Induction of synthesis of cholesterol side chain cleavage cytochrome P-450 by adrenocorticotropin in cultured bovine adrenocortical cells

Cytochrome P450 research and The Journal of Biological Chemistry

In honor of the 100th birthday of Dr. Herbert Tabor, JBC's Editor-in-Chief for 40 years, I will review here JBC's extensive coverage of the field of cytochrome P450 (P450) research. Research on the reactions catalyzed by these enzymes was published in JBC before it was even realized that they were P450s, i.e. they have a "pigment" with an absorption maximum at 450 nm. After the P450 pigment discovery, reported in JBC in 1962, the journal proceeded to publish the methods for measuring P450 activities and many seminal findings. Since then, the P450 field has grown extensively, with significant progress in characterizing these enzymes, including structural features, catalytic mechanisms, regulation, and many other aspects of P450 biochemistry. JBC has been the most influential journal in the P450 field. As with many other research areas, Dr. Tabor deserves a great deal of the credit for significantly advancing this burgeoning and important topic of research.

Effects of chronic manipulation of adrenocorticotropic hormone levels in Chinook salmon on expression of interrenal steroidogenic acute regulatory protein and steroidogenic enzymes

The effects of chronic exposure to adrenocorticotropic hormone (ACTH) or the synthetic glucocorticoid dexamethasone (DEX) on the expression of genes involved in cortisol synthesis were examined using quantitative RT-PCR and immunohistochemistry. Juvenile Chinook salmon were treated with either ACTH via micro-osmotic pumps or with DEX via a lipid-based sustained release vehicle. Plasma cortisol levels were significantly elevated in ACTH-treated fish after 1 day, with a significant reduction in this effect with increasing treatment duration. ACTH also appeared to cause progressive hyperplasia of interrenal cells. Steroidogenic acute regulatory protein (StAR) and cytochrome P450 side chain cleavage enzyme (P450scc) transcripts but not 3β-hydroxysteroid dehydrogenase-isomerase (3β-HSD) or cytochrome P450 11β-hydroxylase (P45011β) transcripts in head kidneys significantly increased after 5 days of ACTH treatment. Significant linear relationships between plasma cortisol levels and transcript levels were identified at day 1 and day 5 for StAR, and day 5 for P450scc. Increased immunoreactivity for P450scc was observed in interrenal cells of ACTH-treated fish after 5 and 10 days. No effect of ACTH on 3β-HSD immunoreactivity was apparent at any time point. P45011β immunoreactivity was more intense after 5 days treatment with ACTH. DEX significantly reduced resting plasma cortisol levels and induced interrenal cell atrophy. Although no significant effect of treatment with DEX was found for any transcript, immunoreactivity for P450scc and P45011β appeared to be reduced. These results indicate that StAR and P450scc are subject to transcriptional regulation by chronic changes in ACTH levels.

Adrenocorticotropin/3',5'-cyclic AMP-mediated transcription of the scavenger akr1-b7 gene in adrenocortical cells is dependent on three functionally distinct steroidogenic factor-1-responsive elements

The akr1-b7 gene encodes a scavenger enzyme expressed in steroidogenic glands under pituitary control. In the zona fasciculata of the adrenal cortex where its expression is controlled by ACTH, AKR1-B7 detoxifies isocaproaldehyde produced during the first step of steroidogenesis. Three steroidogenic factor-1 (SF-1)-responsive elements (SFREs) are contained within the -510/+41 promoter region, which was previously demonstrated to drive gene expression in transgenic mice adrenal cortex. All these sequences bind at least SF-1 in Y1 adrenocortical cell nuclear extracts and can be activated by overexpression of this factor in HeLa cells. However, the three SFREs show distinct properties regarding akr1-b7 promoter activity in Y1 cells. Whereas the proximal -102 SFRE supports basal promoter activity, the -458 bona fide SFRE is essential for both basal promoter activity and cAMP responsiveness, although it is unresponsive to cAMP when isolated from its promoter context. This suggests that SF-1 is not a cAMP-responsive factor per se. The neighboring SFRE at -503 is a palindromic sequence that binds monomeric and heteromeric SF-1 as well as an adrenal-specific complex. Using MA-10 Leydig cells and Y1-10r9 mutant cells, we provide evidence that its activity in adrenocortical cells depends on the binding of the adrenal-specific factor, which is required for basal and cAMP-induced promoter activity. Furthermore, the -503 site has intrinsic cAMP-sensing ability in Y1 cells, which is correlated with increased adrenal-specific complex binding. Collectively, our results suggest that cAMP responsiveness of the akr1-b7 promoter is achieved through cooperation between the adrenal-specific factor bound to the -503 site and SF-1 bound to the -458 site.

Leptin down-regulates the steroid producing system in the adrenal

OB protein leptin inhibits the secretion of cortisol in primary cultures of bovine adrenocortical cells and down-regulates 17alpha-hydroxylase cytochrome P450 mRNA expression. To analyze if leptin regulates other major enzymes involved in adrenal steroidogenesis we tested its effect on mRNA expression for two further key enzymes, C21-hydroxylase (P450C21) and side-chain cleavage enzyme (P450SCC). Cultured bovine cortical cells were stimulated for 24 hours with 10 nM ACTH, with 10 nM ACTH plus 100 ng/ml leptin or left unstimulated as controls. Stimulation with ACTH led to a 1.75-fold increase of P450C21 mRNA and a 3.31-fold increase of P450SCC mRNA compared to unstimulated controls. Addition of leptin led to a reduction of ACTH-stimulated mRNA accumulation of 73% for P450C21 and of 45% for P450SCC. We therefore suggest that leptin reduces cortisol synthesis in the adrenal by down-regulating the steroid producing enzyme cascade in the cortical cell.

Expression of catalytically active human cytochrome p450scc in Escherichia coli and mutagenesis of isoleucine-462

Cytochrome P450scc (P450scc) catalyzes the first step in steroid hormone synthesis, the conversion of cholesterol to pregnenolone. Human P450scc has been poorly studied due to the difficulty of purifying reasonable quantities of enzyme from human tissue. To provide a more convenient source of the human enzyme and to enable structure-function studies to be done using site-directed mutagenesis, we expressed the mature form of human P450scc in Escherichia coli. The expression system enabled us to produce larger quantities of active cytochrome than have previously been isolated from placental mitochondria. The expressed P450scc was purified to near homogeneity and shown to have catalytic properties comparable to the enzyme purified from the human placenta. The mature form of human adrenodoxin was also expressed in E. coli and supported cholesterol side chain cleavage activity with the same Vmax as that observed using bovine adrenodoxin but with a higher Km. Mutation of Ile-462 to Leu in human P450scc caused a decrease in the catalytic rate constant (kcat) with cholesterol as substrate, increased the Km for 22R-hydroxycholesterol, but did not affect the kinetic constants for 20 alpha-hydroxycholesterol. This suggests that Ile-462 lies close to the side chain binding site and that the side chains of cholesterol, 22R-hydroxycholesterol, and 20 alpha-hydroxycholesterol occupy slightly different positions in the active site.

Basal steroidogenic activity of adrenocortical cells is increased 10-fold by coculture with chromaffin cells

Historically, catecholamine-producing chromaffin cells and steroid-producing adrenocortical cells have been regarded as two independent endocrine systems that are united under a common capsule to form the adrenal gland. There is increasing evidence for bidirectional interactions, with regulatory influences of adrenocortical secretory products on adrenomedullary functions and vice versa. However, the direct involvement of chromaffin cells on the regulation and maintenance of cortical function has not yet been demonstrated. Therefore, we analyzed glucocorticoid secretion and P450 messenger RNA (mRNA) expression in bovine adrenocortical cells in cocultures with chromaffin cells compared with those in pure cortical cell cultures. Cortisol release from cortical cells in coculture with chromaffin cells was 10 times as high (mean +/- SEM, 1035 +/- 119%) as that from the same number of isolated cortical cells (100 +/- 11%). By a [3H]thymidine incorporation assay, it was demonstrated that this effect was not due to a higher proliferation rate. Northern analysis revealed an increasing expression of P450(17alpha) mRNA in the coculture from days 1-5, whereas in isolated cortical cells, P450(17alpha) mRNA decreased, leading to a 6-fold difference on day 5. Inhibitors of protein (cycloheximide) or RNA (actinomycin D) synthesis completely annulled the observed increase in cortisol release, indicating that de novo protein synthesis is required for this activation of adrenocortical steroidogenesis. Addition of the cyclooxygenase inhibitor indomethacin reduced the stimulatory effect, suggesting that this stimulation is in part mediated by PGs. Locally produced ACTH, catecholamines, and interleukin-1 accounted for 43% of the effect. Secretory products of chromaffin cells that act in concert are believed to be responsible for the stimulation of steroidogenesis in the coculture. The coculture system is an in vitro model that corresponds to the in vivo situation in the intact adrenal gland, where both endocrine cell systems are in close contact. Our data demonstrate the requirement of intraadrenal cellular communication for the full strength of the adrenocortical hormonal response.

Regulation of cholesterol side-chain cleavage cytochrome P450 in mouse testis Leydig cell line I-10

We have characterized regulation of steroidogenesis in a mouse testis Leydig cell line, I-10. Progesterone secretion was increased in a time- and dose-dependent fashion by 8-Br-cAMP treatment. The amount of cholesterol side-chain cleavage enzyme (P450scc), the first and rate-limiting enzyme for the synthesis of steroids, as detected by immunoblotting, was also increased. The calcium ionophore A23187 decreased the amount of P450scc, but it did not interfere with cAMP stimulation of the accumulation of P450scc. This regulation of P450scc expression by cAMP and A23187 is at the post-transcriptional level because the amount of P450scc mRNA was not affected by either treatment. This result was further confirmed by direct measurement of transcription in the presence or absence of forskolin treatment. I-10, however, supported cAMP-dependent transcriptional activation of the exogenous gene, as shown by the increased expression of a reporter gene under the control of the -600 to -2,500 fragment of the P450scc gene. The ability for transcriptional activation of the exogenous but not endogenous P450scc gene makes I-10 a unique steroidogenic cell line.

In vivo regulation of the steroidogenic activity of rat luteal cells by insulin

The aim of the present study was to determine the long-term effects of insulin treatment on luteal cell function. For this purpose, superovulated prepubertal rats were treated with insulin (group I) or vehicle (group C) for 9 days. Serum progesterone (P4) levels were increased in the insulin-treated group (55 +/- 10 vs 134 +/- 31 ng/ml, P < 0.05). Isolated luteal cells were incubated 3 h, and P4 and 20 alpha-hydroxy-progesterone (20 alpha-OH-P) were measured in the incubation media. A decrease in P4 levels and an increase in 20 alpha-OH-P values [P4 (ng/ml): C = 26.6 +/- 0.3; I = 20 +/- 2; 20 alpha-OH-P (ng/ml): C = 62 +/- 2; I: 120 +/- 7; P < 0.01] were observed in group I. In addition, progestagen (P4 + 20 alpha-OH-P) levels were higher in group I (C = 88 +/- 2; I = 140 +/- 9 ng/ml; P < 0.001). When cytochrome P450scc contents were measured by immunoblotting, a marked increase was observed in luteal cells obtained from group I. LH receptor numbers were decreased in luteal cells isolated from group I (C = 388,834 +/- 14,146; I = 303,057 +/- 13,392 sites/cell; P < 0.001) with a concomitantly diminished LH responsiveness. It is concluded that in vivo treatment of superovulated rats with insulin increases luteal progestagen production by increasing the content of cytochrome P450scc.

Separate induction of the two isozymes of cytochrome P-450(11) beta in rat adrenal zona glomerulosa cells

In the rat adrenal cortex, two isozymes of cytochrome P-450(11) beta (CYP11B1 and CYP11B2) have been identified. They are encoded by two different genes with a homology much higher in their coding than in their 5'-flanking regions. CYP11B1 is found in all the zones of the gland and catalyzes a single hydroxylation of deoxycorticosterone (DOC) in the 11 beta- or the 18-position. CYP11B2 is produced exclusively in the zona glomerulosa and catalyzes all three reactions involved in the conversion of DOC to aldosterone. In vivo and in vitro, the expression of the genes encoding CYP11B1 and CYP11B2 is regulated by two separate control systems which appear to operate both independently and interdependently. In vivo zona glomerulosa expression of CYP11B1 was enhanced by ACTH treatment or potassium depletion and was lowered by potassium repletion. CYP11B2 expression disappeared upon potassium depletion or ACTH treatment, but reappeared during potassium repletion. In vitro, only CYP11B1 activity was detectable and responsive to ACTH treatment in zona glomerulosa cells cultured at a potassium concentration of 6.4 mmol/l. Aldosterone biosynthetic activity and mRNA encoding CYP11B2 could be detected only after at least 1 day of exposure to a high extracellular potassium concentration (> or = 12 mmol/l).

Differential regulation of the CYP11A1 (P450scc) and ferredoxin genes in adrenal and placental cells

The regulation of the genes encoding cholesterol side-chain cleavage enzyme (P450scc) and ferredoxin, two components in the first step of steroid synthetic pathways, was studied by RNA analyses of endogenous and transfected genes. cAMP rather than calcium was the major secondary messenger that stimulated expression of both P450scc and ferredoxin genes in human placental JEG-3 cells. The effect of cAMP on P450scc expression was abolished by cycloheximide in JEG-3 cells, but it was superinduced in mouse adrenal Y1 cells. For ferredoxin expression, both reagents have synergistic effect in Y1 and JEG-3 cells. To test the mechanism of regulation, DNA segments containing regulatory elements of the P450scc and ferredoxin genes were connected to reporter genes and analyzed in cotransfection experiments. The results showed that the proximal cAMP-responsive sequences of both P450scc and ferredoxin genes were stimulated by cAMP early in both Y1 and JEG-3 cells, requiring no new protein synthesis. This indicates a common mechanism for the regulated expression of both genes. P450scc possessed an additional upstream cAMP-responsive sequence that also responded to cAMP induction in a different manner from the proximal element. The presence of additional upstream regulatory elements makes it possible for the P450scc gene to be further regulated.

Expression and transport into mitochondria of bovine cytochrome P-450(SCC) in insect cells using the baculovirus expression system

Bovine cytochrome P-450(SCC) introduced with the baculovirus host vector system was found to be expressed in Spodoptera frugiperda cells. Cell fractionation analysis indicated that the P-450(SCC) expressed as the precursor form was transported into mitochondria and converted to a mature form. However, this form did not exhibit definite activity for cholesterol side chain cleavage. These findings suggest that most of the P-450(SCC) expressed by this system is an inactive protein within mitochondria that is not folded to the conformation of the active enzyme and/or does not incorporate heme appropriately.

Opposite effects of angiotensin-II and corticotropin on bovine adrenocortical cell steroidogenic responsiveness

The long-term effects of angiotensin-II (A-II) and corticotropin (ACTH) on bovine adrenal fasciculata cells (BAC) were studied. Cells were pretreated for 3 days with either A-II or ACTH followed by an examination of the acute steroidogenic response to both hormones as well as the ability to convert several steroid precursors to cortisol and corticosterone. ACTH pretreatment caused a marked increase in cortisol output associated with a decrease in corticosterone secretion in response to both hormones leading to a 50-fold decrease in the corticosterone/cortisol ratio compared to control cells. After incubation with saturating concentrations (5 X 10(-5) M) of 22 R-hydroxycholesterol, pregnenolone or progesterone, ACTH-pretreated cells produced more cortisol than corticosterone whereas the contrary was observed in control cells. However, the conversion of 17 alpha-hydroxyprogesterone and 11-deoxycortisol to cortisol by ACTH-pretreated cells was lower than by control cells. Thus, the main effects of ACTH were a marked increase of 17 alpha-hydroxylase and a small but significant decrease of 21-hydroxylase and 11 beta-hydroxylase activities. A-II pretreatment produced, in a concentration-dependent manner, a down-regulation of its own receptors and homologous and heterologous steroidogenic desensitization. At maximal concentrations (10(-6) M) A-II reduced by 70% its own receptors while the steroidogenic response to A-II and ACTH was reduced by 95% and 75%, respectively. However, the coupling of A-II receptors to phosphoinositide pathway and to Ca2+ influx, as well as its potentiation effect on ACTH-induced cAMP production were similar in control and A-II pretreated cells. Moreover, the conversion of several steroid precursors to corticosterone was similar in control cells and A-II-pretreated cells, whereas the conversion to cortisol was reduced by approximately 30% due mainly to a decrease of 17 alpha-hydroxylase activity. Thus, the marked steroidogenic desensitization induced by A-II is most likely related to some alteration located beyond the activation of the two branches of the phosphoinositide pathway and before the first steps of steroidogenesis.

Multiple steroid hormone levels in depressed patients and normal controls before and after exogenous ACTH

Forty depressed patients and 36 age- and sex-matched controls were given 250 micrograms ACTH1-24 by IV bolus. Plasma steroid hormone levels were measured prior to and 60 min after ACTH administration. The depressed patients had significantly greater cortisol (F), 11-deoxycortisol (S), androstenedione (AD), and 17 alpha-hydroxyprogesterone (17 alpha-OHP) responses (delta; p less than 0.05) and a marginally greater 11 beta-hydroxyandrostenedione (11 beta-OHAD) response (delta; p = 0.091) than the controls. There was no significant difference in the corticosterone (B) response between the two groups. With the exception of 11 beta-OHAD, all the steroid hormones were significantly negatively correlated with age in the controls, but only S and AD marginally demonstrated this relationship in the depressed patients. F, S, AD, 17 alpha-OHP, and B, but not 11 beta-OHAD, were significantly positively correlated with each other in the controls, but only F was significantly correlated with AD in the depressed patients. These data suggest that the hypercortisolemia found in some depressed patients involves increased precursor and metabolite levels both at baseline and in response to exogenous ACTH, compared to controls. Furthermore, variability in these precursors is greater in depressed patients, and their relationship to age is lost. These findings are consistent with the hypothesis that adrenal products other than cortisol also could be related to affective symptoms.

Neurosteroids: biosynthesis, metabolism and function of pregnenolone and dehydroepiandrosterone in the brain

Pregnenolone (P) and dehydroepiandrosterone (D) accumulate in the brain as unconjugated steroids and their sulfate (S) and fatty acid (L) esters. The microsomal acyl-transferase activity is highest in immature (1-3 weeks old) male rats. The immunocytochemical and biochemical evidence for P biosynthesis by differentiated oligodendrocytes is reviewed. The importance of P synthesis for its brain accumulation is assessed by the intracysternal injection of the inhibitor aminoglutethimide. Primary glial cell cultures convert P to 20-OH-P, PL, progesterone, 5 alpha-pregnane-3,20-dione and 3 alpha-hydroxy-5 alpha-pregnane-20-one (Polone). Astroglial cell cultures also produce these metabolites, whereas neurons from 17-day mouse embryos only form 20-OH-P. P and D are converted to the corresponding 7 alpha-hydroxylated metabolites by a very active P-450 enzyme from rat brain microsomes. Several functions of neurosteroids are documented. P decreases in olfactory bulb of intact male rats exposed to the scent of estrous females. D inhibits the aggressive behavior of castrated male mice towards lactating female intruders. The D analog 3 beta-methyl-androst-5-en-17-one, which cannot be metabolized into sex steroids and is not demonstrably androgenic or estrogenic is at least as efficient as D. Both compounds elicit a marked decrease of PS in rat brain. The Cl- conductance of gamma-aminobutyric (GABAA) receptor is stimulated by GABA agonists, an effect which is enhanced by Polone and antagonized by PS. Thus, P metabolites in brain as well as steroids of extraencephalic sources may be involved physiologically in GABAA receptor function. The neurosteroids accumulated in brain may be precursors of sex steroid hormones and progesterone receptors have been localized in glial cells. P and D do not bind to any known intracellular receptor. A heat stable P binding protein has been found in brain cytosol with distinct ligand specificity. A binding component specific for steroids sulfates, including Polone S, DS and PS, in the order of decreasing affinity is localized in adult rat brain synaptosomal membranes. Its relationship to the GABAA receptor is under current investigation.

Mechanism of corticotropin and cAMP induction of mitochondrial cytochrome P450 system enzymes in adrenal cortex cells

We studied the kinetics of corticotropin (ACTH) induction of mitochondrial cytochromes P450scc and P450c11 and their electron transport proteins, adrenodoxin and adrenodoxin reductase, in bovine adrenal cortex cells in primary culture. The mRNA levels of these enzymes increase and reach a peak within 3-12 h after ACTH addition. The protein levels of adrenodoxin reductase and P450scc show an increase only nearly 24 h after ACTH addition. After ACTH addition, the intracellular level of cAMP reaches maximal levels within 5 min, and then decreases gradually over 60 min. Hence, we examined the effect of a pulse of ACTH or cAMP analogs on enzyme and mRNA levels. Exposure of the cells to ACTH for 1-2 h was sufficient for maximal induction of the enzymes and P450scc mRNA. In contrast, the induction of the enzymes and the mRNA by cAMP analogs or forskolin required the continuous presence of these agents for over 12 h. But, these agents stimulated cortisol secretion to the medium quickly, indicating that they can activate some intracellular processes while not showing any effect on enzyme induction. The absence of any effect of prolonged cAMP pulses on enzyme and mRNA levels weakens the previous hypothesis that cAMP is the sole second messenger for the ACTH induction of steroidogenic enzymes in adrenal cortex cells. The inductive ability of a brief pulse of ACTH indicates that ACTH can rapidly initiate a series of reactions that result in enzyme induction many hours later.

Incorporation of steroidogenic pathways which produce cortisol and aldosterone from cholesterol into nonsteroidogenic cells

Cortisol production from cholesterol requires the activity of four steroid hydroxylases: cholesterol side chain cleavage cytochrome P-450 (P-450scc), 17 alpha-hydroxylase cytochrome P-450 (P-45017 alpha), 21-hydroxylase cytochrome P-450 (P-450C21) and 11 beta-hydroxylase cytochrome P-450 (P-45011 beta). We have previously shown that transformed, nonsteroidogenic COS 1 cells derived from monkey kidney are a useful system for expression of various forms of cytochrome P-450. The present study shows that COS 1 cell cultures multiply transfected with six plasmids containing all four steroid hydroxylases, 3 beta-hydroxysteroid dehydrogenase/delta 5----4-isomerase (3 beta HSD) and adrenodoxin produce cortisol and aldosterone when 22(R)-hydroxycholesterol is supplied to the system. When pregnenolone is used as substrate, various intermediate metabolites are detected at different time points further establishing the incorporation of complete functional steroidogenic pathways into the nonsteroidogenic cell cultures. Since the first and the last reactions in these pathways take place in the mitochondrion, the movement of various intermediate metabolites from mitochondrion to endoplasmic reticulum and back to mitochondrion occurs in and between COS 1 cells.

Cholesterol side-chain cleavage activity in the human umbilical cord in vitro

With a view to establish whether cells of the human umbilical cord possess cholesterol side-chain cleavage activity, homogenates of term umbilical cord obtained following spontaneous vaginal delivery from uncomplicated pregnancies (n = 6; 38-40 weeks gestation) were incubated with 26-14C cholesterol. Controls were homogenates heating in a boiling water bath for 10 min. Proof of the existence of cholesterol C-20, 22-desmolase activity in the viable tissue was established by associating radioactivity due to the labelled carbon 26 of 26-14C cholesterol with the p-bromophenacyl ester of isocaproic acid by reverse-isotope dilution analysis. The desmolase efficiency expressed as specific activity of 14C isocaproic acid, dpm g-1 tissue varied from 110 to 351 with a mean of 202. The small but definite conversion indicates that the cholesterol side-chain cleavage reaction previously believed to be exclusive to the steroidogenic pathway operating in the adrenal, gonads and placenta does exist in the human term umbilical cord in vitro.

Purification and characterization of a hepatic mitochondrial cytochrome P-450 active in aflatoxin B1 metabolism

We have previously shown that phenobarbital (PB) increases hepatic mitochondrial cytochrome P-450 (P-450) content and also the ability to metabolize hepatocarcinogen, aflatoxin B1 [Niranjan, B. G., Wilson, N. M., Jefcoate, C. R., & Avadhani, N. G. (1984) J. Biol. Chem. 259, 12495-12501]. In the present study, we have purified a mitochondrial-specific P-450 with an apparent molecular mass of 52 kdaltons (termed P-450mt3) from PB-induced rat liver using a combination of hydrophobic and ion exchange column chromatography procedures. Polyclonal antibody to P-450mt3 failed to cross-react with P-450mt1 and P-450mt2 purified from beta-naphthoflavone- (BNF) induced rat liver mitochondria. Furthermore, P-450mt3 shows an N-terminal amino acid sequence (Ala-Ile-Pro-Ala-Ala-Leu-Arg-Thr-Asp) different from those of both P-450mt1 and P-450mt2, as well as microsomal P-450b. The polyclonal antibody to P-450mt3 cross-reacted with a P-450 of comparable size purified from uninduced mitochondria. These two isoforms, however, showed difference with respect to catalytic properties and amino acid composition. In vitro reconstitution experiments show that P-450mt3 can actively metabolize diverse substrates including (dimethylamino)antipyrine, benzphetamine, and aflatoxin B1 but shows a low vitamin D3 25-hydroxylase activity. The mitochondrial P-450 from uninduced livers, on the other hand, shows relatively high [229 pmol min-1 (nmol of P-450)-1] vitamin D3 25-hydroxylase activity but a considerably lower ability for aflatoxin B1 metabolism and no detectable activity for (dimethylamino)antipyrine and benzphetamine metabolism.(ABSTRACT TRUNCATED AT 250 WORDS)

Regulation of steroid hydroxylase gene expression is multifactorial in nature

In summary, regulation of steroid hydroxylase gene expression is complex and multifactorial, involving cAMP-dependent and -independent mechanisms required for maintenance of optimal steroidogenic capacity, tissue-specific mechanisms which lead to different steroidogenic pathways in different tissues, and developmental mechanisms which lead to fetal imprinting of steroid hydroxylase expression and which probably overlap with both maintenance and tissue-specific mechanisms. Future studies will involve identification of the trans-acting factors associated with each of these aspects of the multifactorial regulation and characterization of the cis-regulatory elements to which they bind. Such studies will inevitably lead to the identification of genes encoding these trans-acting factors and investigation of their regulation. In this way, it will be possible to work outward from the steroid hydroxylase genes toward the cell surface receptors in order to elucidate the series of events which lead to cAMP-dependent and -independent regulation of steroid hydroxylase gene expression.

Co-induction of 17 alpha-hydroxylase and C-17,20-lyase activities in primary cultures of bovine adrenocortical cells in response to ACTH treatment

Bovine adrenocortical cells in primary culture were used to examine the trophic effect of ACTH on the induction of the 17 alpha-hydroxylase and C-17,20-lyase activities. The addition of exogenous pregnenolone to bovine adrenal microsomes showed the appearance of 17 alpha-hydroxy-pregnenolone before the formation of dehydroepiandrosterone. The same sequence of activities was evident in postmitochondrial supernate from bovine adrenocortical cells cultured 36 h in the presence of 1 microM ACTH but not in postmitochondrial supernate from control cells. In another study, bovine adrenocortical cells were cultured for 36 h after which 30 microM 17 alpha-hydroxypregnenolone was added to the medium and the incubation continued 1 h; there was a 4-fold increase in androgen content in the media from ACTH-treated cells over controls. Measurement of the 17 alpha-hydroxylase and C-17,20-lyase reactions in postmitochondrial supernate from cells cultured 0-72 h in the presence of ACTH or 1 mM dibutyryl cAMP showed concomitant increases in the two activities and both activities were inhibited by the same compounds known to inhibit 17 alpha-hydroxylase activity. These observations support the concept of the co-induction of 17 alpha-hydroxylase and C-17,20-lyase activities in response to ACTH; results in keeping with previous studies indicating that the two activities are catalyzed by a single gene product, the polypeptide chain P-45017a.

Corticotropin-induced changes in enzymatic activities of the post-pregnenolone steroidogenic pathway in rabbit adrenocortical cells

In an attempt to delineate the effect of corticotropin (ACTH) on post-pregnenolone steroidogenesis, the activity of enzymatic systems operative in conversion of pregnenolone into glucocorticoids and androgens was studied in adrenocortical cells from control rabbits and from animals treated with ACTH for 12 days (ACTH 1-24, 200 micrograms s.c. daily). The cells from ACTH-treated rabbits exhibited an increased overall steroidogenic capacity and produced much more cortisol (P less than 0.0005) as well as other 17-hydroxylated steroids as a result of increased activity of 17 alpha-hydroxylase; corticosterone generation was concomitantly reduced. The increased conversion of pregnenolone or progesterone into androgens, as a result of previous treatment with ACTH, provides additional evidence for an effect of ACTH on 17 alpha-hydroxylase activity. A stimulatory effect of ACTH on 11 beta-hydroxylase was also evidenced by these cells, since conversion of 11-deoxycortisol into cortisol was enhanced (P less than 0.005). The increased production of androgens from 17-hydroxylated precursors by cells from ACTH-treated rabbits suggests that ACTH also exerts a prolonged stimulatory effect on 17,20-lyase. The activity of 3 beta-hydroxysteroid dehydrogenase-isomerase was apparently not influenced by chronic treatment with ACTH, judged from unchanged conversion of dehydroepiandrosterone into androstenedione. The activity of 11 beta-dehydrogenase was likewise unchanged in these conditions.

Developmental and hormonal regulation of cholesterol side chain cleavage cytochrome P-450 in the fetal rabbit testis

Male sexual differentiation is dependent upon the induction of testosterone synthesis by the fetal testis at a critical phase of development. In the rabbit, testosterone synthesis by the fetal testis is initiated after 17.5-18 days of gestation, reaches peak values by day 21 and subsequently declines. In the present study, we analyzed the specific activity and concentration of immunoreactive cholesterol side chain cleavage cytochrome P-450 (cytochrome P-450scc) in the fetal rabbit testis during development to assess its possible role as a key regulatory enzyme in fetal testicular steroidogenesis. The effects of human chorionic gonadotropin (hCG) and dibutyryl cyclic AMP on the specific activity and synthesis of cytochrome P-450scc in fetal rabbit testes in vitro also were evaluated. We observed that changes in cholesterol side chain cleavage activity paralleled the induction of testosterone synthesis; the specific activity of this enzyme which was approximately equal to 0.25 pmol min-1 mg-1 protein in testes from 19-day fetal rabbits was increased approximately equal to 10-fold in testes of 21-day fetuses and thereafter declined dramatically. Immunoreactive cytochrome P-450scc, which was first detectable in gonads of 19-day fetal rabbits, was induced markedly in 21-day fetal testes, reached maximum levels on day 24 and declined slightly thereafter. Incubation of testes from 19- and 21-day gestational age fetal rabbits with hCG or dibutyryl cyclic AMP for 24 h resulted in an induction of testosterone synthesis, cholesterol side chain cleavage activity and synthesis of cytochrome P-450scc. These findings are suggestive that androgen synthesis by the fetal Leydig cell is mediated by an induction of the synthesis and specific activity of cytochrome P-450scc. In addition, these data support the hypothesis that the developmental changes in the synthesis of cytochrome P-450scc are regulated by fetal gonadotropin and are mediated by cyclic AMP.

Neurosteroids: cytochrome P-450scc in rat brain

The steroid hormones corticosterone and testosterone are supplied to the central nervous system by endocrine glands, the adrenals and gonads. In contrast, the 3 beta-hydroxy-delta 5-derivatives of cholesterol, pregnenolone and dehydroepiandrosterone, accumulate in the rat brain through mechanisms independent of peripheral sources. Immunohistochemical studies have been performed with specific antibodies to bovine adrenal cytochrome P-450scc, which is involved in cholesterol side-chain cleavage and pregnenolone formation. The enzyme was localized in the white matter throughout the brain. Scarce clusters of cell bodies were also stained in the entorhinal and cingulate cortex and in the olfactory bulb. These observations strongly support the existence of "neurosteroids," which have been posited on the basis of biochemical, physiological, and behavioral studies.

Existence of multiple forms of cytochrome P-450scc purified from bovine adrenocortical mitochondria

Three fractions of cytochrome P-450scc (denoted as fractions a, b, and c) were purified by a new procedure from bovine adrenocortical mitochondria. The amino-acid content analyses of these three fractions showed no difference. NH2-terminal amino-acid sequences of cytochrome P-450scc fractions, a and b agreed completely with the sequence deduced by nucleotide sequence of cDNA of cytochrome P-450scc mRNA (Morohashi, K., Fujii-Kuriyama, Y., Okada, Y., Sogawa, K., Hirose, T., Inayama, S. and Omura, T. (1984) Proc. Natl. Acad. Sci. USA 81, 4647-4651), whereas the sequence of fraction c showed a missing of isoleucine at the NH2-terminal. COOH-terminal ámino-acid sequences of fractions a, b and c were -Gln-Ala-COOH, identical with the deduced sequence from the cDNA. Measurements of the enzymatic activities of cholesterol side-chain cleavage reaction revealed no distinct difference among these three fractions. Although each of these fractions appeared as a single protein staining band upon SDS-polyacrylamide gel electrophoresis, these fractions showed heterogeneities upon two-dimensional electrophoresis and chromatofocusing. Fraction a contained the major form of cytochrome P-450scc, and its isoelectric point was estimated to be pH 7.8 by isoelectric focusing under both native and denatured conditions, and this value was confirmed by chromatofocusing. Neither of the carbohydrate-specific stainings (such as periodic acid-Schiff staining and lectin-peroxidase stainings using concanavalin A, wheat-germ agglutinin, and soybean agglutinin) of purified cytochrome P-450scc fractions after the electrophoretic resolution on SDS-polyacrylamide gel could show cytochrome P-450scc fractions as glycoproteins, suggesting that the heterogeneities were not due to the glycosylation state.

Mature bovine adrenodoxin contains a 14-amino-acid COOH-terminal extension originally detected by cDNA sequencing

Since the nucleotide sequence of bovine adrenodoxin cDNA is at variance with protein sequencing data in that it encodes an additional 14 amino acids at the COOH terminus, we used a specific antibody raised against this 14-amino-acid segment to examine its presence in: nascent precursor polypeptide chains, the processed mature adrenodoxin and mitochondria of both steroidogenic and nonsteroidogenic tissues. These studies reveal the presence of the extra peptide in the precursor form derived from in vitro translation and in the newly synthesized mature form as shown by [35S]methionine labeling of proteins in adrenocortical cells. Both the purified COOH-terminal synthetic peptide and purified mature adrenodoxin competed with radiolabeled adrenodoxin for immunoprecipitation by the anti-peptide antibody. Immunoblots revealed the presence of the extra peptide in purified adrenodoxin and in bovine adrenocortical, corpus luteal, kidney and liver mitochondria while it was not detectable in heart mitochondria. Thus, we conclude that mature adrenodoxin and its homologs in non-steroidogenic tissues contain the C-terminal extension following uptake into mitochondria. These results indicate structural homology between adrenodoxin and the iron-sulfur proteins of the kidney and liver and also suggest the presence of a second iron-sulfur protein in kidney and liver.

Regulation of the biosynthesis of steroidogenic enzymes

Recombinant DNA technology can permit study of the regulation of steroid hydroxylase gene expression at three levels. The first of these is cAMP-regulated gene expression. In the adrenal, ACTH, via cAMP, increases the expression of the genes for all of the cytochrome P-450 species involved in the steroid biosynthetic pathway, as well as the iron-sulfur protein, adrenodoxin. This action of cAMP is inhibited by cycloheximide, suggestive of the involvement of a regulatory protein factor in mediating this action of cAMP. The second level is tissue-specific regulation of steroid hydroxylase gene expression. An example of this which we have studied is the expression of cholesterol side-chain cleavage cytochrome P-450 (P-450sec) and 17 alpha-hydroxylase cytochrome P-450 (P-450(17) alpha) in the bovine ovary. P-450sec is expressed at high levels in the corpus luteum but at low levels in follicles, whereas P-450(17)alpha is expressed in follicles, but is undetectable in the corpus luteum. The third level is fetal imprinting. A number of the cytochrome P-450 species involving in the steroidogenic pathway are expressed in the fetal adrenal at a time when exposure of the gland to ACTH is very low, suggestive that factor(s) other than pituitary ACTH mediate this expression in fetal life.

Structure of genes encoding steroidogenic enzymes

Synthesis of adrenal steroid hormones from cholesterol entails the actions of only five enzymes, four of which are specific forms of cytochrome P450. These cytochrome P450 enzymes have all been isolated and their activities reconstituted in vitro, showing that each enzyme catalyses multiple steroidal conversions. Genes or complementary DNAs have been cloned for human P450scc (the cholesterol side-chain cleavage enzyme), P450c17 (17 alpha-hydroxylase/17,20 lyase) and P450c21 (21-hydroxylase). The sequences for microsomal P450c17 and P450c21 are much more closely related to one another than either is to the sequence for mitochondrial P450scc. Each of these P450 enzymes is encoded by a single human gene; the gene for P450scc lies on chromosome 15, that for P450c17 lies on chromosome 10, and that for P450c21 lies on chromosome 6. The human, mouse and bovine genomes each have two P450c21 genes. While only one of these is active in mouse and man, both genes may be active in cattle. A wide variety of lesions in the human P450c21(B) gene causes congenital adrenal hyperplasia, a common genetic disorder.

Regulation of cholesterol side-chain cleavage cytochrome P-450 gene expression in adrenal cells in monolayer culture

Utilizing a cDNA probe specific for bovine cytochrome P-450scc and primary monolayer cultures of bovine adrenocortical cells and human fetal adrenal cells, it has been shown that the chronic action of ACTH on the adrenal cortex includes regulation of P-450scc gene expression at the transcriptional level. The bovine P-450scc cDNA hybridizes strongly to human, pig and rat RNA. Advantage was taken of the cross-reactivity of the bovine P-450scc cDNA with human P-450scc RNA to examine the regulation of P-450scc gene expression by ACTH in human fetal adrenal cells. This process is mediated by cyclic AMP and is inhibited by cycloheximide, in a fashion similar to bovine adrenocortical cells, suggestive that a protein factor(s) activates the response in both species. Hence, the actions of ACTH to regulate P-450scc gene expression in bovine adult adrenocortical cells and human fetal adrenal cells appear to proceed by similar mechanisms.

Genes for cytochrome P-450 and their regulation

The capacity of the liver microsomal mixed-function oxidase system to metabolize a wide variety of exogenous as well as endogenous compounds reflects the participation of multiple forms of the terminal oxidase, cytochrome P-450, which have different broad, but overlapping, substrate specificities. Several of these isozymes accumulate in the liver after exposure of animals to specific inducing agents. Recent studies employing recombinant DNA techniques to investigate the genetic and evolutionary relatedness of various cytochrome P-450 isozymes as well as the molecular basis for the induction phenomenon are described. The conclusions from these investigations are presented in the context of the substantial body of data obtained from the characterization of specific cytochrome P-450 isozymes and from studies on the induction of specific isozymes or enzymatic activities during development or after treatment of animals with various inducing agents.

Control of gene expression of adrenal steroid hydroxylases and related enzymes

Utilization of cDNA probes specific for various components of the bovine adrenocortical steroidogenic pathway have led to the conclusion that there are three levels of regulation of steroid hydroxylase gene expression. In each case it is postulated that specific classes of proteins bind to regulatory regions of these genes and modulate their transcription. Throughout adult life, cAMP-dependent regulation via SHIP protein(s) is the predominant mechanism by which optimal steroidogenic capacity is maintained. A second type of regulation is tissue-specific. One subclass of tissue-specific expression is the "all-or-none" type whereby steroid 21-hydroxylase and 11 beta-hydroxylase gene expression occur only in adrenal cortex and not in other steroidogenic tissues. A second subclass of tissue-specific expression is the "variable" type whereby 17 alpha-hydroxylase and cholesterol side chain cleavage (SCC) activity are both expressed in ovarian thecal cells but only SCC activity is expressed in corpus luteum. The third type of regulation is cAMP-independent and leads to fetal-imprinting (initial expression of steroid hydroxylase genes during fetal life).

Enhanced 17 alpha-hydroxylation of pregnenolone and increased androgen production by rabbit adrenocortical cells stimulated chronically with corticotropin

The postulated chronic stimulatory effect of corticotropin (ACTH) on pregnenolone production and on 17 alpha-hydroxylase activity was evaluated on adrenocortical cells obtained from control and chronically ACTH-treated rabbits. The cells were incubated with various concentrations of ACTH added alone or together with trilostane, so as to inhibit further conversion of pregnenolone and dehydroepiandrosterone. The maximal steroidogenic effect of ACTH (determined in the absence of trilostane) was increased 2-fold in adrenocortical cells from ACTH-treated animals; furthermore, cortisol production was increased whereas that of corticosterone decreased. While the generation of pregnenolone was of comparable magnitude for cells from both experimental groups, chronic in vivo treatment with ACTH was followed by a 40-fold enhancement in 17-hydroxypregnenolone production. Concomitantly, maximal DHEA production documented in the presence of ACTH and trilostane was enhanced more than 200-fold, from 0.45 +/- 0.20 pmol in control rabbits to 147 +/- 67 pmol in cells from ACTH-treated animals. The corresponding values of DHEA-sulphate production were 0.86 +/- 0.12 and 432 +/- 334 pmol, respectively. Thus, a prolonged stimulatory effect of ACTH on rabbit adrenocortical cells consists in an enhancement of the capacity to generate pregnenolone, and to convert this compound into 17-hydroxylated steroids.

Enhanced androgen production by rabbit adrenocortical cells stimulated chronically with corticotropin: evidence for increased 17 alpha-hydroxylase activity

The effects of prolonged treatment with corticotropin (ACTH1-24, 200 micrograms s.c. daily during 12 days) on the production of androgens and glucocorticoids were studied on rabbit dispersed adrenocortical cells. The steroidogenic capacity of adrenocortical cells, expressed in terms of the maximal response to ACTH of glucocorticoid (i.e. corticosterone and cortisol) production, was significantly increased after treatment with ACTH. This was associated with a loss of sensitivity to this peptide: indeed, the concentration of ACTH required to induce a half maximal secretory response was one order of magnitude higher with cells from ACTH-treated animals. Among the C21 steroids measured the changes observed involved the 17 alpha-hydroxylated compounds (cortisol, cortisone, 11-deoxycortisol) while corticosterone production was significantly depressed. This effect of prolonged ACTH treatment on steroidogenic pathways involving 17 alpha-hydroxylation, was further evidenced by a clear-cut enhancement in androgen secretion (dehydroepiandrosterone, androstenedione and testosterone) by adrenocortical cells from ACTH-treated animals. The changes observed after treatment of the animal with ACTH were equally obvious, whether the adrenocortical cells were incubated with ACTH or with dibutyryl-c-AMP.

Preparation and characterization of polyclonal and monoclonal antibodies against human aromatase cytochrome P-450 (P-450AROM), and their use in its purification

Aromatase cytochrome P-450 (P-450AROM) was partially purified from human placental microsomes by hydrophobic affinity chromatography using Phenyl-Sepharose and ion-exchange chromatography on DEAE-cellulose. The resulting preparation had a specific activity of 2 nmol/mg protein with respect to cytochrome P-450 content and displayed a type I difference spectrum upon addition of the substrate androstenedione. When the cytochrome P-450-enriched fractions were subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis and stained with Coomassie blue, there was an enrichment of two proteins having apparent molecular weights of 50,000 and 55,000. The bands containing these proteins were removed from unstained polyacrylamide gels and injected separately or together into three rabbits. An aliquot of the serum or an immunoglobulin (IgG) fraction prepared from the serum of the rabbit injected with the 55-kDa band or with both the 50- and 55-kDa bands inhibited aromatase activity of human placental microsomes by 80%; this IgG had no effect on 17 alpha-hydroxylase or 21-hydroxylase activities of human fetal adrenal microsomes. In contrast, the serum of the rabbit injected with the 50-kDa band had little capacity to inhibit placental aromatase activity. By immunoblot analysis, it was found that the IgG from the serum of the rabbit immunized with the 55-kDa protein bound specifically to a protein of 55 kDa in human placental microsomes. Monoclonal antibodies were prepared from a hybridoma cell line derived from the spleen cells of mice immunized against the 55-kDa protein. The monoclonal IgG was covalently linked to a Sepharose 4B column and was used for immunoaffinity chromatography of cytochrome P-450AROM. The finding that cytochrome P-450 and the 55-kDa protein were selectively retained by the affinity column and eluted with NaCl (2 M) and glycine (0.2 M, pH 3.0) and that this fraction contained aromatase activity upon reconstitution with purified NADPH-cytochrome P-450 reductase and phospholipid, is indicative that the 55-kDa protein is indeed cytochrome P-450AROM. These findings are also indicative that both the monoclonal and polyclonal IgGs are specific for human cytochrome P-450AROM.

Congenital adrenal hyperplasia due to deficient cholesterol side-chain cleavage activity (20, 22-desmolase) in a patient treated for 18 years

Two siblings, a 9-week-old female and an 18-year-old male pseudohermaphrodite are described with deficient cholesterol side-chain cleavage activity. The female died untreated in 1954; the second sibling, a phenotypically female infant with 46 XY karyotype, was diagnosed at age 5 weeks. Massive adrenal hyperplasia was revealed by intravenous pyelography showing downward displacement of the kidneys. Secretion rates of cortisol, aldosterone, deoxycorticosterone and corticosterone were unmeasurable. Urinary 17-hydroxycorticosteroids (17-OHCS), tetrahydrocortisol, 17-ketosteroids (17-KS), pregnanetriol, pregnanediol, and delta 5-3 beta-ol steroids were not detected during prolonged administration of ACTH. Plasma concentrations and urinary excretion of gonadotrophins were increased. Gonadal mitochondria did not convert radiolabelled cholesterol to pregnenolone. The gluccocorticoid and mineralocorticoid deficiencies have been controlled well by steroid replacement therapy. Plasma ACTH concentrations and plasma renin activity remained strikingly elevated even when supraphysiologic doses of glucocorticoids and mineralocorticoids were given. Oestrogen replacement alone induced a pubertal growth spurt. The differential diagnosis, the effects of long-term steroid replacement therapy, and comparison with previously reported findings are discussed.

Regulation of mitochondrial compartment volumes in rat adrenal cortex by ether stress

In vivo ether stress of rats causes release of pituitary adrenocorticotropin (ACTH) leading to activation of steroidogenesis in adrenal cortex mitochondria. The present studies show that this treatment also induces a decrease in the volume of the intermembrane space in isolated adrenal mitochondria. This decrease is accompanied by an increase in the volume of the matrix, thus leaving the total mitochondrial volume approximately constant. These effects are prevented by the protein synthesis inhibitor, cycloheximide, and are specific to the adrenal gland. The decrease in the intermembrane space (or increase in the matrix volume) is correlated with activation of the cholesterol side chain cleavage reaction (the regulated step in steroidogenesis). We propose as a working hypothesis that these changes reflect a hormonally regulated alteration in the relationship between the outer and inner mitochondrial membranes, which may facilitate the rate-limiting movement of cholesterol from the outer to the inner membrane where the side chain cleavage enzyme is located.

Regulation of steroidogenesis in rat Leydig cells in culture: effect of human chorionic gonadotropin and dibutyryl cyclic AMP on the synthesis of cholesterol side chain cleavage cytochrome P-450 and adrenodoxin

Rat Leydig cells in primary culture were used as a model system to investigate the effects of human chorionic gonadotropin (hCG) and dibutyryl cyclic AMP (Bt2cAMP) on the synthesis of cholesterol side chain cleavage cytochrome P-450 (cytochrome P-450scc) and the iron-sulfur protein, adrenodoxin. Leydig cells isolated from the testes of mature rats were placed in monolayer culture in the absence of stimulatory factors for 8 days. HCG (10 mIU/ml) or Bt2cAMP (1 mM) were then added to some of the cultures and the incubations were continued for up to 48 h. Testosterone production was increased markedly in cells incubated with hCG or Bt2cAMP. A significant accumulation of pregnenolone in the medium of cells treated with Bt2cAMP was also observed. Both hCG and Bt2cAMP increased the rates of synthesis of cytochrome P-450scc and adrenodoxin. In hCG-treated cells the apparent rate of synthesis of cytochrome P-450scc was increased 13-fold over that of controls after 48 h of incubation; the rate of adrenodoxin synthesis was increased 4-fold by hCG treatment. In Bt2cAMP-treated cells the rate of synthesis of cytochrome P-450scc was 37-fold greater than that of control cells after 48 h of incubation; adrenodoxin synthesis was increased 36-fold over controls. In hCG- and Bt2cAMP-treated cells, the concentration of immunoreactive cytochrome P-450scc and adrenodoxin increased with increasing time of incubation, and were correlated with the stimulatory effects of these agents on cytochrome P-450scc activity and on total steroid production. The results of this study are indicative that the maintenance by LH/hCG of elevated levels of testosterone synthesis by the Leydig cell is mediated, in part, by induction of the synthesis of cytochrome P-450scc and its associated protein, adrenodoxin. Since Bt2cAMP had effects similar to those observed with hCG, it is suggested that the stimulatory effects of hCG on the synthesis of cytochrome P-450scc and adrenodoxin are mediated by increased cyclic AMP formation.