Action of pyrazolopyrimidine derivatives on American Leishmania spp. promastigotes

The capacity of 54 different pyrazolo-(3,4-d)- or -(4,3-d)-pyrimidine derivatives to inhibit American Leishmania promastigote multiplication was evaluated. Among pyrazolo-(3,4-d)-pyrimidines, eight derivatives showed leishmanistatic activity, 4-aminopyrazolo-(3,4-d)-pyrimidine (APP) being the most active, about eight-fold more than 4-hydroxy-pyrazolo-(3,4-d)-pyrimidine (HPP). 7-Hydroxy-3-beta-D-ribofuranosylpyrazolo-(4,3-d)-pyrimidine (FoB) was as active as 7-amino-3-beta-D-ribofuranosylpyrazolo-(4,3-d)-pyrimidine (FoA), a situation different to that found for pyrazolo-(3,4-d)-pyrimidines. Furthermore, different chemical modifications in formycin structure did not modify inhibitory effects. It can be concluded that regarding American Leishmania the chemical analogy to hypoxanthine or inosine of pyrazolo-(3,4-d)- and pyrazolo-(4,3-d)-pyrimidine, respectively, is not absolutely critical, as different modifications on the heterocyclic ring did not abolish the inhibitory activity of these compounds.     

Relationship between apolipoprotein E mRNA expression and tissue cholesterol content in rat adrenal gland.

Among extrahepatic tissues the adrenal gland has one of the highest concentrations of apoE mRNA and the highest rate of apoE synthesis. In the present investigation several previously described in vivo treatments were used to assess the relationship between apoE expression and cellular cholesterol in the rat adrenal gland. Treatment of rats with 4-aminopyrazolo[3,4-d]pyrimidine (4-APP) to lower serum cholesterol concentration and deplete adrenal gland cholesterol content decreased adrenal gland apoE mRNA concentration. These adrenal responses were blocked by dexamethasone (DEX) suggesting that the effect of 4-APP occurred indirectly via stimulation of the adrenal gland by endogenous adrenocorticotrophic (ACTH). Relative to control rats, DEX treatment increased both adrenal gland cholesterol content and apoE mRNA concentration. Concurrent ACTH and DEX administration reduced both adrenal gland cholesterol content and apoE mRNA concentration relative to DEX-treated rats. ACTH administration also rapidly decreased adrenal gland apoE mRNA concentration and cholesterol content in rats pretreated with DEX. In all the above experiments, adrenal gland cholesterol content and apoE mRNA concentration were positively correlated (r = 0.78, P = 0.0001). In contrast, aminoglutethimide treatment, which blocks adrenal gland steroidogenesis and greatly increases adrenal gland cholesterol content, was without effect on apoE mRNA concentration. ACTH administration to rats treated with DEX + aminoglutethimide resulted in decreased adrenal apoE mRNA despite greatly increased adrenal cholesterol content. This uncoupling of adrenal gland cholesterol content and apoE mRNA concentration suggests that apoE mRNA expression and cellular cholesterol are regulated independently by ACTH.     

Role of exogenous cholesterol in regulation of adrenal steroidogenesis in the rat

Rat steroidogenic tissues take up cholesterol, and it has been suggested that this process plays a regulatory role in steroid hormone synthesis. To provide evidence for this hypothesis, we carried out studies in lipoprotein-deficient rats. Lipoprotein deficiency, achieved by treating male rats with pharmacological amounts of estradiol, led to profound lowering of plasma cholesterol (8 +/- 2 versus 54 +/- 4 mg/dl) and adrenal cholesteryl ester content (113 +/- 57 versus 747 +/- 108 micrograms/organ). Basal serum corticosterone levels were decreased by 50%, and the response to adrenocorticotropic hormone (ACTH) was totally abolished. Injection of high density lipoprotein (HDL) to estradiol-treated animals restored the response of corticosterone to ACTH. Comparable in vitro studies with adrenal cell suspensions obtained from lipoprotein-deficient rats confirmed the in vivo data. Measurement of [14C]acetate incorporation and uptake of both HDL- and low density lipoprotein (LDL)-cholesterol in these adrenal cells showed a progressive increase with the duration of estradiol treatment, and neither of these two phenomena was altered by ACTH. These results provide in vitro and in vivo evidence for the hypothesis that normal adrenal steroidogenesis depends upon cholesterol delivery from plasma. Furthermore, under the conditions studied, ACTH does not stimulate adrenal de novo cholesterol biosynthesis nor the uptake of either HDL- or LDL-cholesterol.     

Regulation of luteal cell 3-hydroxy-3-methylglutaryl coenzyme A reductase activity by estradiol

Recent studies have suggested that estradiol or androgen precursor may stimulate steroidogenesis in the luteal cell by modulating intracellular sterol availability and metabolism. This investigation was performed to examine the effect of estradiol on de novo synthesis of cholesterol. Pregnant rats hypophysectomized and hysterectomized on Day 12 were treated for 72 h with either estradiol or testosterone. De novo cholesterol synthesis was determined by measurement of the specific activity of the enzyme 3-hydroxy-3-methylglutaryl coenzyme A (HMG CoA) reductase, the rate limiting enzyme in cholesterol biosynthesis, in microsome-enriched preparations of luteal tissue and incorporation of [14C] acetate into cholesterol by corpora lutea incubated in vitro. Estradiol or testosterone treatment caused a 4- to 5-fold stimulation of luteal cholesterol biosynthesis, as measured by these techniques. NaF, an inhibitor of phosphatase which blocks the conversion of the inactive enzyme to the active form, reduced the HMG CoA reductase activity to 30% in corpora lutea obtained from either steroid or vehicle-treated rats. However, an increase in enzyme activity of comparable magnitude by steroids was observed whether microsomes were isolated with or without NaF. The effect of estradiol appears to be enzyme-specific, since it failed to affect the microsomal marker, NADPH-cytochrome c reductase. Since the cholesteryl ester content of corpora lutea falls in response to steroid treatment, rats were treated with 4-aminopyrazolo-[3,4d]pyrimidine (4-APP) to deplete cellular cholesterol content.(ABSTRACT TRUNCATED AT 250 WORDS)     

Regulation of low density lipoprotein receptors by adrenocorticotropin in the adrenal gland of mice and rats in vivo

Membranes prepared from the adrenal gland of mice and rats possess high affinity binding sites that recognize 125I-labeled human low density lipoprotein (LDL). These binding sites resemble the functional LDL receptors that mediate the uptake of LDL by cultured mouse and bovine adrenal cells. The number of LDL binding sites per mg of membrane protein increased 2- to 5-fold over 24 h when mice or rats were treated with adrenocorticotropin (ACTH). In rats, this increase was accompanied by a similar ACTH-induced increase in the adrenal uptake of intravenously administered 125I-LDL, suggesting that the LDL binding sites mediate the uptake of LDL by the adrenal in the intact animal. The number of LDL binding sites on adrenal membranes rose by 5-fold when animals were rendered lipoprotein-deficient, either by treatment of mice with 4-aminopyrazolopyrimidine or by treatment of rats with 17 alpha-ethinyl estradiol. This increase was prevented when endogenous ACTH secretion was blocked by administration of dexamethasone, suggesting that ACTH was required. The current experiments suggest that LDL receptors provide one source of cholesterol for the mouse and rat adrenal in vivo and that the number of LDL receptors of this organ is regulated by ACTH.     

Regulation of the selective uptake of high density lipoprotein-associated cholesteryl esters

We have previously shown in rats that the cholesteryl ester component of high density lipoproteins (HDL) is taken up at a greater fractional rate than is the apolipoprotein A-I component (selective uptake) by liver and steroidogenic tissues. Selective uptake was also exhibited by cultured cells from these organs as well as by a wider range of cells in vitro (e.g., rat and human fibroblasts). We report here regulation of this pathway according to the cholesterol status of cells. Uptake of HDL cholesteryl esters by rat fibroblasts was decreased by prior loading of the cells with cholesterol, even while uptake of HDL-associated apoA-I actually increased. At high levels of cholesterol, the two were taken up about in parallel, i.e., selective uptake was suppressed. A similar regulation of selective uptake in primary rat hepatocytes in culture was not observed. To examine regulation of selective uptake in vivo, hypocholesterolemia was induced in rats using either 4-aminopyrazolo[3,4-d]pyrimidine or 17 alpha-ethinyl estradiol. Rat HDL, doubly labeled in both the apoprotein A-I and cholesteryl ester moieties with intracellularly trapped tracers, were injected into untreated and treated rats. The plasma decay kinetics and the tissue sites of uptake were then determined. Hypocholesterolemia increased the plasma fractional catabolic rates of both tracers. Selective uptake was observed in tissues of treated rats that did not exhibit selective uptake in untreated rats (muscle, adipose tissue, and skin). Similarly, hypocholesterolemia increased the contribution of selective uptake to total HDL cholesteryl ester uptake by adrenal and ovary. In contrast, regulation of selective uptake by liver could not be demonstrated under these conditions. Thus, selective uptake of HDL cholesteryl esters can be regulated in extrahepatic tissues of rats in vivo and in vitro, suggesting a role for selective uptake in the maintenance of cholesterol homeostasis in these tissues.     

Adrenal adenylate cyclase and steroidogenic activities of 63 day old ovine fetuses: in vitro effects of ACTH1-24 and forskolin

This study examines the activity of the adenylate cyclase system and that of some enzymes of the steroidogenic pathway of adrenal cells from 62-63 day old ovine fetuses. Synthetic corticotropin (ACTH1-24), cholera toxin and forskolin stimulated both cAMP and corticoid productions by freshly isolated adrenal cells. The cAMP response to ACTH1-24 was lower than that to forskolin. However, forskolin-induced steroidogenesis was significantly lower than the ACTH1-24-induced steroid output. Freshly isolated cells metabolized quickly [14C]-labeled pregnenolone mainly through the 17-deoxy pathway. The amounts of cortisol and of corticosterone formed, in the presence of exogenous pregnenolone, were roughly 15-fold higher than under maximal stimulation by ACTH1-24. When the cells were cultured for 6 days in the absence or presence of ACTH1-24 (10(-8) M) or forskolin (10(-5) M), a small development of the cAMP response to these factors was observed in the course of the experiment. However, the mechanism of this development appeared different, according to the conditions of culture. The amounts of corticosterone secreted on day 6 by ACTH1-24- or forskolin-treated cells were 2- to 4-fold higher than on day 1, whereas cortisol outputs were much lower on day 6 than on day 1. The response to ACTH1-24 of cells maintained in ACTH-free media decreased dramatically during the culture in terms of both cortisol and of corticosterone. On day 6 of the experiment, the metabolism of [14C]pregnenolone was lower than on day 1 under all 3 conditions of culture. Only the 3 beta-hydroxysteroid dehydrogenase/isomerase activity could be maintained by continuous treatment with forskolin. However, both ACTH1-24 and forskolin enhanced the production of pregnenolone from an endogenous substrate. In conclusion, these results present evidence that: 1) the adenylate cyclase system is not a bottleneck in the steroidogenic response to ACTH1-24 of freshly isolated adrenal cells from 62-63 day old ovine fetuses; 2) the main rate-limiting step for steroidogenesis by these cells is the availability of pregnenolone; 3) neither ACTH1-24 nor forskolin is able to maintain the activity of most enzymes involved in the metabolization of pregnenolone by cultured cells while increasing pregnenolone availability; 4) some inhibiting factors are involved in the loss of adrenal cells responsiveness to ACTH between days 50 and 100 of gestation, and they probably act mainly on the adenylate cyclase system.     

Utilization of cholesterol-rich lipoproteins by perfused rat adrenals

This study describes high density lipoprotein (HDL) uptake in the rat adrenal using a newly developed nonrecycling perfusion technique to control both the quality and quantity of the supplied lipoprotein. The aim of the study was to quantify a nonendocytic (alternative) pathway in the delivery of HDL-cholesterol. All experiments were conducted using an acute lipoprotein-deficient rat model (24 h 4-aminopyrazolo-[3, 4-d]-pyrimidine, 4-APP) in which circulating levels of cholesterol were reduced by one half, but various adrenal gland measurements of cholesterol metabolism were unchanged. Both rat HDL (rHDL) and affinity-purified human HDL3 (hHDL3) were used throughout the study. Microscopic autoradiographs (ARGs) indicate that both ligands bind avidly and exclusively to cells of the adrenal fasciculata and reticularis zones. Despite differences in binding affinity, both ligands deliver approximately the same total cholesterol to the cell interior as estimated by double-labeled residualizing tags on HDL (i.e., 125I-labeled dilactitol tyramine-[3H]cholesteryl linoleyl ether (DTT-CLE) HDL). The internalized cholesterol can account for much of the corticosterone produced during the 90-min time frame; however, only a small fraction of this cholesterol could have been provided via the endocytic pathway. Data obtained with the use of 125I-labeled DTT-[3H]CLE-HDL show that only 8.0% (or 0.7%) of corticosterone produced with rHDL (or hHDL3) could have come from cholesterol internalized as a component of intact HDL (i.e., via the endocytic pathway). These calculations strengthen the electron microscopy autoradiographic data that show that few exposed silver grains (representing the localization of the 125I-isotope) are found within the cell cytoplasm. Thus, despite differences in the uptake characteristics of the two ligands, most of the HDL-cholesterol internalized and used for corticosterone production during adrenal perfusion apparently comes from a pathway in which intact HDL are not internalized.     

The influence of plasma lipoproteins on steroidogenesis of cultured ovine fetal and neonatal adrenal cells

The present study examined the effects of serum and lipoproteins on the function of cultured adrenal cells from 115-127-day-old ovine fetuses and from newborn lambs. On day 1 of culture, corticosteroid output was similar in medium containing 2% horse serum or in serum-free medium, both for fetal and neonatal cells. However, on day 5, cells cultured in the absence of serum produced smaller amounts of these steroids than cells maintained in medium containing serum; the difference was more marked under ACTH1-24 stimulation. Conversely, cAMP production was never lower in the absence than in the presence of serum. When stimulated by ACTH1-24 on day 2 of culture, fetal or neonatal adrenal cells incubated in the presence of a saturating concentration of ovine LDL produced more corticosteroids than cells incubated in serum-free medium; HDL also enhanced ACTH1-24-induced steroidogenesis, but to a lesser extent. VLDL was effective only with neonatal cells. In fetal and neonatal cells cultured for 6 days in ACTH-free medium, VLDL and LDL increased ACTH-induced steroidogenesis, but HDL did not. On the other hand, when cells were cultured in the presence of ACTH1-24, LDL and HDL were equipotent in supporting ACTH1-24-induced steroid output. Three major lipoprotein fractions were observed in serum of fetal and newborn lambs. The concentration of cholesterol was very low in the VLDL fraction of fetuses, but it was similar to that of newborns in LDL. Conversely, 4 times more cholesterol was present in HDL of newborns than in HDL of fetuses. These results suggest that: (i) after several days of cell culture, cholesterol availability is an important limiting factor for the steroidogenesis of cells maintained under serum-free conditions; (ii) both an "LDL pathway" and an "HDL pathway" are operating in adrenal cells from fetal as well as newborn sheep; (iii) LDL and HDL are important physiological sources of cholesterol to support steroidogenesis by fetal and neonatal adrenal cells.     

Cytochalasin-stimulated steroidogenesis from high density lipoproteins

The cytochalasins stimulate steroid secretion of Y-1 adrenal tumor cells two-to threefold. The order of potencies is cytochalasin E is greater than D is greater than B, but the maximum response is the the same and always less than with ACTH. Like that with ACTH, the stimulation has a rapid onset, is easily reversible, is inhibited by cucloheximide and aminoglutethimide, and occurs at a stage before pregnenolone. Although the cytochalasin, like ACTH, produce cell rounding, it is shown that this morphological change is not necessarily coupled to steridogenesis. Unlike ACTH, cytochalasin B does not measurably increase cellular levels of cAMP at concentrations that lead to maximal steroidogenesis. The cytochalasin B-induced stimulation of steroidogenesis, unlike the short-term ACTH effect, fails to occur in the absence of serum. This lack of response can be corrected by even low concentrations of human high density lipoproteins (HDL) but not by low density lipoproteins (LDL). We, therefore, propose that cytochalasin B enhances the availability of cholesterol bound to HDL for steroidogenesis by Y-1 adrenal cells.     

A correlated morphological and biochemical study on the rat adrenal steroidogenesis

The ultrastructural and biochemical alterations produced by an hypocholesterolemic drug, 17 alpha-ethinyl estradiol, on the rat adrenal cortex were studied. Male rats aged two months and with approximately 200 g in weight were injected subcutaneously with 10 mg/kg/day of ethinyl estradiol during 9 days; rats injected with 1 ml propylene glycol were used as controls. The animals were sacrificed on the 10th day, and the adrenals from some of them were processed for electron microscopy. The adrenals from the remaining rats were used for measurements of the glands cholesterol and corticosterone, which were also measured in the blood. In estradiol-treated rats the zona fasciculata cells exhibited numerous microvilli, increase in the size of mitochondria and decrease in the number of lipid droplets. The quantitative analysis showed a significant increase of the volumetric density of mitochondria and microvilli and a significant decrease of the lipid droplets in the treated rats, when compared with normal ones. In treated rats, the concentration of cholesterol and corticosterone in the gland and blood were significantly decreased. These data show that hypocholesterolemia produced by estradiol has a remarkable effect on adrenal steroidogenesis, depletes the pool of adrenal cholesteryl esters, and evidences the role of plasma cholesterol in the corticosteroidogenesis.     

Studies on lipoprotein and adrenal steroidogenesis: I. Roles of low density lipoprotein- and high density lipoprotein-cholesterol in steroid production in cultured human adrenocortical cells

The roles of human low density lipoprotein (LDL)- cholesterol and high density lipoprotein (HDL)- cholesterol on adrenal steroidogenesis were investigated using cultured human adult and fetal adrenocortical cells and the findings were then compared to those obtained with bovine adrenocortical cells. The secretion of cortisol in both human and bovine adrenocortical cells was dose-dependently increased by the administration of LDL- or HDL-cholesterol in the presence of adrenocorticotropin (ACTH). LDL-cholesterol was utilized to a greater extent than HDL-cholesterol in both human and bovine adrenal steroidogenesis in the presence of ACTH. Exogenous lipoprotein-derived cholesterol was less utilized in human adrenal steroidogenesis than in bovine adrenal steroidogenesis, compared to the endogenous cholesterol. An increase in the secretion of cortisol and dehydroepi androsterone sulfate (DHEA-S) continued for the 5-day culture period, in the presence of lipoprotein cholesterol and ACTH in both human adult and fetal adrenocortical cells. The secretion of aldosterone increased on the first day of the culture period, then gradually decreased for the 5-day culture period in human adult adrenocortical cells, but not in human fetal adrenocortical cells in the presence of lipoprotein cholesterol and ACTH. These findings demonstrate that exogenous cholesterol utilized in the biosynthesis of steroids is mainly from LDL-cholesterol in both human adult and fetal adrenals and bovine adrenal and the proportion of cholesterol synthesized de novo is significantly larger in the human adult adrenal than in the bovine adrenal.     

Ovine fetal adrenal maturation at term and during fetal ACTH administration: evidence that the modulating effect of cortisol may involve cAMP

Exogenous ACTH1-24 promotes adrenal maturation in fetal sheep, and this effect appears to be modulated in part by cortisol (Challis et al. 1985). We have examined whether similar changes in adrenal metabolism of progesterone occur with ACTH-induced labour as at spontaneous term and whether the site of cortisol modulation is on adrenal steroidogenesis or at the level of cAMP generation. Chronically catheterized fetal sheep were infused in utero for 100 h between days 127 and 131 of pregnancy with P-ACTH, P-ACTH + metopirone, P-ACTH + metopirone + cortisol, or saline. After 100 h the metabolism of [3H]progesterone was measured in adrenal homogenates. Similar incubations were performed with adrenal tissue from fetal sheep at day 130 of pregnancy and at spontaneous labour. In the treatment groups of sheep, cAMP output by dispersed adrenal cells in response to ACTH added in vitro was also determined. Similar qualitative patterns of [3H]progesterone metabolism were found in adrenal homogenates after in vivo ACTH or at term. At both times there was an increase in cortisol and in total 17 alpha-hydroxycorticosteroid accumulation and also evidence for increased activity of 11 beta-hydroxylase enzyme. The formation of total 17 alpha-hydroxycorticosteroids was not affected significantly by concurrent treatment in vivo with metopirone +/- cortisol. The accumulation of cAMP in vitro was increased after in vivo ACTH, attenuated after ACTH + metopirone, but statistical significance over controls was restored after ACTH + metopirone + cortisol treatment. We conclude that ACTH-induced labour and spontaneous parturition in sheep is associated with qualitatively similar changes in progesterone metabolism by the fetal adrenal gland.(ABSTRACT TRUNCATED AT 250 WORDS)     

The preparation and purification of isolated rat corpus-luteum cells and their use in studying the relationship between cholesterol biosynthesis and the lutropin-stimulated formation of progesterone.

Isolated luteal cells, prepared from superovulated rat ovaries by digestion with collagenase, were subjected to density-gradient centrifugation on Percoll to give a more highly purified preparation of luteal cells than has been reported previously. The cells formed progesterone when incubated in vitro; lutropin stimulated this steroidogenesis. Progesterone formation was linear for at least 2 h; a minimal lutropin concentration of 1.0 ng/ml was needed for stimulation and concentrations of 3.0 and 100 ng/ml gave half-maximal and maximal responses respectively. The cells were unresponsive towards hormones other than lutropin. Exposure to lutropin raised the cellular cyclic AMP concentration, and dibutyryl cyclic AMP, but not dibutyryl cyclic GMP, was as effective in stimulating steroidogenesis as was lutropin. Aminoglutethimide, an inhibitor of cholesterol side-chain cleavage, completely blocked progesterone formation by the cells, showing cholesterol side-chain cleavage to be an obligatory step in steroidogenesis by these cells. Neither the activity of 3-hydroxy-3-methylglutaryl-CoA reductase nor the incorporation of radioactively labelled acetate or mevalonate into cholesterol by cells incubated in vitro were detectable unless the rats had been treated previously with 4-aminopyrazolo[3,4-d]pyrimidine. In cells from rats so treated, compactin was found to block almost completely the incorporation of radioactively labelled acetate, but not of mevalonate, into cholesterol, indicating that this inhibitor acts in corpus luteum in the same way as it does in other tissues. In cells from rats not treated with 4-aminopyrazolo[3,4-d]pyrimidine compactin had no effect on progesterone formation in vitro, showing cholesterol biosynthesis to be unnecessary for the rapid steroidogenic response by luteal cells to lutropin.     

Hormonal regulation of adrenal microvillar channel formation

This study examined the in vivo relationship between expression of the HDL receptor scavenger receptor class B (SR-BI) and corresponding structural changes in the rat adrenocortical cell microvillar compartment. Using hormonal stimulation and withdrawal protocols, we were able to manipulate adrenal SR-BI levels and carry out qualitative and quantitative measurements correlating SR-BI expression with microvillar mass and microvillar channel formation. Young male rats were used as controls or treated with adrenocorticotropin hormone (ACTH) (24 h), 17alpha-ethinyl estradiol (17alpha-E2) (5 days), or dexamethasone (DEX) (24 h). Quantitative Western blot analysis and immunocytochemistry indicated that ACTH and 17alpha-E2 treatment greatly increased SR-BI expression in the adrenal (especially in the microvillar compartment of adrenocortical cells), whereas DEX treatment led to a decrease of SR-BI by all measurements. At the same time, striking ultrastructural changes occurred in the adrenocortical cell microvillar compartment: e.g., microvillar area and microvillar channel formation and complexity dramatically increased (compared with control values) after ACTH or 17alpha-E2 treatment, whereas the same values declined after DEX treatment. These measurements illustrate the exceptional flexibility and responsiveness of the microvillar compartment to hormonal stimuli, and suggest that regulation of SR-BI expression and structural configuration of the surface of steroidogenic cells goes hand in hand.     

Adrenocortical function in 4-APP treated rats: a coupled stereological and biochemical study

Adrenocortical function in 4-APP-induced (4-aminopyrazolo[3,4-d]pyrymidine) lipoprotein-deficient rats was studied in relation to quantitative morphologic changes in the gland. 4-APP treatment results in enlargement of the adrenal cortex and its zona fasciculata and reticularis cells. In enlarged livers, cholesterol and free fatty acid concentrations were similar to that of control rats, however a marked accumulation of triglycerides with a concomitant drop in hepatic delta 4-steroid hydrogenase activity was found. A profound drop in serum cholesterol in both, high and low density lipoproteins, as well as triglycerides and plasma corticosterone concentrations was accompanied by a marked lowering of cholesterol and corticosterone concentration in the adrenal gland. Corticosterone output by adrenal homogenates was higher in 4-APP treated rats than in control animals. Such a treatment did not change cholesterol side-chain cleavage, 11 beta-hydroxylase, 3 beta-ol dehydrogenase-isomerase, steroid 5 alpha-reductase and neutral lipase activities when expressing results per unit weight of tissue or protein. However, when calculating per adrenocortical cell, adenine analogue applied increased 11 beta-hydroxylase, steroid 5 alpha-reductase and neutral lipase activities. Thus, coupled biochemical and stereologic studies revealed a complex and multidirectional effect of 4-APP on the rat adrenal cortex. This effect may be caused by serum lipoprotein deficiency and by toxic and stressful action of the adenine analogue on the rat. Also a direct effect of 4-APP on rat adrenal cortex may not be excluded.     

Regulation of rat and bovine adrenal metabolism of polycyclic aromatic hydrocarbons by adrenocorticotropin and 2,3,7,8-tetrachlorodibenzo-p-dioxin

The effects of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) on polycyclic aromatic hydrocarbon (PAH) metabolism and steroidogenesis in primary cultures of bovine adrenal cortical (BAC) and rat adrenal cortical (RAC) cells have been examined. Remarkably TCDD is an ineffective inducer (15-50%) of PAH metabolism in confluent BAC cells and completely antagonizes a 5-fold induction by benz[alpha]anthracene (BA). In the same concentration range (EC50 5 X 10(-11) M) TCDD suppresses steroidogenesis through an effect on cholesterol metabolism. Adrenocorticotropin (ACTH) and cAMP also suppress PAH metabolism at concentrations which stimulate steroidogenesis (10(-7) M). In RAC cells ACTH potently induces PAH metabolism (7-fold) at a comparable concentration to the stimulation of steroidogenesis. Parallel stimulation of PAH metabolism and steroidogenesis by cAMP suggest that ACTH induction of PAH metabolism is mediated by cAMP. TCDD induces PAH metabolism (2.8-fold, EC50 8 X 10(-11) M) at similar concentrations to the inhibitory effect in BAC cells and this action is additive with ACTH induction. In male rats in vivo TCDD induces adrenal microsomal PAH metabolism (72%) and is more effective in this respect than 3-methylcholanthrene (3MC). Rabbit antibodies against rat liver cytochrome P-450c (the major TCDD-inducible liver form) inhibited the TCDD-induced adrenal metabolism of 7,12-dimethylbenz[alpha]anthracene (DMBA), which also exhibited regioselectivity typical of metabolism by P-450c. Constitutive adrenal microsomal metabolism, which exhibited regioselectivity of DMBA metabolism comparable to the ACTH-sensitive cellular metabolism, was not affected by anti-P-450c. It is concluded that ACTH and TCDD induce distinct forms of cytochrome P-450 in RAC cells and that the latter represents a typical Ah-receptor mediated response. The anomalous effect on PAH metabolism in BAC cells that parallels inhibition of steroidogenesis may derive from repression of a distinct adrenal form of P-450 by the TCDD-Ah-receptor complex.     

The effect of calcium concentration on ACTH stimulation of steroidogenesis in mouse adrenal tumor cells

Calcium is required for ACTH stimulated steroidogenesis in adrenal tumor cells in tissue culture. In the absence of calcium, the dose of ACTH required to induce half maximum steroidogenesis was increased 30 fold. In contrast to intact adrenal glands or isolated adrenal cells, high doses of ACTH (50 mU/ml) maximally stimulated steroidogenesis in the absence of calcium. Growth for up to six days in medium with low calcium did not affect basal or ACTH induced steroidogenesis. The addition of calcium to cells incubated with ACTH produced a maximum steroidogenic response in 15 minutes. In contrast to intact adrenal glands, calcium is not required for adenosine-3′,5′-cyclic monophosphate (cyclic AMP) stimulated steroidogenesis in adrenal tumor cells. These experiments support the concept that calcium is important at the level of ACTH-membrane receptor site interaction or activation of adenyl cyclase in adrenal tumor cells.     

Effect of 4-aminopyrazolo[3,4-d]pyrimidine on the catabolism of high-density lipoprotein apolipoprotein A-I in the rat

The in vivo turnover and sites of catabolism of O-(4-diazo-3-[125I]iodobenzoyl)sucrose-labelled rat high-density lipoprotein (HDL) apolipoprotein A-I were studied in rats treated for 3 days with 4-aminopyrazolo-[3,4-d]pyrimidine (4APP). It was found that 4APP treatment decreases the serum cholesterol concentration to 6 mg/dl and stimulates the serum decay of labelled HDL. The latter effect could be attributed to an increased catabolism of radioactive HDL apolipoprotein A-I by the liver. When the serum cholesterol concentration was raised to physiological levels by a bolus injection of unlabelled rat HDL, at the time of administration of the labelled HDL, the serum decays and the tissue uptakes of apolipoprotein A-I labelled HDL were identical in 4APP-treated rats and control animals. When a bolus injection of unlabelled human low-density lipoprotein (LDL) was administered to 4APP-treated rats, the serum decay and tissue uptake of apolipoprotein A-I labelled HDL remained rapid. The recovery of radioactivity in the adrenal glands was increased almost 10 fold by 4APP treatment, a phenomenon which was reversed by a bolus injection of unlabelled HDL, but not by injection of unlabelled LDL. It is concluded that treatment of rats with 4APP does not affect the rate of catabolism of rat HDL apolipoprotein A-I, when the serum HDL concentration in the treated animals is restored to physiological levels.     

A mechanism for the in vitro stimulation of adrenal cortisol biosynthesis by epidermal growth factor

EGF stimulates adrenal steroidogenesis in ewes and in ovine adrenal slices. In vitro, The stimulation is blocked by the cholesterol synthesis inhibitors compactin and AY 9944. EGF stimulates the incorporation of [14C]acetate into cholesterol. EGF increases the activity of the rate limiting enzyme in cholesterol biosynthesis, HMG CoA reductase. EGF has no effect on the levels of any intermediates involved in the conversion of pregnenolone to cortisol, although ACTH produced changes consistent with 17 alpha-hydroxylase activation. We propose that EGF increases adrenal cortisol synthesis in vitro by a stimulation of cholesterol precursor biosynthesis mediated through activation of HMG CoA reductase.