by 1 h of P treatment, but cytosolic levels were not lowered until after 12-24 h of P treatment; the degree of nuclear staining in the oviduct was also not substantially reduced until 12-24 h of P treatment. In myometrium, there was no significant decline in ER in nuclear or cytosolic fractions or any substantial decrease in the degree of nuclear staining at any time during this treatment. These observations suggest that the ER detected by ICC in the nuclei of target cells in frozen sections represents the total ER detectable by binding assays in cytosolic and nuclear fractions.(ABSTRACT TRUNCATED AT 400 WORDS)     

Estrogen elicits cortical zone-specific effects on development of the primate fetal adrenal gland

In the present study, we determined whether endogenous estrogen, the levels of which increase with advancing pregnancy, regulates growth and development of the baboon fetal adrenal cortex. Fetal adrenal glands were obtained at mid- (d 100) and late (d 165, term is 184 d) gestation from untreated baboons and on d 165 from animals in which endogenous estrogen production was suppressed by administration of aromatase inhibitor CGS 20267 between d 100 and 165. Volumes of the respective cortical zones were determined by zone-specific immunocytochemical staining of steroidogenic enzymes and image analysis. Fetal adrenal weight and volume increased (P < 0.01) 3-fold between mid- and late gestation and an additional 70% (P < 0.01) by administration of CGS 20267, which decreased (P < 0.001) fetal serum estradiol levels by more than 95%. Mean +/- se volume (x10(-10) mum(3)) of the fetal cortical zone increased from 3.45 +/- 0.28 at midgestation to 6.64 +/- 0.69 at late gestation in untreated baboons and to 12.55 +/- 0.99 (P < 0.01) in baboons in which estrogen production was suppressed by CGS 20267 administration. The levels of umbilical artery serum dehydroepiandrosterone sulfate, which is secreted primarily by the fetal zone, were increased almost 3-fold (P < 0.01) by administration of CGS 20267. Concomitant administration of CGS 20267 and estradiol returned fetal cortical zone volume and serum dehydroepiandrosterone sulfate levels to normal. In contrast to the effect of estrogen deprivation on the fetal zone, the volumes of the definitive and transitional zones in untreated baboons late in gestation (3.18 +/- 0.63 and 2.62 +/- 0.43, respectively) and levels of fetal serum cortisol, a steroid secreted from the transitional zone, were not altered by estrogen suppression. The changes in fetal zone growth were not associated with alterations in fetal pituitary proopiomelanocortin mRNA levels. We propose that estrogen acts directly on the fetal adrenal cortex to selectively repress the morphological and functional development of the fetal zone, potentially as a feedback system to maintain physiological secretion of estrogen precursors and thus placental estrogen production to promote normal primate fetal and placental development.