Development of monoclonal antibodies against human CYP11B1 and CYP11B2

1. The final enzymes in the biosynthesis of aldosterone and cortisol are by the cytochrome P450 CYP11B2 and CYP11B1, respectively. The enzymes are 93% homologous at the amino acid level and specific antibodies have been difficult to generate. 2. Mice and rats were immunized with multiple peptides conjugated to various immunogenic proteins and monoclonal antibodies were generated. The only peptide sequences that generated specific antibodies were amino acids 41-52 for the CYP11B2 and amino acids 80-90 for the CYP11B1 enzyme. 3. The mouse monoclonal CYP11B2-41 was specific and sensitive for use in western blots and produced specific staining of the zona glomerulosa of normal adrenal glands. The rat monoclonal CYP11B1-80 also detected a single band by western blot and detected only the zona fasciculata. Triple immunofluorescence of the adrenal demonstrated that the CYP11B1 and the CYP11B2 did not co-localize, while as expected the CYP11B1 co-localized with the 17α-hydroxylase.

Heterogeneous levels of oxidative phosphorylation enzymes in rat adrenal glands

Mitochondria are organelles that produce ATP and reactive oxygen species, which are thought to be responsible for a decline in physiological function with aging. In this study, we morphologically and biochemically examined mitochondria in the rat adrenal gland. Immunohistochemistry showed that the rank order for intensity of immunolabelling for complex IV was zona reticularis > zona fasciculata >> adrenal medulla, whereas for complex V α and β subunits, it was zona fasciculata > zona reticularis and adrenal medulla. The immunolabelling for complex I was homogeneous in the adrenal gland. The difference in immunolabelling between complexes I and IV indicates that the ratio of levels of complex I to that of complex IV in the zona reticularis was smaller than that in the zona fasciculata and the adrenal medulla. Electron microscopy revealed that aging rats had zona reticularis cells with many lysosomes and irregular nuclei. The result suggests that the level of proteins involved in oxidative phosphorylation is coordinated within the complex, but differs between the complexes. This might be responsible for degeneration of zona reticularis cells with aging.

Modulation of Zn-induced hyperinsulinemia/insulin resistance in Wistar rat fed modified poultry egg(psi)

Excessive bioavailability of Zn causes Cu and Mg deficiencies resulting in hyperglycemia and hyperinsulinemia/insulin resistance. These defects may ameliorate if the ionic imbalance in them is corrected. In view of this, three groups of rats were included in this study. Initially, they were fed on semi-synthetic equicalories basal diet containing 20 mg Zn (control, group-I), on 40 mg Zn (group-II) and 80 mg Zn/kg diet (group-III) respectively for 3 months. Thereafter, half of the rats in group-II and III were shifted on Cu and Mg enriched modified poultry egg (ME(Psi)) mixed diets (groups-IIME and IIIME) while the remaining were continued to feed on their respective diets for another 3 months completing a total of 6 months. Hyperglycemia, hyperinsulinemia, hypercortisolemia, hyperzincemia, hypercupremia and hypermagnesaemia with corresponding increase of lipid droplets in the zona fasciculate of adrenal cortex and reduction in liver glycogen content in rats of groups-II and III were recorded. These changes were linked with a rise in Zn and fall in Cu and Mg in their liver. The addition of ME(Psi) in their diets led to fall of Zn and rise in liver Cu and Mg, and fall in serum Zn, Cu and Mg resulting in the improvement of glucose disposal, increase in insulin sensitivity, reduction in lipid droplets in zona fasciculate and increase in glycogen content in the liver approaching closer to the control group-I. The data suggest that these ME(Psi) can serve as non-pharmacological dietary supplement to prevent insulin resistance/hyperinsulinemia in populations who are at higher risk of diabetes mellitus either due to their genetic predisposition of excessive absorption and retention of Zn or due to higher Zn content in the food chain.

NADPH production by the pentose phosphate pathway in the zona fasciculata of rat adrenal gland

Biosynthesis of steroid hormones in the cortex of the adrenal gland takes place in smooth endoplasmic reticulum and mitochondria and requires NADPH. Four enzymes produce NADPH: glucose-6-phosphate dehydrogenase (G6PD), the key regulatory enzyme of the pentose phosphate pathway, phosphogluconate dehydrogenase (PGD), the third enzyme of that pathway, malate dehydrogenase (MDH), and isocitrate dehydrogenase (ICDH). However, the contribution of each enzyme to NADPH production in the cortex of adrenal gland has not been established. Therefore, activity of G6PD, PGD, MDH, and ICDH was localized and quantified in rat adrenocortical tissue using metabolic mapping, image analysis, and electron microscopy. The four enzymes have similar localization patterns in adrenal gland with highest activities in the zona fasciculata of the cortex. G6PD activity was strongest, PGD, MDH, and ICDH activity was approximately 60%, 15%, and 7% of G6PD activity, respectively. The K(m) value of G6PD for glucose-6-phosphate was two times higher than the K(m) value of PGD for phosphogluconate. As a consequence, virtual flux rates through G6PD and PGD are largely similar. It is concluded that G6PD and PGD provide the major part of NADPH in adrenocortical cells. Their activity is localized in the cytoplasm associated with free ribosomes and membranes of the smooth endoplasmic reticulum, indicating that NADPH-demanding processes related to biosynthesis of steroid hormones take place at these sites. Complete inhibition of G6PD by androsterones suggests that there is feedback regulation of steroid hormone biosynthesis via G6PD.

[Ultrastructural characteristics of lipid droplets in rat adrenocortical cells from zona fasciculata-reticularis]

One day cultured adrenocortical cells from zona fasciculata-reticularis were used in morphological experiments. The electron-microscopic and imaging analysis methods were used for the investigation of intracellular ultrastructure of these cells. Experiments which conducted in control conditions, allowed us to allocate three types of cells which differed by ultrastructure of the mitochondria, lipid droplets, smooth endoplasmic reticulum and dense bodies. It was shown that lipid droplets with light and homogeneous matrix, met more often in cells with morphological attributes of high intensity of steroidogenesis. On the contrary, lipid droplets, with dark matrix and a dense edging, met more often in cells which having morphological attributes-of low intensity of steroidogenesis. Ionophore A23187 or adrenocorticotropic hormone application resulted in reduction of lipid droplets diameter and in simultaneous increase in density of their arrangement in cytoplasm. At the same time droplet matrix became light and homogeneous in all cells. Thus, the ultrastructure of lipid droplet matrix is sensitive to change of calcium ions concentration in cytoplasm. Processes which result in change of lipid droplet ultrastructure, probably, are connected to steroidogenesis, nevertheless, this question requires further investigation. The lipid droplets" ability to form morphological contacts with smooth endoplasmic reticulum, mitochondria, nuclear and cellular membranes is also discussed.

[Structure of the adrenal gland in rat strain with hereditary stress-induced arterial hypertension nursed by Wistar dams]

The comparative investigation of the adrenal structure in two groups of rats of Inherited Stress-Induced Arterial Hypertension (ISIAH) strain was conducted. The animals of the first group were nursed by normotensive Wistar rats, while those of the second (control) group were reared by their own mothers. The volume of the adrenal medulla in rats of the first group was found to exceed that in the second group. In the adrenal zona glomerulosa and zona fasciculata of 3-week-old rats of the first group parenchymal-stromal ratio and the average volume of adrenocorticocytes were lower than those in the animals of the second group. This was accompanied by a decrease in mitochondrial volume density and accumulation of lipid droplets in the cytoplasm, indicating a reduction of hormone-producing activity of endocrinocytes in the animals the first group as compared to controls. By 6 month of age, arterial pressure and quantitative parameters of adrenal medulla and cortex in the animals the first group were..... as compared to those in the second group. It is suggested that the nursing of ISIAH rat pups by normotensive Wistar dams had modulating effect on the adrenal structure and therefore on arterial hypertension development.

Hormone-sensitive lipase deficiency in mice causes lipid storage in the adrenal cortex and impaired corticosterone response to corticotropin stimulation

Hormone-sensitive lipase (HSL, E.C.3.1.1.3, gene designation Lipe) is reportedly the major cholesteryl esterase of adrenal cortex. Because of the potential importance of cholesteryl ester hydrolysis in steroidogenesis, gene-targeted HSL-deficient mice were assessed for adrenal cortical morphology and function. Compared with control animals, HSL deficiency results in a marked accumulation of lipid droplets both in zona glomerulosa and zona fasciculata. In the zona fasciculata, lipid accumulation was observed progressively from the outer to the inner regions, culminating near the corticomedullary junction with the formation of syncytial-lipoid structures having the appearance of degenerative cells. These morphological changes did not significantly alter the basal levels of circulating corticosterone, but following ACTH stimulation, corticosterone levels were decreased (P < 0.001). The observation of normal basal corticosterone and aldosterone levels demonstrates that some free cholesterol for steroid synthesis can be produced independently of HSL. Taken together, these results indicate that HSL-deficient mice accumulate lipid droplets in such a way as to impair acute ACTH stimulation of corticosterone secretion. Such observations are also found in some forms of congenital adrenal hyperplasia. By extension, HSL deficiency may be a cause of hereditary adrenocortical hypofunction in humans.

[The cell-cell interaction mechanisms and specific reactions in zona fasciculata cells from the adrenal gland]

It seems that the particular intermediary disposal of zona fasciculata in the cortical ensemble of the adrenal gland is not insignificant, especially for the variability and for the glandular activities. Because of its specific cellular arrangement, displaying both positional and dimensional uniformity; it can be considered like a real islet of orderly cordonal symmetric tissue between two other cortical zones which present instead a very irregular cellular disposal. Distinct capsular fibrillar elements inserted around the cells and especially around small calibre vascular structures from zona fasciculata, are directly involved in the distribution of the secretory products. The concentration of the lipidic components is always more important at this cortical level than anywhere else in the whole adrenal gland, probably in connecting with the microsystem of channels from the entire surface of the zona fasciculata cells.

Time-dependent changes in adrenal cortex ultrastructure and corticosterone levels after noise exposure in male rats

In response to a stressful stimulus, there is a marked activation of the hypothalamic-pituitary-adrenal axis leading to a release of adrenocorticotropic hormone. This, in turn, acts on the zona fasciculata of the adrenal cortex to increase corticosterone plasma levels. Given the frequency of chronic intermittent noise exposure in man, we selected loud noise to evaluate concomitant changes in the ultrastructure of the adrenal cortex and corticosterone release. Following chronic (21 days, 6 h per day) loud white noise exposure (100 dBA, 0-26 KHz), we found the zona fasciculata to be most sensitive to time-dependent ultrastructural changes. These consisted of modifications in cell compartments involved in hormone synthesis and release. On the other hand, we found a progressive increase in corticosterone plasma levels which reached a plateau 9 days after noise exposure. The significance of these changes, in relation to phenomena like sensitization to repetitive stress, are discussed. Furthermore, the present data suggest that chronic loud noise exposure might potentially lead to endocrine dysfunctions.

Comparative stereological studies on zonation and cellular composition of adrenal glands of normal and anencephalic human fetuses. II. Cellular composition of the gland

In our previous paper (Bocian-Sobkowska et al., 1997) we demonstrated a striking difference in development of zonation in adrenals of normal and anencephalic human fetuses. The purpose of the present study was to characterize, by means of stereology, the cellular composition of developing adrenals in the same case. Studies were performed on 11 pairs of adrenal glands from normal fetuses and 10 from anencephalic fetuses. In the studied period of development (24 to 39 weeks of intra-uterine life) the average volume of cells in normal glands increased as follows: zona glomerulosa (ZG) from 355 to 870 microns3; zona fasciculata (ZF) from 779 to 1200 microns3; fetal zone (FZ) from 2004 to 2380 microns3: and medulla (M) from 600 to 970 microns3. In anencephalic fetuses, the appropriate values were: ZG-380-680 microns3; ZF-460-680 microns3; FZ-1820-1680 microns3; and M-870-1400 microns3. At the end of the studied period the number of ZG cells in normal fetuses was two fold higher than in anencephalics, ZF cells-6-fold and in FZ-5-fold higher, while in the M the number of cells was nearly equal in both groups. During the whole investigated period of intra-uterine development the total number of adrenocortical cells in normal glands increased ca 2.5-fold, while in anencephalic glands only ca 0.5-fold, reaching at the end ca 40% of normal value. In both normal and anencephalic adrenals the number of ZG and M cells was highly correlated with ZG/M cell ratio, being slightly higher in normal glands. No such relation was demonstrated for cells of the remaining adrenocortical zones.

Cytosolic and mitochondrial proteins as possible targets of cycloheximide effect on adrenal steroidogenesis

It is well accepted that protein(s) with a short half-life are required in the pathway leading to steroid synthesis following stimulation by trophic hormones. A correlation between the disappearance of several proteins in different subcellular compartments and the inhibition of steroid synthesis produced by cycloheximide (CHx) has also been shown. In the present report we describe the effect of CHx in the stimulation of steroid synthesis using a cell-free assay. Mitochondrial progesterone (P4) production was studied by recombination of the different subcellular fractions of adrenal zona fasciculata and determined by radioimmunoassay. Soluble factors from ACTH-treated adrenals produced a four-fold stimulation of mitochondrial steroidogenesis (3.0 +/- 0.6 vs. 13.3 +/- 0.5 ng P4/tube for control and ACTH-treated adrenals respectively). Mitochondria obtained from CHx-ACTH-treated adrenals fail to respond to soluble ACTH-dependent factors. A permeable analogue of cholesterol (22(R)-OH cholesterol) could overcome the inhibition imposed by CHx, confirming the role of mitochondrial proteins in intramitochondrial cholesterol transport. The treatment of the adrenals with CHx 10 minutes before ACTH administration abolished also the stimulation induced by the cytosol on control mitochondria (2.6 +/- 0.5 vs. 13.0 +/- 1.0 ng P4/tube for CHx-ACTH-treated cytosol vs. ACTH-treated cytosol). Arachidonic acid (AA) added to CHx-ACTH-treated cytosol subdued this inhibition (10.3 +/- 1.2 ng P4/tube). CHx treatment had no effect on the stimulation by ACTH of the cAMP-dependent protein kinase. These results indicate the involvement of a cycloheximide-sensitive protein in the release of AA in adrenal steroidogenesis.

Apolipoprotein A-I is required for cholesteryl ester accumulation in steroidogenic cells and for normal adrenal steroid production

In addition to its ability to remove cholesterol from cells, HDL also delivers cholesterol to cells through a poorly defined process in which cholesteryl esters are selectively transferred from HDL particles into the cell without the uptake and degradation of the lipoprotein particle. The HDL-cholesteryl ester selective uptake pathway is known to occur in human, rabbit, and rodent hepatocytes where it may contribute to the clearance of plasma cholesteryl ester. The selective uptake pathway has been studied most extensively in steroidogenic cells of rodents in which it accounts for 90% or more of the cholesterol destined for steroid production or cholesteryl ester accumulation. In this study we have used apo A-I-, apo A-II-, and apo E-deficient mice created by gene targeting in embryonic stem cells to test the importance of the three major HDL proteins in determining cholesteryl ester accumulation in steroidogenic cells of the adrenal gland, ovary, and testis. apo E and apo A-II deficiencies were found to have only modest effects on cholesteryl ester accumulation. In contrast, apo A-I deficiency caused an almost complete failure to accumulate cholesteryl ester in steroidogenic cells. These results suggest that apo A-I is essential for the selective uptake of HDL-cholesteryl esters. The lack of apo A-I has a major impact on adrenal gland physiology causing diminished basal corticosteroid production, a blunted steroidogenic response to stress, and increased expression of compensatory pathways to provide cholesterol substrate for steroid production.

Effects of substance P and its antagonist spantide on corticosterone secretion and cytosolic free calcium concentration of dispersed zona fasciculata-reticularis cells of the rat adrenal cortex

Substance P (SP) did not change basal corticosterone (B) secretion of dispersed zona fasciculata-reticularis cells of the rat adrenal cortex. Conversely, spantide II (SPA), an antagonist of SP receptors, at a concentration 10(-7)/10(-6) M markedly raised it, and the effect was annulled by equimolar concentrations of SP. Both SP and SPA (10(-6) M) increased cytosolic free calcium concentration in our cell preparations; however, the response to SP was immediate, while that to SPA showed a lag-period of 4-5 min. SP concentration-dependently (from 10(-8) M to 10(-5) M) partially inhibited maximally ACTH (10(-8) M)-induced stimulation of B secretion of dispersed cells, and unexpectedly a similar effect was observed after SPA exposure. In light of these findings, the conclusion is drawn that SP, under basal conditions, does not exert a direct modulatory action of B secretion of rat adrenocortical cells. However, the possibility remains to be explored that SP may play a role in quenching, via a receptor-independent mechanism, the exceedingly high glucocorticoid responses to ACTH of rat adrenocortical cells.

Ultrastructural dynamics of mitochondrial morphology in varying functional forms of human adrenal cortical adenoma

Adrenal cortical mitochondria display an extensive capacity to adapt morphologically to the functional state of the adrenal cortical cell. In the present study, we have used transmission electron microscopy to analyze cortical tissues from 3 normal human adrenal glands (zona fasciculata and zona glomerulosa), and from 8 steroid-secreting adrenal cortical adenomas (3 cortisol-producing, 4 aldosterone-producing, and 1 progesterone-producing tumor), correlating both clinical and biochemical features with cellular ultrastructure. The morphology of mitochondria was related to the enzyme activity and steroid-biosynthetic capacity of each tumor. Cells from aldosterone-producing adenomas demonstrated a large number of elongated tubular mitochondria with characteristic bridging of inner membranes, producing a lamellar-type pattern. Cells from cortisol-producing adenomas showed large round mitochondria with vesicular or tubulovesicular inner membranes surrounded by a characteristic dilated smooth endoplasmic reticulum. A highly unusual progesterone-producing adenoma, in which a deficiency of 21 alpha-hydroxylase activity was demonstrated, showed a peculiar type of enlarged lamellar mitochondria with bright inner matrix and a reduced number of inner membranes. Therefore, the ultrastructural characteristics of adrenal cortical mitochondria appear to be potential markers for the differentiation of steroid-producing adenomas. These studies point to the possibility of a broader use of electron microscopy in the study of adrenal tumors.

Adrenomedullin and calcitonin gene-related peptide inhibit aldosterone secretion in rats, acting via a common receptor

Adrenomedullin (ADM) and calcitonin gene-related peptide (CGRP) did not affect either basal or ACTH-stimulated secretion of a1dosterone and corticosterone by dispersed rat capsular and inner adrenocortical cells, respectively. However, both peptides strongly depressed angiotensin-II (ANG- II)-stimulated a1dosterone production by capsular cells, the minimal effective concentration was 10(-7) M. The inhibitory effect of both ADM and CGRP was reversed by CGRP8-37, a specific CGRP1 receptor antagonist; a complete reversal was obtained with a CGRP8-37 concentration of 10(-6) M. Our findings indicate that ADM and CGRP specifically interfere with the intracellular mechanisms transducing the secretagogue signal of ANG-II, and suggest that the ADM effect is mediated by CGRP receptors

Voltage-dependent currents and modulation of calcium channel expression in zona fasciculata cells from rat adrenal gland

1. Whole-cell voltage-activated currents from single zona fasciculata (ZF) cells from rat adrenal glands were studied. T- and L-type Ca2+ currents and a slowly inactivating A-type K+ current were the three major currents observed. 2. In freshly isolated cells, the A-type K+ current and the T-type Ca2+ current were predominant. The A-type current was activated at -50 mV and inhibited by 4-amino-pyridine with a half-maximal block (IC50) at 130 microM while the T-type current was activated at -70 mV and blocked by Cd2+, Ni2+ and amiloride with IC50 values of 24.1, 132.4 and 518.9 microM, respectively. 3. Under current clamp, depolarizing current pulses produced a single Ca2+ action potential with Cs+ in the pipette internal solution. Upon replacement of Cs+ by K+, the half-amplitude width of the action potential was shortened and membrane potential oscillations were seen after the spike. 4. In freshly isolated cells and during the first 24 h after plating, the T-type current was observed in all cells, with L-type current being observed in < 2% of cells, even in the presence of (+)SDZ 202,791, a dihydropyridine Ca2+ channel agonist. With time in culture, the T-type current disappeared, and a high-voltage-activated L-type current became increasingly apparent. In cells tested after > 2 days in culture, (+)SDZ 202,791 potentiated L-type current by 407 +/- 12% and the antagonist (-)SDZ 202,791 blocked this increase. The L-type current was activated between -30 and -20 mV and was sensitive to nitrendipine and omega-conotoxin GVIA. 5. Pre-incubation of cultured ZF cells with adrenocorticotrophic hormone (ACTH) or vasoactive intestinal peptide (VIP) for 3 days resulted in a high, sustained level of expression of T-type current, with a mean amplitude of 34.2 +/- 5.5 pA pF-1 for ACTH-treated cells compared with 3.4 +/- 1.8 pA pF-1 for untreated cells. Cycloheximide strongly inhibited this effect. Neither treatment affected L-type current expression. 6. The expression of both Ca2+ current types was unaffected by pre-incubation with 8-bromo-cAMP or forskolin. The protein kinase A antagonist, H89, did not inhibit the ACTH-induced upregulation of T-type Ca2+ currents. 7. It is concluded that the main voltage-dependent currents involved in cell excitability and steroidogenesis in rat adrenal ZF cells are an A-type K+ current and a T-type Ca2+ current. The physiological role and control of expression of L-type Ca2+ channels in rat ZF cells remain less clear.

Functional implication of autophagy in steroid-secreting cells of the rat

BACKGROUND

Autophagy, while frequently observed in embryonic cells undergoing differentiation and in pathologically altered cells, appears to occur less commonly in normal, fully differentiated cells. Our previous work revealed that the frequency of autophagic activity was rather high in the Leydig cells of rat testes, but the functional significance of autophagy in Leydig cells remains obscure. The purpose of the present study is to investigate the possible role of autophagy in steroid-secreting cells.

METHODS

The autophagic activity was investigated in two steroid-secreting cells, e.g., Leydig cells and adrenocortical fasciculata cells of rats. Cytidine monophosphatase (CMPase) cytochemistry was utilized to show the activity of lysosomal enzymes in autophagosomes. Electron microscopic morphometry was employed to analyze the frequencies of autophagy in the cells of the rats intact or treated with related hormones resulting in a hyper- or hypo-secretion of testosterone and corticosterone.

RESULTS

Autophagy took place in normal steroid-secreting cells with higher frequencies than in many other cells including the tubular cells of kidney and hepatocytes. The large number of autophagosomes or autophagic vacuoles allowed to outline the autophagic process in these cells. The C-shaped double-membrane profiles tending to demarcate a portion of cytoplasm were referred to as pre-autophagosomes. So-called early autophagosomes were the vacuoles enclosed completely by double delimiting membranes, containing normal-looking cellular components. The majority of sequestered organelles appeared to be mitochondria and smooth endoplasmic reticulum. The autophagosomes starting digestion were considered as late autophagosomes or autophagic vacuoles, the indications of which were the destruction of their contents or the presence of lysosomal enzymes demonstrated by a positive CMPase reaction. Residual bodies were frequently observed to be exocytosed. The quantitative assay revealed an alteration of autophagic activity in close relation with steroid-secreting states. The number of autophagosomes was one-fold higher in hyposecreting Leydig cells after 2 days testosterone administration, and three-fold higher in hyposecreting adrenocortical fasciculata cells after one dosage of dexamethasone administration. In addition, the autophagosomes showed a four-fold decrease in hypersecreting Leydig cells stimulated by LRH for 2 days.

CONCLUSIONS

Considering that most of the autophagocytosed organelles were steroid-producing apparatus, we may conclude that, by removing part of steroid-producing organelles, autophagy might play a role in adapting to or even regulating the secretory activity. This hypothesis was strongly supported by the fact that the intensity of autophagy varied in company with the fluctuation of steroid secretion.

Zonal differences in adrenocortical lipid peroxidation: role of alpha-tocopherol

Studies were done to evaluate the relationship between alpha-tocopherol (alpha-T) concentrations and lipid peroxidation (LP) in vitro in microsomal preparations from the inner (zona reticularis) and outer (zona fasciculata plus zona glomerulosa) zones of the guinea pig adrenal cortex. Microsomes were incubated with ferrous ion (Fe2+) to promote free radical production, and alpha-T levels and LP were monitored after various incubation times. alpha-T concentrations were far lower in inner than outer zone preparations and were rapidly depleted from inner zone microsomes by incubation with Fe2+. Coinciding with alpha-T depletion was a large and rapid increase in LP. With outer zone microsomes, alpha-T depletion required more than 30 min, and very little LP was demonstrable during this period. However, once alpha-T depletion occurred, LP was rapidly initiated and reached levels similar to those obtained with inner zone preparations. Inhibition of LP by MnCl2 prevented the Fe(2+)-induced declines in alpha-T in both zones. The results demonstrate the importance of alpha-T as a modulator of adrenal LP and indicate that the zonal differences in LP are largely attributable to the differences in alpha-T concentrations.

The peripheral cytoplasm of adrenocortical cells: zone-specific responses to ACTH

BACKGROUND

Differences in the cytoskeletal protein actin in cells from the zona glomerulosa and zona fasciculata would be of considerable interest because there is persuasive evidence that rat corticosteroids are secreted by mechanisms that are somewhat zone-specific. We have previously shown evidence that actin may be involved in steroid secretion, possibly in connection with changes in adrenocortical microvilli. However, the cells upon which the data were based were not separated according to zone of origin.

METHODS

Immunogold electron microscopy and morphometric procedures were used to determine whether ACTH-induced changes in the peripheral cytoplasm of isolated adrenocortical cells occur in both zona fasciculata and zona glomerulosa cells.

RESULTS

Actin immunoreactivity was more concentrated in the cytoplasm adjacent to the plasma membrane (including the cytoplasm within the microvilli) than it was in the internal cytoplasm in cells from both zones (4-6 times more concentrated in zona glomerulosa cells and 3-6 times more concentrated in zona fasciculata cells). However, the mean aggregate microvillar surface length (microvillar index) of untreated zona fasciculata cells (previously reported (Loesser and Malamed, 1987)) was 23% greater than that of untreated zona glomerulosa cells. Although ACTH (at a maximal steroidogenic concentration) had no effect on the peripheral cytoplasmic actin concentration of zona glomerulosa cells, there was a 24% increase in the aggregate microvillar length. In contrast, in zona fasciculata cells, ACTH treatment was accompanied by an increase in peripheral cytoplasmic actin concentration of 58-64% and an increase in aggregate microvillar surface length of 40% (previously reported (Loesser and Malamed, 1987)), almost twice that for zona glomerulosa cells.

CONCLUSION

The results suggest that ACTH-induced hormone release from zona fasciculata cells is mediated by increases in peripheral cytoplasmic actin and aggregate microvillar length; in zona glomerulosa cells such changes are small or absent.

Age-dependent changes in the function and morphology of mitochondria of rat adrenal zona fasciculata

The function and morphology of adrenal zona-fasciculata (ZF) mitochondria were studied in 4-, 10- and 16-month-old rats, since in this species ageing causes a marked decline in glucocorticoid secretion coupled with high levels of circulating ACTH. Dispersed intact ZF cells displayed a significant age-dependent impairment of their basal pregnenolone (PREG) secretion, but isolated ZF mitochondria showed an increased capacity to convert cholesterol to PREG (the first rate-limiting step of steroid synthesis). These data are in keeping with the contention that the age-related deficit of rat ZF secretion is located prior to the activity of intramitochondrial cholesterol side-chain cleaving enzymes (cytochrome-P450scc). Stereology showed a notable age-dependent increase in the number of mitochondria per unit cell-volume, coupled with a marked decrease in their average volume. The width of the mitochondrial intermembrane space remained unchanged, but its average volume strikingly decreased. This last finding fits well with the enhanced capacity of mitochondria to produce PREG, since intermembrane space is an aqueous barrier to the translocation of free cholesterol from the outer membrane to the cristae, where cytochrome-P450scc is located. In conclusion, the hypothesis is advanced that all these age-related functional and morphological mitochondrial changes are an ACTH-dependent compensatory response enabling ZF cells to partially counteract their decreased glucocorticoid secretory capacity, which in turn is due to the impaired utilization of intracytoplasmic stores of cholesterol esters.

Voltage-gated transient currents in bovine adrenal fasciculata cells. I. T-type Ca2+ current

The whole cell version of the patch clamp technique was used to identify and characterize voltage-gated Ca2+ channels in enzymatically dissociated bovine adrenal zona fasciculata (AZF) cells. The great majority of cells (84 of 86) expressed only low voltage-activated, rapidly inactivating Ca2+ current with properties of T-type Ca2+ current described in other cells. Voltage-dependent activation of this current was fit by a Boltzmann function raised to an integer power of 4 with a midpoint at -17 mV. Independent estimates of the single channel gating charge obtained from the activation curve and using the "limiting logarithmic potential sensitivity" were 8.1 and 6.8 elementary charges, respectively. Inactivation was a steep function of voltage with a v1/2 of -49.9 mV and a slope factor K of 3.73 mV. The expression of a single Ca2+ channel subtype by AZF cells allowed the voltage-dependent gating and kinetic properties of T current to be studied over a wide range of potentials. Analysis of the gating kinetics of this Ca2+ current indicate that T channel activation, inactivation, deactivation (closing), and reactivation (recovery from inactivation) each include voltage-independent transitions that become rate limiting at extreme voltages. Ca2+ current activated with voltage-dependent sigmoidal kinetics that were described by an m4 model. The activation time constant varied exponentially at test potentials between -30 and +10 mV, approaching a voltage-independent minimum of 1.6 ms. The inactivation time constant (tau i) also decreased exponentially to a minimum of 18.3 ms at potentials positive to 0 mV. T channel closing (deactivation) was faster at more negative voltages; the deactivation time constant (tau d) decreased from 8.14 +/- 0.7 to 0.48 +/- 0.1 ms at potentials between -40 and -150 mV. T channels inactivated by depolarization returned to the closed state along pathways that included two voltage-dependent time constants. tau rec-s ranged from 8.11 to 4.80 s when the recovery potential was varied from -50 to -90 mV, while tau rec-f decreased from 1.01 to 0.372 s. At potentials negative to -70 mV, both time constants approached minimum values. The low voltage-activated Ca2+ current in AZF cells was blocked by the T channel selective antagonist Ni2+ with an IC50 of 20 microM. At similar concentrations, Ni2+ also blocked cortisol secretion stimulated by adrenocorticotropic hormone. Our results indicate that bovine AZF cells are distinctive among secretory cells in expressing primarily or exclusively T-type Ca2+ channels.(ABSTRACT TRUNCATED AT 400 WORDS)

Voltage-gated transient currents in bovine adrenal fasciculata cells. II. A-type K+ current

In whole cell patch clamp recordings on enzymatically dissociated adrenal zona fasciculata (AZF) cells, a rapidly inactivating A-type K+ current was observed in each of more than 150 cells. Activation of IA was steeply voltage dependent and could be described by a Boltzmann function raised to an integer power of 4, with a midpoint of -28.3 mV. Using the "limiting logarithmic potential sensitivity," the single channel gating charge was estimated to be 7.2 e. Voltage-dependent inactivation could also be described by a Boltzmann function with a midpoint of -58.7 mV and a slope factor of 5.92 mV. Gating kinetics of IA included both voltage-dependent and -independent transitions in pathways between closed, open, and inactivated states. IA activated with voltage-dependent sigmoidal kinetics that could be fit with an n4h formalism. The activation time constant, tau a, reached a voltage-independent minimum at potentials positive to 0 mV. IA currents inactivated with two time constants that were voltage independent at potentials ranging from -30 to +45 mV. At +20 mV, tau i(fast) and tau i(slow) were 13.16 +/- 0.64 and 62.26 +/- 5.35 ms (n = 34), respectively. In some cells, IA inactivation kinetics slowed dramatically after many minutes of whole cell recording. Once activated by depolarization, IA channels returned to the closed state along pathways with two voltage-dependent time constants which were 0.208 s, tau rec-f and 10.02 s, tau rec-s at -80 mV. Approximately 90% of IA current recovered with slow kinetics at potentials between -60 and -100 mV. IA was blocked by 4-aminopyridine (IC50 = 629 microM) through a mechanism that was strongly promoted by channel activation. Divalent and trivalent cations including Ni2+ and La3+ also blocked IA with IC50's of 467 and 26.4 microM, respectively. With respect to biophysical properties and pharmacology, IA in AZF cells resembles to some extent transient K+ currents in neurons and muscle, where they function to regulate action potential frequency and duration. The function of this prominent current in steroid hormone secretion by endocrine cells that may not generate action potentials is not yet clear.

Evidence that an extrahypothalamic pituitary corticotropin-releasing hormone (CRH)/adrenocorticotropin (ACTH) system controls adrenal growth and secretion in rats

Within two weeks, hypophysectomy induced in rats a striking decrease in the level of circulating ACTH (the concentration of which was at the limit of sensitivity of our assay system), coupled with a net reduction in the plasma corticosterone concentration and an evident adrenal atrophy. Zona fasciculata, the main producer of glucocorticoids, was decreased in volume, due to a lowering in both the number and average volume of its parenchymal cells. Subcutaneous ACTH infusion (0.1 pmol.min-1), administered during the last week following hypophysectomy, restored the normal blood level of ACTH and completely reversed all effects of hypophysectomy on the adrenals. Subcutaneous infusion for one week with alpha-helical-CRH or corticotropin-inhibiting peptide (1 nmol.min-1), which are competitive inhibitors of CRH and ACTH, evoked a further significant lowering of plasma corticosterone concentration and markedly enhanced adrenal atrophy in hypophysectomized rats. These findings strongly suggest that an extrahypothalamic pituitary CRH/ACTH system may be involved in the maintenance of the growth and steroidogenic secretory activity of the rat adrenal cortex.

Cytological maturity of zona fasciculata cells in the fetal sheep adrenal following ACTH infusion: an electron microscope study

Electron microscopy was used to assess the cytological maturity of the zona fasciculata cells in the adrenal cortex of fetal sheep at 105 days of gestation, following several ACTH infusion regimes. The aim of this study was to correlate the morphological appearance of the fetal adrenal zona fasciculata cells with the expression of the steroid hydroxylase genes and the fetal plasma cortisol concentrations in a parallel study. Immediately following infusion of ACTH for 24 or 72 h, the zona fasciculata cells at the cortico-medullary junction were more mature than those in the saline-infused controls. When ACTH infusions were withdrawn for 24-72 h prior to the termination of the experiment, the deep cortical cells appeared less mature than those in fetuses which had received ACTH right up until the time of tissue collection. Following ACTH administration, mitochondrial changes preceded changes in the smooth endoplasmic reticulum, and when ACTH was withdrawn, the smooth endoplasmic reticulum responded before the mitochondria. The study demonstrated a correlation between the cytological maturity of the deep zona fasciculata cells and the expression of the genes for the steroidogenic enzymes P-450(17)alpha and P-450scc in the 105-day fetal sheep adrenal following ACTH infusion.

The effects of ageing on the morphology and function of the zonae fasciculata and reticularis of the rat adrenal cortex

The morphological counterpart of the well-known age-dependent marked impairment of glucocorticoid secretion of rat adrenals was investigated by use of morphometric techniques. For this purpose 4-, 8-, 16- and 24-month-old rats were studied. Despite the notable lowering of both basal and ACTH-stimulated production of corticosterone by collagenase-dispersed inner adrenocortical cells, ACTH and corticosterone plasma concentrations displayed significant increases with ageing. Zona fasciculata (ZF) and zona reticularis (ZR) showed a notable hypertrophy in aged rats, which was due to rises in both the average volume and number of their parenchymal cells. The hypertrophy of ZF and ZR cells was in turn associated with increase in the volume of the mitochondrial compartment and proliferation of smooth endoplasmic reticulum, i.e., the two organelles involved in steroid-hormone synthesis. All these morphologic changes, conceivably due to the chronic exposure to high levels of circulating ACTH, are interpreted as a response enabling ZF and ZR to compensate for their age-dependent lowering in glucocorticoid secretion. Stereology also demonstrated that ZF and ZR cells underwent a striking age-related lipid-droplet repletion. Lipid droplets are the intracellular stores of cholesterol esters, the obligate precursors of steroid hormones in rats. This finding is in keeping with the contention that the mechanism underlying the age-dependent decline in rat-adrenal glucocorticoid secretion mainly involves impairments of the utilization of intracellular cholesterol previous to its intramitochondrial transformation to pregnenolone.

ACTH-induced ultrastructural changes in the zona fasciculata of the hamster adrenal cortex. Are intraadrenal thrombi regulators of corticosteroid secretion?

Correlated stereological and functional studies were performed on the effect of massive ACTH doses on adrenal cortex of the female hamster. ACTH resulted in a marked increase in adrenal gland weight at day 6 of treatment followed by a drop at day 9. Stereology showed significant enlargement of the zona fasciculata (ZF) cells with the highest value at day 6 and subsequent drop at day 9 of treatment. This hypertrophy was due to a notable increase in the volume of mitochondrial, SER, Golgi apparatus and lipid droplet compartments. Cortisol secretion by adrenal slices and homogenates was also highest at day 6 of ACTH administration and notably lower at day 9. At day 6 of ACTH treatment in outer ZF thrombi were seen. In their vicinity the subendothelial space was dilated and endothelial cells dissociated from the basal lamina. Numerous erythrocytes were also visible among dissociated ZF cells. At day 9 of experiment in outer part of ZF numerous spaces devoid of parenchymal cells appeared. The earlier authors considered the "empty spaces" or "holes" in hyperstimulated adrenal cortex as a sign of holocrine secretion of steroid hormones. The present findings enable us to introduce a new hypothesis on the development of these spaces. In our opinion in hyperstimulated adrenal cortex numerous thrombi may be formed leading thus to the degeneration of adrenocortical cells. Thus, the appearance of the "empty spaces" or "holes" in the gland is not connected with the holocrine secretion but with the regulation of the number of secretory cells in adrenal cortex by the thrombi-dependent mechanism.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of the hypocholesterolemic drug, 4-aminopyrazolo (3,4-d) pyrimidine (4-APP), on the hamster adrenal cortex. An ultrastructural and functional study

The aim of this study was to gain insight into the effects of 4-aminopyrazolo(3,4-d)pyrimidine (4-APP), a hypocholesterolemic drug, on the adrenal cortex of the hamster, representing an animal species in which steroidogenesis primarily relies on utilization of cholesterol synthesized de novo in the gland. 4-APP administration (1.5 mg/animal day for 3 days) to intact or dexamethasone-suppressed hamsters resulted in a marked proliferation of adrenocortical cells. However, the volume of parenchymal cells was unchanged in intact animals and lowered in the zona glomerulosa (ZG) and zona reticularis (ZR) of dexamethasone-administered hamsters. In both groups of animals, 4-APP strikingly increased the volume of the lipid-droplet compartment and markedly reduced the surface area of smooth endoplasmic reticulum in ZF cells, without significantly affecting the volume of the mitochondrial compartment and the surface area of mitochondrial cristae. These morphologic changes displayed no evident correlation with adrenal cortisol content and secretion. Since most of the 4-APP-induced changes were not prevented by dexamethasone, it seems legitimate to suggest that they could mainly depend on a direct effect of 4-APP on the hamster adrenocortical cells.

Morphometric analyses of adrenal gland growth in fetal and neonatal sheep. III. Volumes of the major organelles within zona fasciculata steroidogenic cells

We have undertaken a morphometric analysis of the distribution patterns of the major subcellular organelles of the zona fasciculata in fetal (53, 100, 130, 144 days) and neonatal (2 days) sheep as they may be expressed as volume densities, volumes per cell, volumes per 100 microns 3 of cytoplasm per cell, and volumes per mm3 of steroidogenic cells per gland. Data obtained indicate that certain of the volume densities and the 3 other volume indicators of the 6 organelles considered change with gestational age. While the volume of mitochondria per cell increased in late gestation because of cellular hypertrophy, the real time volumes of mitochondria per unit volume of cell or gland did not vary significantly during the period of development studied. The volume of the SER, however, changed markedly, being minimal at 100 days fetal development (0.68 gestation) and increasing, probably initially during the 123-130 day (0.84-0.88 gestation) period, until the end of the fetal period (term = 147 days). The SER exhibited the most marked variability in the three volume indicators, the volumes correlating closely with cell size and steroidogenic capability. The RER volumes altered little, decreasing per 100 microns 3 of cytoplasm from mid-gestation, probably as a reflection of the cell maturity state attained. Changes in the distribution of the Golgi apparatus paralleled those of the SER; but the lipid storage droplets were sparse and their volumes constant. In the fetal sheep, the Golgi apparatus appears to be a significant component of the steroidogenic organelle complex, while the lipid droplet compartment does not. Consideration of growth during the 2nd major growth phase of the adrenal cortex (from before 0.85 gestation), as expressed in mitotic events, showed that at 130 days (0.88 gestation) cellular replication was randomly spread through the zona fasciculata, whereas at 144 days (0.98 gestation) mitoses were twice as prevalent in the outer half of that zone as they were in the inner half. At 130 and 144 days, the cells of the outer half of the zona fasciculata contained significantly more smooth endoplasmic reticulum than did those of the inner half. The maturation of the zona fasciculata, which allows the maximal production of cortisol in late pregnancy, thus occurs in a centripetal direction. This may result from the fact that the outer cells of the zona fasciculata are first in contact with the rising levels of ACTH and cortisol, two primary determinants of its growth and differentiation during the last 3 weeks of gestation.

Adrenergic and cholinergic regulation of cortisol secretion from the zona fasciculata/reticularis of bovine adrenal cortex

Inner zone cells, isolated from bovine adrenal cortex, secrete cortisol in response to both adrenergic and cholinergic agonists. The response to adrenaline (and other catecholamines) appears during culture, is evident by 24 h and reaches a maximum by 48-72 h, but is absent in freshly isolated cells. Pre-incubation of cultured cells with adrenaline leads to homologous desensitisation; the possibility that this may explain the absent response in freshly isolated cells is discussed. Cells show a dose-dependent cyclic AMP response but no increased membrane phosphoinositide turnover. In agreement, cortisol secretion is blocked by beta-receptor, but not alpha-receptor, antagonists. Schild analysis established that the response occurs through binding to a beta 1-receptor subtype, consistent with adrenergic innervation as opposed to an effect of circulating catecholamines. In contrast, cortisol secretion to AcCh was present in both freshly isolated cells and those in culture, reaching a maximum by 48-72 h in culture. The response was specifically blocked by muscarinic, but not nicotinic, antagonists. No effect on cyclic AMP formation was observed, but dose-dependent stimulation of phosphoinositide turnover occurred. HPLC analysis of the time-course of appearance of 3H-inositol labelled head groups (from cells pre-labelled with 3H-inositol) confirmed that AcCh activates a phosphoinositidase C. Intracellular Ca2+ oscillations were also measured from fura-2 loaded single cells in response to AcCh. Together with other pharmacological studies, these observations establish that AcCh acts through a M3 muscarinic receptor subtype in these cells. The possible significance of these findings in vivo is discussed.

The effects of monensin on Golgi complex of adrenal cortex and steroidogenesis

The ultrastructural and biochemical changes produced by monensin on zona fasciculata cells of the rat adrenal cortex are described. In this study we used adrenal cells in culture, adrenal slices and the intact animal. Monensin (1 microM) was added to the culture medium containing the cells, and to the incubation medium containing the adrenal slices, and was injected intravenously to the intact animal (0.65 mg/kg body weight). The ultrastructural alterations were similar in the three experimental conditions, and consisted of Golgi complex disorganization with dilated cisternae or large smooth vesicles. Quantitative analysis showed a significant increase of the relative volume of the Golgi area. The biochemical study demonstrated a significant decrease of corticosterone concentrations in culture medium after monensin addition, and in adrenal glands from treated rats. These results showed that monensin alters the fine structure of adrenal cortex Golgi complex and inhibits corticosteroidogenesis, which supports the probable role of the Golgi complex in the regulation of steroidogenesis.

Correlative light, transmission, and high resolution (SE-I) scanning electron microscopy studies of rhesus adrenocortical vascular morphology

A detailed correlative morphologic description using light microscopy (LM), transmission electron microscopy (TEM) and high resolution SE-I scanning electron microscopy (SEM) was conducted on the capillary endothelium of the zona-fasciculata (Z-F) in juvenile male rhesus monkeys. The glucocorticoid synthesis and release phenomena, associated with stress stimulated release of adrenocorticotropic hormone (ACTH) via the hypothalamic-pituitary axis, intimately involves capillaries of the Z-F. A comprehensive study of all the ultrastructural features implicated in the transendothelial uptake of steroidogenic precursors and release of glucocorticoids in perfused rhesus adrenals has not previously been made. This report presents correlative images of transendothelial openings that include previously described single diaphragmed fenestrae and plasmalemma vesicles, and double diaphragmed transendothelial channels. New observations of endothelial cell pockets, tight junctional complexes and membrane filled ghost sacs were recorded from perfused rhesus adrenal. Membranous ghosts associated with adrenocortical endothelium were reported in a previous TEM study of perfused rat, however the potential argument existed that ghosts were artifactual. Their role as steroid hormone releasing structures remains an open question, yet their structural characteristics appear justified based on imaging of identical profiles observed in perfused rhesus adrenocortical specimens. These structural features are considered for the potential of gating and sorting of metabolites, and release of glucocorticoids in response to ACTH stimulated stress events.

Cellular responses of the rat adrenal zona fasciculata to acute ACTH stimulation: a morphometric study

Long-term ACTH-stimulation of steroidogenesis in the rat adrenal cortex results in time-dependent increases in the surface area per cell of smooth endoplasmic reticulum and mitochondrial cristae. As the morphological responses to short-term ACTH stimulation have not been described, we undertook morphometric analyses of the effects of acute (10 min) ACTH stimulation of rat adrenocortical cells in vivo as they may be expressed in the mitochondria and the smooth endoplasmic reticulum. Six young male Wistar rats were allocated to each of four groups: 1. normal controls; 2. ACTH-treated normal rats; 3. Dexamethasone-inhibited; 4. ACTH-treated Dexamethasone-inhibited. As judged by the radio-immunoassay of trunk blood, levels of ACTH, 11-deoxycorticosterone and corticosterone were appropriate to the treatment state. ACTH activation resulted in no changes in the smooth endoplasmic reticulum; but the mitochondrial inter-membrane space was significantly increased over that of the contrasted pair. The inter-membrane space in the dexamethasone-inhibited rats was significantly less than that of all other groups. No responses to ACTH-activation were shown by the intra-cristal or matrix volumes of the mitochondria. The increased inter-membrane space appears to be caused by a decrease in the surface area of the inner mitochondrial membrane. The significance of these intra-mitochondrial changes to the rate-limiting step of steroidogenesis is discussed.

Characterization of the steroidogenic responsiveness and ultrastructure of purified zona fasciculata/reticularis cells from bovine adrenal cortex before and after primary culture

Analysis by electron microscopy indicated that after 3 days of primary culture, purified bovine adrenal zonal fasciculata/reticularis (ZF/ZR) cells showed improved integrity of their ultrastructure, with an increased density of lipid droplets and smooth endoplasmic reticulum. The basal cortisol output was significantly (P less than 0.05) greater on day 3 of culture than for the freshly isolated cells in six out of seven experiments. Similarly, in six experiments with ACTH (1 nmol/l) and five experiments with angiotensin II (10 nmol/l), the stimulated cortisol secretion was significantly (P less than 0.01 for all 11 experiments) higher on day 3 of culture than in freshly isolated cells. No significant increase in cortisol secretion above basal was observed with noradrenaline at any concentration in the freshly isolated cells, whereas a dose-dependent increase in cortisol secretion was observed on day 3 of culture in all of four experiments. These findings were supported by cyclic (c) AMP output measured in one such experiment. Thus the basal cAMP output and that stimulated by ACTH (1 nmol/l) were significantly higher after culture (P less than 0.001, n = five wells for basal comparison; P less than 0.05, n = three wells for ACTH at 1 nmol/l). In agreement with the cortisol results, cAMP production was unaffected by any concentration of noradrenaline in the freshly isolated cells, whereas a dose-dependent rise was found after culture. Angiotensin II at all concentrations had no effect on cAMP production in freshly isolated or cultured cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Isolation and characterisation of calcineurin from adrenal cell cytoskeleton: identification of substrates for Ca2+-calmodulin-dependent phosphatase activity

Ca2+-calmodulin-dependent protein phosphatase activity is found in cytoskeletons of Y-1 mouse adrenal and bovine fasciculata cells. The activity is inhibited by three inhibitors of calmodulin (trifluoperazine, W-7 and pimozide) with EC50 in the low micromolar range. Protein phosphatase activity is inhibited by vanadate, fluoride, Zn2+ and pyrophosphate, stimulated by Mn2+ and found to be tightly bound to the cytoskeleton. Substrates for endogenous phosphatase activity were defined by one- and two-dimensional polyacrylamide gels. Phosphatase activity was seen with proteins that are substrates for both cyclic AMP-dependent and cyclic AMP-independent kinase enzymes. One specific Ca2+-calmodulin-dependent phosphatase, namely calcineurin, was purified to near homogeneity from cytoskeletons of Y-1 cells. The enzyme was found to be a heterodimer (MW 61,000 and 16,000) and the smaller subunit was shown to cross-react with antibodies raised against calcineurin from bovine brain. The purified enzyme catalyzes dephosphorylation of proteins (phosphorylase kinase and casein), phosphoamino acids (tyr greater than thre greater than ser) and a synthetic substrate (p-nitrophenyl phosphate). In addition, a new application of membrane transfer was devised by which the purified enzyme was incubated with a Western blot of cytoskeleton following incubation with [32P]ATP. This method defined four specific substrates of the enzyme (MW 150,000, 55,000, 35,000 and 30,000). Anti-calcineurin revealed that only a single Ca2+-calmodulin-dependent phosphatase is found in adrenal cell cytoskeleton.(ABSTRACT TRUNCATED AT 250 WORDS)

A morphometric study of the reversal of ACTH-induced hypertrophy of rat adrenocortical cells after cessation of treatment

The effect of a prolonged (7-day) ACTH administration on rat zona fasciculata cells and its reversal after cessation of treatment was investigated by morphometry. ACTH treatment caused a notable cell hypertrophy, which was mainly due to the increase in the volume of the mitochondrial compartment and to smooth endoplasmic reticulum (SER) proliferation, and a conspicuous rise in the basal level of corticosterone. After cessation of ACTH administration, rat zona fasciculata cells underwent a time-dependent atrophy, so that after 5 days they resembled those of control animals, and the blood concentration of corticosterone reverted to the base-line value. The cell atrophy was provoked by the decrease in the volumes of the mitochondrial compartment and SER, and was associated with a striking time-dependent accumulation of dense bodies. Stereology demonstrated that during the first two days after ACTH withdrawal the decrease of SER prevailed over that of the mitochondrial compartment, while the reverse occurred during the remaining three days. The increase in the volume of dense-body compartment, though largely due to the accumulation of residual bodies, was mainly coupled with a rise in the volume of the microautophagic-vacuole compartment during the first two days after ACTH cessation and with an increase in that of the macroautophagic-vacuole compartment during the following three days. The hypothesis is advanced that both micro- and macroautophagy play a role in the reversal of ACTH-induced hypertrophy of rat zona fasciculata cells after cessation of treatment, the first process being mainly involved in the elimination of SER, and the second one in the degradation of mitochondria.

Structural and functional alterations in the zona fasciculata of the rat adrenal cortex in obstructive jaundice

This study investigated the effect of experimentally-induced cholestasis in the rat on the structure and function of the zona fasciculata, the glucocorticoid secretory region of the adrenal cortex. Wistar-Furth rats (200-250g) were assigned to three groups: bile duct ligated (BDL), Sham operated (Sham) and unmodified normal control (NC). On day 14, serum bilirubin and liver histology were performed to confirm cholestasis in BDL animals together with basal 24 hour 17-hydroxycorti-costeroid excretion, adrenal histology and zona fasciculata ultrastructure in all experimental groups. Following this laparotomy, structural and functional studies were repeated on day 15 to evaluate the response of the gland to surgically induced stress. Basal 24 hr, 17-hydroxycorticoid steroid excretion was elevated in BDL animals (26.9 +/- 3.2 micrograms/24 hr) with respect to Sham (10.4 +/- 2.3) and NC groups (13.5 +/- 3.2) (p less than 0.05). Adrenal histology and ultrastructural studies demonstrated excessive accumulation of vesicles laden with glucocorticoid biogenic precursors. Following surgical stress 24 hr 17 OH corticosteroid excretion increased in all groups: BDL (31.0 +/- 3.0 micrograms/24 hr) vs Sham (15.6 +/- 1.8) and NC (14.5 +/- 2.4) Moderate alterations in zona fasciculata architecture were seen following surgery in all groups. Cholestasis induces overactivity of the zona fasciculata of the adrenal cortex, and may modify the normal metabolic responses to surgical and other stresses.

Effects of mevinolin, an inhibitor of cholesterol synthesis, on the morphological and functional responses of rat adrenal zona fasciculata to a prolonged treatment with 4-aminopyrazolo-pyrimidine

Rat adrenocortical cells are almost completely dependent upon the continuous supply of cholesterol derived from serum lipoproteins. However, a prolonged (5-day) administration of 4-aminopyrazolo-pyrimidine (4-APP), a potent hypocholesterolaemic drug, though provoking a notable decrease in the intra-adrenal concentration of esterified and free cholesterol, did not significantly affect basal plasma level of corticosterone. Morphometry showed a conspicuous hypertrophy of zona fasciculata cells, coupled with a striking proliferation of smooth endoplasmic reticulum (SER) and peroxisomes and with a profound lipid-droplet depletion. The secretory response of zona fasciculata cells to ACTH was still present, but reduced by half with respect to control rats. The simultaneous administration of mevinolin, an inhibitor of cholesterol synthesis, to 4-APP-treated rats caused an additional drop in the intracellular content of free cholesterol and notably lowered basal plasma corticosterone concentration. Mevinolin magnified the 4-APP-induced zona fasciculata cell hypertrophy, as well as SER and peroxisome proliferation. The secretory response to ACTH was completely suppressed. These data are compatible with the view that the morphological changes, which rat zona fasciculata cells undergo during prolonged hypocholesterolaemia, are the expression of the activation of the endogenous cholesterol synthesis. This compensatory response, enabling zona fasciculata cells to maintain a normal basal rate of hormonal output and to respond (though less efficiently) to their main physiological stimulus, seems to be completely independent of any activation of the hypothalamo-hyphophyseal axis, since dexamethasone/ACTH treated rats were used. The hypothesis is advanced that the mechanism underlying this response may involve the decrease of the intracellular free-cholesterol pool.