The expression of steroidogenic acute regulatory protein (StAR) in bovine adrenocortical cells

StAR protein may facilitate rapid transfer of cholesterol from the outer to the inner mitochondrial membrane, the site at which cholesterol is converted to pregnenolone by the cholesterol side chain cleavage complex. We have studied the effect of ACTH treatment on StAR mRNA and protein levels in bovine adrenocortical cells in primary culture. Cells were initially cultured for 3 days after isolation, and then treated with ACTH (10(-8) M) for various times up to 24 hours. Northern analysis of total BAC mRNA, using a [alpha32P]-labelled cDNA probe encoding a 5' region of bovine StAR mRNA, revealed two principal hybridising species of 1.6 and 3.0 kb. Western immunoblot analysis revealed a principal band at 30 kDa. Levels of both StAR mRNA and protein showed an increase at 1 hour, reached a maximum at around 6 hours and declined to basal levels at 24 hours. Cortisol secretion (measured by RIA) showed a similar change over the same period. From these results it appears that StAR mRNA and protein levels in BAC are acutely regulated in concert with ACTH-stimulated cortisol secretion.     

Heat shock-induced inhibition of acute steroidogenesis in MA-10 cells is associated with inhibition of the synthesis of the steroidogenic acute regulatory protein

The synthesis of heat shock proteins (HSPs) rapidly increases in cells under a broad range of stress conditions in addition to heat shock. Previous studies have shown that the induction of HSPs severely impairs the ability of steroidogenic cells to synthesize steroids in response to acute stimulation. De novo synthesis of the steroidogenic acute regulatory (StAR) protein has been shown to be indispensable for acute steroid hormone biosynthesis; however, the effect of HSP induction on the synthesis of the StAR protein has not yet been studied. In the present study we investigated whether HSP induction might influence the steroidogenic activity of MA-10 mouse Leydig tumor cells, and whether this effect may involve the synthesis of StAR protein. MA-10 cells exposed to 45 C for 10 min and allowed to recover for 2 h at 37 C displayed a 6-fold increase in HSP-70 at 3 h postrecovery and a 20-fold increase in this protein at 6 h postrecovery. This heat shock regimen also acutely inhibited both progesterone production and StAR protein synthesis in MA-10 cells in response to LH and cAMP analog stimulation. The activity and quantity of cytochrome P450 side-chain cleavage and 3beta-hydroxysteroid dehydrogenase were not affected by this heat shock treatment, indicating that the loss of steroidogenic capacity was not a result of inhibition of the enzymes involved in the conversion of cholesterol to progesterone. The results suggest that the previously observed antisteroidogenic effects of heat shock treatment may be due mainly to the acute inhibition of StAR protein synthesis.     

Regulation of the preovulatory gonadotropin surge by endogenous steroids

Estradiol secreted by growing ovarian follicle(s) has been considered classically to be the neural trigger for the preovulatory surge of gonadotropins. The observation that the estradiol-induced gonadotropin surge in ovariectomized rats is of lesser magnitude and duration than that found in the cycling rat at proestrus has resulted in a search for other steroid regulators. Progesterone is a major regulator of the preovulatory gonadotropin surge. It can only act in the presence of an estrogen background, which is necessary for the synthesis of progesterone receptors. In the estrogen-primed ovariectomized rat, progesterone is able to initiate and enhance the gonadotropin surge to the magnitude observed on the day of proestrus and limit it to 1 day. The physiological role of progresterone in the induction of the preovulatory gonadotropin surge has been demonstrated by the attenuation of the progesterone-induced surge and the endogenous proestrus surge by progesterone receptor antagonist RU486 and the progesterone synthesis inhibitor trilostane. The promoter region of the follicle-stimulating hormone (FHS)-beta gene contains multiple progesterone response elements and progesterone brings about FSH release as well. The reduction of progesterone in the 5 alpha-position appears to be important for the regulation of progesterone secretion. Corticosteroids appear to play a significant role in the secondary FSH surge on late proestrus and early estrus.     

Structure and function of the peripheral-type benzodiazepine receptor in steroidogenic cells

Steroidogenesis depends on the rate of cholesterol transport from intracellular stores to the inner mitochondrial membrane cytochrome P-450 side-chain cleavage enzyme. Using steroidogenic cell submitochondrial fractions, mitochondrial preparations, various cell models, and animal models and with the help of pharmacological, biochemical, morphological, and molecular approaches, we provide evidence that the peripheral-type benzodiazepine receptor mediates the intramitochondrial cholesterol transport and the subsequent adrenal, gonadal, placental, and brain steroid biosynthesis.     

Regulation of tissue plasminogen activator production in cultured human fetal mesangial cells

This study was designed to determine the persistence of culturable bacteria versus DNA in the presence of a middle ear effusion in a chinchilla model of otitis media. Cohorts of animals were either infected with an ampicillin-resistant Haemophilus influenzae strain or injected with a tripartite inoculum consisting of freeze-thawed Streptococcus pneumoniae; pasteurized Moraxella catarrhalis; and DNA from H influenzae. The H influenzae-infected animals displayed culture positivity and polymerase chain reaction positivity through day 35. In the chinchillas infected with the low-copy number inocula of S pneumoniae, DNA was not detectable after day 1 from the co-inoculated pasteurized M catarrhalis bacteria or the purified H influenzae DNA; however, amplifiable DNA from the live low-copy number bacteria persisted through day 21 even though they were not culture-positive past day 3. These results demonstrate that DNA, and DNA from intact but nonviable bacteria, does not persist in an amplifiable form for more than a day in the presence of an effusion; however, live bacteria, while not culturable, persist in a viable state for weeks.     

Anabolic steroids and blood cell production

In the past anabolic steroids were the first-choice treatment for pancytopenic disorders that were often poorly classified. They are now superseded by other more recently developed methods of treatment--for example bone marrow transplantation and immunosuppression. This contrasts to the authors' experience, and to that of many other haematologists, who have noted anabolic steroid-induced responses in patients who were unsuitable for or unresponsive to the new treatments. Anabolic steroids did not, however, demonstrate an obvious effect in recent controlled trials involving patients with aplastic anaemia. Their use with immunosuppressive treatment is currently under investigation. Although anabolic steroids rarely reverse the course of anaemia in a myelodysplastic syndrome, even a slight haemopoietic improvement is desirable. Children with Fanconi's anaemia may benefit from a reduced transfusion requirement. Uraemic patients may experience significant side effects on standard erythropoietin (epo) treatment. There have been no controlled trials comparing epo versus anabolic steroids or epo versus epo in conjunction with anabolic steroids. Data from uncontrolled studies indicate a better response to anabolic steroids in children and females than in men. In spite of the fact that anabolic steroids have been used for almost 30 years, they should be carefully re-evaluated in scientifically controlled trials to test their efficacy and to compare them with the new treatments. Such trials, however, are impeded by the limited knowledge available with regard to pharmacological parameters and optimal treatment schedules.     

Interferon-gamma inhibits the steroidogenic acute regulatory protein messenger ribonucleic acid expression and protein levels in primary cultures of rat Leydig cells

Interferon-gamma (IFNgamma) is an immunomodulating cytokine that has profound effects on reproductive function. IFNgamma inhibits steroidogenesis both in vivo and in vitro. The mechanism by which IFNgamma inhibits Leydig cell steroidogenesis remains unclear. In the present study, we evaluated the effect of IFNgamma on the expression and regulation of the steroidogenic acute regulatory protein (StAR) gene in primary cultures of rat Leydig cells. StAR facilitates the efficient production of steroid hormone by regulating the translocation of cholesterol from the outer to the inner mitochondrial membrane, the site of the cytochrome P450 side-chain cleavage (P450scc) enzyme system that converts cholesterol to pregnenolone. IFNgamma inhibited hCG-induced StAR messenger RNA (mRNA) levels in a dose-dependent manner. The addition of IFNgamma in a concentration of 500 U/ml decreased hCG-induced 3.8- and 1.7-kilobase StAR mRNA by 78% and 70%, respectively. IFNgamma also reduced hCG-stimulated P450scc mRNA levels by 69%. The inhibitory effects of IFNgamma on StAR mRNA levels were confirmed by ribonuclease protection assay. As early as 12 h after the addition of IFNgamma, hCG-induced StAR mRNA levels decreased by more than 44%. To evaluate the effects of IFNgamma on StAR protein levels, Western blot analyses were performed. hCG in a concentration of 10 ng/ml increased StAR protein by 5.6-fold. Treatment of Leydig cells with IFNgamma (500 U/ml) decreased hCG-induced StAR protein by 44%. In contrast, interleukin-1 and murine tumor necrosis factor-alpha reduced hCG-induced P450scc mRNA expression without inhibiting StAR mRNA or protein levels. In conclusion, IFNgamma inhibits Leydig cell steroidogenesis by down-regulating StAR gene expression and protein production.     

Control of cholesterol access to cytochrome P450scc in rat adrenal cells mediated by regulation of the steroidogenic acute regulatory protein

Using the mouth as an "in vivo articulator," the bilateral nonmasticatory ("empty") contact patterns of opposing cuspid and first molar teeth were determined in two healthy subjects with well-defined cuspid function and two healthy subjects with well-defined group function. The electronically recorded "empty" contact patterns pertained to the static intercuspal position and dynamic laterotrusion to the right and the left. On the basis of the "empty" tooth contact patterns and the number of electronically recorded masticatory cycles of one masticatory sequence, we postulated two simple models that attempted to predict the masticatory ("functional") tooth contacts of one sequence of unilateral mastication of apple and banana. Statistical comparisons between the predictions of the two models and the actual ("functional") contacts of in vivo mastication showed that the models predicted fairly well the observed tooth contacts on the nonchewing-side of the mouth, but not the observed tooth contacts on the chewing-side of the mouth. In consequence, "empty" (nonmasticatory) tooth contact patterns should not be equated with "functional" (masticatory) tooth contact patterns.     

Regulation of corticotropin and steroidogenic enzyme mRNAs in human fetal adrenal cells by corticotropin, angiotensin-II and transforming growth factor beta 1

Using cultured human fetal adrenal cells, we have investigated the basal secretion of cortisol and dehydroepiandrosterone sulfate (DHAS) and the effect of corticotropin (ACTH), angiotensin-II (A-II) and transforming growth factor beta 1 (TGF beta 1) on the secretion of these steroids and on the mRNA levels of ACTH receptor (ACTHR), cytochrome P-450scc (cholesterol side-chain cleavage), P450 17 alpha (17 alpha-hydroxylase/17-20 lyase) and 3 beta-HSD (3 beta-hydroxysteroid dehydrogenase). The basal DHAS/cortisol ratio declined progressively between 12.5 and 21 weeks. ACTH treatment enhanced the secretion of cortisol and to a lesser extent that of DHAS, and increased the steroidogenic response to an acute stimulation with ACTH. These changes were associated with increased mRNA levels of ACTHR and of the steroidogenic enzymes. A-II treatment also increased the secretion of both DHAS and cortisol, but less than ACTH, enhanced the responsiveness to ACTH and increased ACTHR, P450scc and P450 17 alpha mRNA levels. In contrast, TGF beta 1 alone or together with ACTH decreased DHAS secretion, but not cortisol secretion. Moreover, TGF beta 1 had no effect on ACTHR and P450scc mRNA levels, decreased by about 50% the mRNA levels of P450 17 alpha both in the absence or presence of ACTH, but enhanced the stimulatory effects of ACTH on 3 beta-HSD mRNA. These results, along with those previously reported, suggest that both A-II and TGF beta may play a role in fetal adrenal function. In addition, they show that the effects of both peptides are qualitatively different from, even sometimes opposite to, those previously reported in bovine and ovine adrenal cells.     

Effect of truncated forms of the steroidogenic acute regulatory protein on intramitochondrial cholesterol transfer

It has been proposed that the steroidogenic acute regulatory (StAR) protein controls hormone-stimulated steroid production by mediating cholesterol transfer to the mitochondrial inner membrane. This study was conducted to determine the effect of wild-type StAR and several modified forms of StAR on intramitochondrial cholesterol transfer. Forty-seven N-terminal or 28 C-terminal amino acids of the StAR protein were removed, and COS-1 cells were transfected with pCMV vector only, wild-type StAR, N-47, or the C-28 constructs. Lysates from the transfected COS-1 cells were then incubated with mitochondria from MA-10 mouse Leydig tumor cells that were preloaded with [3H]cholesterol. After incubation, mitochondria were collected and fractionated on sucrose gradients into outer membranes, inner membranes, and membrane contact sites, and [3H]cholesterol content was determined in each membrane fraction. Incubation of MA-10 mitochondria with wild-type StAR containing cell lysate resulted in a significant 34.9% increase in [3H]cholesterol content in contact sites and a significant 32.8% increase in inner mitochondrial membranes. Incubations with cell lysate containing N-47 StAR protein also resulted in a 16.4% increase in [3H]cholesterol in contact sites and a significant 26.1% increase in the inner membrane fraction. In contrast, incubation with the C-28 StAR protein had no effect on cholesterol transfer. The cholesterol-transferring activity of the N-47 truncation, in contrast to that of the C-28 mutant, was corroborated when COS-1 cells were cotransfected with F2 vector (containing cytochrome P450 side-chain cleavage enzyme, ferridoxin, and ferridoxin reductase) and either pCMV empty vector or the complementary DNAs of wild-type StAR, N-47 StAR, or C-28 StAR. Pregnenolone production was significantly increased in both wild-type and N-47-transfected cells, whereas that in C-28-transfected cells was similar to the control value. Finally, immunolocalization studies with confocal image and electron microscopy were performed to determine the cellular location of StAR and its truncated forms in transfected COS-1 cells. The results showed that wild-type and most of the C-28 StAR protein were imported into the mitochondria, whereas most of N-47 protein remained in the cytosol. These studies demonstrate a direct effect of StAR protein on cholesterol transfer to the inner mitochondrial membrane, that StAR need not enter the mitochondria to produce this transfer, and the importance of the C-terminus of StAR in this process.     

New developments in congenital lipoid adrenal hyperplasia and steroidogenic acute regulatory protein

To date, studies of patients with lipoid CAH have shown the indispensable role of StAR in the production of steroids by adrenal gland and gonads. Lipoid CAH is the first and so far only inborn disorder of steroid hormone synthesis and metabolism that is not caused by a defective steroidogenic enzyme but rather by a defect in cholesterol transport.     

Testosterone production by isolated rabbit follicles in the presence of luteinizing hormone and inhibitors of steroidogenic enzymes

Rabbit ovarian follicles were incubated with luteinizing hormone (LH) and various inhibitors of steroidogenesis in order to determine what enzymes were necessary for testosterone production. Incubations were carried out in minimum Eagle's medium: normal rabbit serum: 95:5 with medium being changed every 15 min and stored at -15 degrees C until assayed for testosterone by radioimmunoassay. Inhibitors and LH were added at different times after the start of the incubations. Of the inhibitors tested only SU 10603, an inhibitor of the 17alpha-hydroxylase enzyme completely prevented the testosterone response to LH while aminoglutethimide (inhibitor of 20alpha-hydroxycholesterol dehydrogenase) and U 30870 (inhibitor of 3beta-hydroxysteroid dehydrogenase) only showed partial inhibition. These results suggest that cholesterol is an obligatory intermediate for the production of testosterone by rabbit ovarian follicles and that normal LH stimulated endocrine function can resume after treatment with inhibitors. The results are also in agreement with previous data using inhibitors of protein synthesis in the presence of LH.     

Submitochondrial distribution of three key steroidogenic proteins (steroidogenic acute regulatory protein and cytochrome p450scc and 3beta-hydroxysteroid dehydrogenase isomerase enzymes) upon stimulation by intracellular calcium in adrenal glomerulosa cells

In adrenal glomerulosa cells, angiotensin II (Ang II) and potassium stimulate aldosterone synthesis through activation of the calcium messenger system. The rate-limiting step in steroidogenesis is the transfer of cholesterol to the inner mitochondrial membrane. This transfer is believed to depend upon the presence of the steroidogenic acute regulatory (StAR) protein. The aim of this study was 1) to examine the effect of changes in cytosolic free calcium concentration and of Ang II on intramitochondrial cholesterol and 2) to study the distribution of StAR protein in submitochondrial fractions during activation by Ca2+ and Ang II. To this end, freshly prepared bovine zona glomerulosa cells were submitted to a high cytosolic Ca2+ clamp (600 nM) or stimulated with Ang II (10 nM) for 2 h. Mitochondria were isolated and subfractionated into outer membranes, inner membranes (IM), and contact sites (CS). Stimulation of intact cells with Ca2+ or Ang II led to a marked, cycloheximide-sensitive increase in cholesterol in CS (to 143 +/- 3. 2 and 151.1 +/- 18.1% of controls, respectively) and in IM (to 119 +/- 5.1 and 124.5 +/- 6.5% of controls, respectively). Western blot analysis revealed a cycloheximide-sensitive increase in StAR protein in mitochondrial extracts of Ca2+-clamped glomerulosa cells (to 159 +/- 23% of controls). In submitochondrial fractions, there was a selective accumulation of StAR protein in IM following stimulation with Ca2+ (228 +/- 50%). Similarly, Ang II increased StAR protein in IM, and this effect was prevented by cycloheximide. In contrast, neither Ca2+ nor Ang II had any effect on the submitochondrial distribution of cytochrome P450scc and 3beta-hydroxysteroid dehydrogenase isomerase. The intramitochondrial presence of the latter enzyme was further confirmed by immunogold staining in rat adrenal fasciculata cells and by immunoblot analysis in MA-10 mouse testicular Leydig cells. These findings demonstrate that under acute stimulation with Ca2+-mobilizing agents, newly synthesized StAR protein accumulates in IM after transiting through CS. Moreover, our results suggest that the import of StAR protein into IM may be associated with cholesterol transfer, thus promoting precursor supply to the two first enzymes of the steroidogenic cascade within the mitochondria and thereby activating mineralocorticoid synthesis.