Corticosteroidogenesis in isolated adrenal cells of rats. I. Effect of corticotropins and 3',5'-cyclic nucleotides on corticosterone production

ACTH-Modulated Membrane Guanylate Cyclase Signaling System: Origin and Creation

The membrane guanylate cyclase (MGC) cellular signaling pathway consists of seven signaling pathways and is critical for the survival of prokaryotes eukaryotes, and highly complex vertebrate organisms. A sequel to the author's earlier comprehensive reviews, covering the field of MGC from its origin to its establishment to the year 2014, this article exclusively deals with the history of its development from the year 1963 to 1987. It narrates the efforts involved in building on small projects, brick by brick, and its emergence from the chasm of disbelief, through steady, continuous work. To make the presentation simple and chronologically continuous, the subject matters of the earlier reviews and publication of these authors have been freely borrowed with appropriate citations.

Membrane guanylate cyclase, a multimodal transduction machine: history, present, and future directions

A sequel to these authors' earlier comprehensive reviews which covered the field of mammalian membrane guanylate cyclase (MGC) from its origin to the year 2010, this article contains 13 sections. The first is historical and covers MGC from the year 1963–1987, summarizing its colorful developmental stages from its passionate pursuit to its consolidation. The second deals with the establishment of its biochemical identity. MGC becomes the transducer of a hormonal signal and founder of the peptide hormone receptor family, and creates the notion that hormone signal transduction is its sole physiological function. The third defines its expansion. The discovery of ROS-GC subfamily is made and it links ROS-GC with the physiology of phototransduction. Sections ROS-GC, a Ca²⁺-Modulated Two Component Transduction System to Migration Patterns and Translations of the GCAP Signals Into Production of Cyclic GMP are Different cover its biochemistry and physiology. The noteworthy events are that augmented by GCAPs, ROS-GC proves to be a transducer of the free Ca²⁺ signals generated within neurons; ROS-GC becomes a two-component transduction system and establishes itself as a source of cyclic GMP, the second messenger of phototransduction. Section ROS-GC1 Gene Linked Retinal Dystrophies demonstrates how this knowledge begins to be translated into the diagnosis and providing the molecular definition of retinal dystrophies. Section Controlled By Low and High Levels of [Ca²⁺]_i, ROS-GC1 is a Bimodal Transduction Switch discusses a striking property of ROS-GC where it becomes a “[Ca²⁺]_i bimodal switch” and transcends its signaling role in other neural processes. In this course, discovery of the first CD-GCAP (Ca²⁺-dependent guanylate cyclase activator), the S100B protein, is made. It extends the role of the ROS-GC transduction system beyond the phototransduction to the signaling processes in the synapse region between photoreceptor and cone ON-bipolar cells; in section Ca²⁺-Modulated Neurocalcin δ ROS-GC1 Transduction System Exists in the Inner Plexiform Layer (IPL) of the Retinal Neurons, discovery of another CD-GCAP, NCδ, is made and its linkage with signaling of the inner plexiform layer neurons is established. Section ROS-GC Linkage With Other Than Vision-Linked Neurons discusses linkage of the ROS-GC transduction system with other sensory transduction processes: Pineal gland, Olfaction and Gustation. In the next, section Evolution of a General Ca²⁺-Interlocked ROS-GC Signal Transduction Concept in Sensory and Sensory-Linked Neurons, a theoretical concept is proposed where “Ca²⁺-interlocked ROS-GC signal transduction” machinery becomes a common signaling component of the sensory and sensory-linked neurons. Closure to the review is brought by the conclusion and future directions.

Membrane guanylate cyclase is a beautiful signal transduction machine: overview

This article is a sequel to the four earlier comprehensive reviews which covered the field of membrane guanylate cyclase from its origin to the year 2002 (Sharma in Mol Cell Biochem 230:3-30, 2002) and then to the year 2004 (Duda et al. in Peptides 26:969-984, 2005); and of the Ca(2+)-modulated membrane guanylate cyclase to the year 1997 (Pugh et al. in Biosci Rep 17:429-473, 1997) and then to 2004 (Sharma et al. in Curr Top Biochem Res 6:111-144, 2004). This article contains three parts. The first part is "Historical"; it is brief, general, and freely borrowed from the earlier reviews, covering the field from its origin to the year 2004 (Sharma in Mol Cell Biochem, 230:3-30, 2002; Duda et al. in Peptides 26:969-984, 2005). The second part focuses on the "Ca(2+)-modulated ROS-GC membrane guanylate cyclase subfamily". It is divided into two sections. Section "Historical" and covers the area from its inception to the year 2004. It is also freely borrowed from an earlier review (Sharma et al. in Curr Top Biochem Res 6:111-144, 2004). Section "Ca(2+)-modulated ROS-GC membrane guanylate cyclase subfamily" covers the area from the year 2004 to May 2009. The objective is to focus on the chronological development, recognize major contributions of the original investigators, correct misplaced facts, and project on the future trend of the field of mammalian membrane guanylate cyclase. The third portion covers the present status and concludes with future directions in the field.

The role of alpha1 (connexin-43) gap junction expression in adrenal cortical cell function

To investigate the relationship between adrenal cell function and gap junction expression, a bovine adrenal cell line (SBAC) was studied. Western blot and immunocytochemical techniques were used to demonstrate gap junction expression in SBAC cell populations. Cells expressed alpha1 (connexin 43) gap junction protein at points of cell-to-cell contact. Gap junction number and size increased in populations treated with ACTH (40 mU/ml) or dibutyryl cAMP (DbcAMP, 1.0 mM). Treatment with either ACTH or DbcAMP increased steroid production and cAMP levels. SBAC cell number, however, decreased in ACTH- or DbcAMP-treated populations. The number of cells increased in cultures transfected with alpha1-antisense complementary DNA. Neither ACTH nor DbcAMP treatment decreased cell number or increased steroidogenesis in alpha1-antisense complementary DNA-transfected cell populations. However, cell populations in which gap junctions were inhibited retained the capacity to increase cAMP production in response to ACTH (40 mU/ml) treatment. Hormone-stimulated gapjunction expression and cell communication may represent an important factor in adrenal gland function and control of proliferation.

Hormonal modulation of atrial natriuretic factor receptors in adrenal fasciculata cells from female rats

We recently reported that the hormonal status of female rats modified atrial natriuretic factor (ANF) receptors and the aldosterone-suppressant activity of ANF in adrenal glomerulosa cells; here we investigated if this was also true for adrenal fasciculata cells. Adrenal fasciculata cells from animals in different hormonal states contained guanylate cyclase linked ANF-R1 receptors but not ANF-R2 (clearance) receptors. The concentration of ANF-R1 receptors in cells from intact virgin rats was insignificantly higher than in cells from 13- to 15-day pregnant rats and significantly higher than in cells from ovariectomized (OVX), OVX beta-estradiol-treated, and OVX progesterone-treated rats. Under none of the hormonal states did ANF suppress adrenocorticotropic hormone (ACTH) stimulated corticosterone secretion. Data suggest that the interactions between ANF and ACTH on mineralocorticoid and glucocorticoid synthesis markedly differ.

Abnormal metabolism of polyunsaturated fatty acids in adrenal glands of diabetic rats

Studies carried out on the adrenal glands of experimental diabetic rats have shown an important inhibition in polyenoic fatty acid biosynthesis. This effect was demonstrated by testing the activities of long-chain fatty acyl-CoA synthetase, the delta 5- and delta 6-desaturases of the (n-6) essential fatty-acid series and the delta 6-desaturase of the (n-3) series in liver and adrenal microsomes. The depression in desaturating activity in the insulin-deprived animals was independent of that produced on acyl-CoA-thioester biosynthesis. Experiments measuring the incorporation and transformation of [1-14C]eicosa-8,11,14-trienoic acid in adrenocortical cells isolated from streptozotocin-diabetic animals demonstrated a significant inhibition of arachidonic acid biosynthesis compared to controls. Insulin injections in diabetic rats partially restored the delta 5- and delta 6-desaturase activities. This effect could result from direct action by the hormone since the restoration was reproduced when arachidonic acid biosynthesis was measured after insulin was added to the incubation medium of adrenocortical cells isolated from diabetic animals. The results of the present study provide new information about the implication of this abnormal metabolism in the adrenal gland of diabetic rats.

Inhibition of alpha 2-adrenergic receptor-mediated cyclic GMP formation by a phorbol ester, a protein kinase C activator

alpha 2-adrenergic receptor-mediated signal transduction in rat adrenocortical carcinoma cells occurs through the opposing regulation of two second messengers, cyclic GMP and cyclic AMP, in which guanylate cyclase is coupled positively and adenylate cyclase negatively to the receptor signal. We now show that in these cells phorbol 12-myristate 13-acetate (PMA), a known activator of protein kinase C, inhibits the alpha 2-agonist (p-aminoclodine)-dependent production of cyclic GMP in a dose-dependent and time-dependent fashion. The half-maximal inhibitory concentration of PMA was 10(-10) M. A protein kinase C inhibitor, 1-(5-isoquinolinyl-sulfonyl)-2-methyl piperazine (H-7), caused the release of the PMA-dependent attenuation of p-aminoclodine-stimulated cyclic GMP formation. These results suggest that protein kinase C negatively regulates the alpha 2-receptor coupled cyclic GMP system in these cells, a feature apparently shared with the other cyclic GMP-coupled receptors such as those of muscarine, histamine, and atrial natriuretic factor.

Negative regulation of atrial natriuretic factor receptor coupled membrane guanylate cyclase by phorbol ester. Potential protein kinase C regulation of cyclic GMP signal in isolated adrenocortical carcinoma cells of rat

Rat adrenocortical carcinoma cells possess a high density of atrial natriuretic factor (ANF) receptors which are coupled with membrane guanylate cyclase and corticosterone production. Herein we show that pretreatment of these cells with phorbol 12-myristate 13-acetate (PMA), a known activator of protein kinase C, attenuates the ANF-stimulated cyclic GMP accumulation in a dose-dependent manner. The half maximum inhibitory concentration of PMA was 10(-10) M. When these cells were incubated with PMA in the presence of 1-(5-isoquinolinyl-sulfonyl)-2-methyl piperazine, a protein kinase C inhibitor, the PMA-mediated attenuation of ANF-stimulated cyclic GMP formation is blocked. These results suggest that protein kinase C negatively regulates the ANF-receptor coupled membrane guanylate cyclase system in these cells.

Atrial natriuretic factor regulation of cyclic GMP levels and steroidogenesis in isolated fasciculata cells of rat adrenal cortex

Isolated fasciculata cells of rat adrenal cortex, when incubated with atrial natriuretic factor (ANF), stimulated the levels of cyclic GMP and corticosterone production in a concentration-dependent manner without a rise in the levels of cyclic AMP. The ANF-dependent elevation of cyclic GMP was rapid, with a detectable increment in 30 s. ANF also stimulated the particulate guanylate cyclase. These results not only indicate the coupling of cyclic GMP and corticosterone production with ANF signal, but also demonstrate that, like the ACTH signal, cyclic AMP is not the mediator of ANF-induced adrenocortical steroidogenesis.

Quantitative analysis of corticosteroids in adrenal cell cultures by capillary column gas chromatography combined with mass spectrometry

A quantitative method using glass capillary column gas-liquid chromatography (GLC) has been established for the analysis of corticosteroids in small biological samples such as a few milliliters of medium from steroidogenic cultured cells. The steroid extract is separated in three main thin-layer chromatographic fractions. The steroids assayed in these fractions are: less polar fraction (C21O2) steroids), 20 alpha-dihydroprogesterone, pregnenolone and 20 alpha-dihydro-pregnenolone; intermediate fraction (C21O3 steroids), deoxycorticosterone, 11-oxo- and several hydroxy-20 alpha-dihydroprogesterones; corticosteroid fraction (C21O4 steroids), corticosterone and 18-hydroxydeoxycorticosterone. The method has been assessed by characterizing the steroid structures and checking the purity of GLC effluents through direct coupling of the capillary column to the electron-impact or chemical-ionization source of a computerized mass spectrometer. Applications to the quantitative evaluation of the endocrinological status of newborn rat adrenocortical cell cultures under various conditions of development, hormonal stimulation or specific inhibition by drugs are described.

Mediatory role of calcium and guanosine 3', 5'-monophosphate in adrenocorticotropin-induced steroidogenesis by adrenal cells

When incubated in a calcium-free medium, isolated rat fasciculata cells showed neither an increase in the concentration of guanocine 3',5'-monophosphate (cyclic GMP) nor an increase in corticosterone production in response to adrenocorticotropic hormone (ACTH). In response to submaximum and maximum steroidogenic concentrations of ACTH, corticosterone formation was directly proportional to increases in calcium concentration ranging from 0 to 2.5 mM. Higher concentration of calcium, however, inhibited maximal ACTH-induced steroidogenesis. In the absence of ACTH, calcium did not stimulate cyclic GMP accumulation and corticosterone formation. ACTH-induced corticosterone synthesis, preceded by an increase in cyclic GMP, was restored when ACTH and calcium were both present in the medium. Cyclic GMP or dibutryl cyclic GMP-induced steroidogenesis was substantially reduced in the absence of calcium, but in contrast to the ACTH effect a significant amount of corticosterone formation occurred without calcium. It is proposed that at the physiological concentrations of the hormone, calcium regulates the transduction of information between hormone receptors and guanylate cyclase.

Regulatory role of guanosine 3',5'-monophosphate in adrenocorticotropin hormone-induced steroidogenesis

The relation between steroidogenesis induced by adrenocorticotropic hormone and the concentrations of adenosine 3',5'-monophosphate (cyclic AMP) and guanosine 3',5'-monophosphate (cyclic GMP) was studied at different time intervals in isolated adrenal cells. Submaximal and supramaximal steroidogenic concentrations of the hormone did not cause detectable changes in cyclic AMP during the first 30 minutes, whereas there was an increase in the concentration of cyclic GMP that was accompanied by phosphorylation and steroidogenesis. It is therefore suggested that cyclic GMP, rather than cyclic AMP, is the physiological mediator of adrenocorticotropic hormone-induced adrenal steroidogenesis.

Transmission and scanning electron microscopic observations of mouse adrenocortical adenoma cells (Y-1) in non-stimulated and stimulated states

ACTH sensitive murine adrenocortical adenoma cells (Y-1) were examined by transmission and scanning electron microscopes under non-stimulated and stimulated conditions. They showed the ultrastructural characteristics which were fairly different from those of the original adrenocortical cells of LAF1 mice. The smooth-surfaced endoplasmic reticulum (sER) were poorly developed, and the mitochondrial cristae showed lamellar rather than tubular or tubulo-vesicular type. Administration of ACTH induced rounding-up of the Y-1 cells with slight increase in sER, BUt no mitochondria with vesicular inner structure appeared. The effects of dbcAMP on the morphology of the Y-1 cells were similar to those of ACTH except that the rounding-up occurred more rapidly and uniformly.

The action of a single toxic dose of 2-acetylaminofluorene or allylic alcohol on the adrenals. II. Effect on adrenal cyclic 3',5'-adenosine monophosphate concentration during the 1st and 2nd day

In the adrenals of male Sprague-Dawley rats the concentration of cyclic 3',5'-adenosine monophosphate (cAMP) was studied 5, 10, 14, 24, 30 and 39 hours after single intoxication by 2-acetylaminofluorene (AAF) or allylic alcohol (ALL). Beside diurnal changes a transient elevation of adrenal cAMP concentration occurred when compared with the controls 10 hours after intoxication. Thereafter, up to the 30th hour of investigation the values of the experimental groups as well as those of the control groups were within the same range. In the final stage of the experiment (30-39 hours after application) ALL intoxication was associated with a significant increase in adrenal cAMP concentration whereas it was reduced to subnormal level following AAF intoxication. In an earlier experimental study (Danz et al. 1976) we found inverse behaviour of the proliferative activity in the adrenal cortex: cell division was intensified by AAF whereas ALL was ineffective. These results indicate that division growth and functional activities are alternating conditions also in the adrenals. The possible causes of the different effects of intoxication by carcinogens or by noncarcinogenic substances are discussed.

An improved bioassay for ACTH determination

An improved method for the bioassay of ACTH has been developed using short-term culture of adrenal cell suspensions derived from intact rats. Six separate pools of adrenals were used and cells derived from the same pool were compared after acute dispersion and overnight culture. The ED50, defined as the concentration of ACTH required to produce half maximal steroidogenesis, for cultured cells was 35.4+/-2 pg/ml compared to 240+/-60 pg/ml for cells used immediately after dispersion. The minimum concentrations of ACTH necessary to produce a response significantly above basal levels were 0.98+/-.10 pg/ml and 12.1+/-3 pg/ml respectively. Response characteristics of the cultured cells were highly reproducible. The incubation volume employed in this study was 0.25 ml, so the ED50 expressed as dose of ACTH per tube was actually 8.8 pg for the cultured cells. Such sensitivity provides requisite methodology for the measurement of ACTH under varying physiological conditions.

Metabolic regulation of steroidogenesis in isolated adrenal cells of rat. Relationship of adrenocorticotropin-, adenosine 3':5'-monophosphate-and guanosine 3':5'-monophosphate-stimulated steroidogenesis with the activation of protein kinase

The data presented with the isolated adrenal cells, in the present study, show that adrenocorticotropin in the physiological concentration range stimulates the synthesis of guanosine 3':5'-monophosphate(cyclic GMP), protein kinase activity, and steroidogenesis in a concentration-dependent manner without detectable rise in the levels of adenosine 3':5'-monophosphate (cyclic AMP). Millimolar concentrations of cyclic AMP and cyclic GMP, which stimulate corticosterone synthesis, also activate kinase activity and steroidogenesis in a sigmoid concentration-response manner. The process of phosphorylation activated by corticotropin, cyclic AMP and cyclic GMP is not inhibited by cycloheximide or actinomyin D. It is therefore proposed that the hormonal responses mediated by cyclic GMP and cyclic AMP are via the protein kinase enzymatic steps, and the inhibitory effect of cycloheximide and actinomycin D in corticotropin-stimulated steroidogenesis follows this step. In conjuction with our previous observations that the biosynthetic steps from (20S)-20-hydroxycholesterol to corticosterone are neither inhibited by cycloheximide nor affected by cyclic GMP, it is inferred that the rate-limiting step of adrenal steroidogenesis is the transformation of cholesterol to (20S)-20hydroxycholesterol and this very step is regulated by cyclic GMP and cyclic AMP. Of further significance are the findings that micromolar cincentrations of cyclic AMP and cyclic GMP, which do not stimulate steroidogenesis, effectively stimulate protein kinase activity in a concentration-dependent manner. It is therefore concluded that all cyclic-nucleotide-dependent protein kinase activities of the cell are not necessarily related to steroidogenesis.

On the mechanism of action of cholera toxin on isolated rat adrenocortical cells. Comparison with the effects of adrenocorticotropin on steroidogenesis and cyclic AMP output

The effects of cholera toxin on isolated rat adrenocortical cells have been investigated. Both steroid and cyclic AMP output from adrenal cells were increased by the toxin in a dose dependent fashion. The concentration of toxin for half maximal stimulation for both of these responses was about 40 ng/ml. Maximal steroidogenesis and cyclic AMP output was obtained with similar concentrations of the toxin. A correlation was observed between the low amounts of cyclic AMP produced in response to all doses of cholera toxin and to physiologically significant concentrations of adrenocorticotropin (ACTH) (less than 0.1 munit/ml; i.e. submaximal for steroidogenesis in this system). This was in direct contrast to the much higher levels of cyclic AMP generated by concentrations of ACTH greater than 1 munits/ml. Time course studies demonstrated a time-lag between toxin addition and steroid response of at least 40 min. Binding of cholera toxin to adrenal cells was rapid and was 90% complete within 15 min at both 37 and 0 degrees C. These data indicate that most of the delay in response to cholera toxin is due to processes subsequent to the initial binding interaction. Following the initial delay the subsequent maximal rate of steroidogenesis brought about by cholera toxin was very similar to that obtained with a concentration of ACTH that was maximal for steroidogenesis. Significant increases in cyclic AMP levels were detected about 20 min before increased steroidogenesis was apparent. Possible explanations for this result are considered. The results presented indicate great potential use for cholera toxin in the study of adrenal steroidogenic control mechanisms, particularly at the level of receptor mechanisms and the role of cyclic AMP.

Effect of steroidogenesis on ascorbic acid content and uptake in isolated adrenal cells

Isolated adrenal cell preparation was used to investigate the relationship between ascorbic acid and steroidogenesis by two methods: (1) in vivo incorporation of exogenous [1-14C]ascorbic acid into endogenous ascorbic acid of adrenal by intraperitoneal injection of labeled ascorbic acid into rats and studying the depletion of labeled ascorbic acid under a variety of experimental conditions; and (2) study of the uptake of [14C]ascorbic acid by IAC in response to steroidogenic stimuli and various steroids. These studies demonstrate that: 1. IAC preparation by the trypsin digestion method results in almost total depletion of ascorbic acid from adrenal cells, i.e., ascorbic acid content of the cell preparation was less than 1% of the original ascorbic acid in quartered adrenal gland. 2. In spite of such a severe depletion of ascorbic acid, steroidogenesis in response to ACTH and dibutyryl cyclic AMP (dcAMP) is quite pronounced. 3. ACTH and dcAMP affect depletion of endogenously labeled ascorbic acid in IAC by a process that is both concentration- and time-dependent, but is independent of steroidogenic processes. 4. ACTH and dcAMP both inhibit the uptake of exogenous [1-14C]ascorbic acid, which is time-dependent but independent of the steroidogenic phenomenon. 5. The uptake of [14C]ascorbic acid by IAC is independent of extra-to-intracellular gradient of glucocorticoids or mineralocorticoids.

Effect of ascorbic acid on ACTH-induced cyclic AMP formation and steroidogenesis in isolated adrenal cells of vitamin E-deficient rats

Isolated adrenal cells from Vitamin E-deficient and control rats were prepared by a trypsin digestion method. Cyclic adenosine 3',5'-monophosphate (cyclic AMP) formation was studied in response to adrenocorticotropin (ACTH) in the presence and absence of ascorbate by measuring the conversion of prelabeled adenosine 5'-triphosphate [14C]ATP to cyclic [14C]AMP. Ascorbate (0.5 mM) inhibited ACTH-induced cyclic [14C]AMP formation in adrenal cells isolated from Vitamin E-deficient rats but had no effect in the control cells. The inhibitory effect of ascorbate on ACTH-induced cyclic AMP formation in Vitamin E-deficient rats decreased as the concentration of ACTH increased. In Vitamin E-deficient rats ascorbate inhibited ACTH-induced cyclic [14C]AMP formation after 30 min of incubation. There was no further significant accumulation of cyclic [14C]AMP at 60 min or 120 min although in the absence of ascorbate cyclic [14C]AMP continued to be formed. The in vitro addition of alpha-tocopherol reduced the inhibition of ACTH-induced cyclic [14C]AMP formation by ascorbate in Vitamin E-deficient rats. These studies suggest that alpha-tocopherol and ascorbate may affect ACTH-induced cyclic AMP formation through interaction with the membrane-bound enzyme adenylate cyclase.

Cyclic AMP response of isolated Snell adrenocortical carcinoma 494 cells to trophic hormones and other substances

Suspensions of viable cells were prepared from solid tumor of the Snell adrenocortical carcinoma 494 without the use of proteolytic enzymes. Cyclic AMP formation in these cells was stimulated by ACTH, LH, FSH and TSH but not by prostaglandins (E1, E2, F1alpha and F2alpha), insulin and secretin. Glucagon tested at a single dose level of 50 mug increased cyclic AMP to about 65% of the maximum amounts obtained with ACTH. When Ca++ was omitted from the incubation medium, the response to ACTH was considerably reduced while that to LH was essentially unchanged. Low concentrations of EGTA (0.3 MM) abolished the ACTH response almost completely but caused only a partial reduction in the response to LH; as much as 10 mM EGTA was required to obtain complete inhibition of the latter.

The effects of potassium, 5-hydrocytryptamine, adrenocorticotrophin and angiotensin II on the concentration of adenosine 3':5'-cyclic monophosphate in suspensions of dispersed rat adrenal zona glomerulosa and zona fasciculata cells

Dispersed rat adrenal cells prepared from both the capsule and the decapsulated gland were used to investigate the effects on cyclic AMP accumulation of known stimuli of steroidogenesis [ACTH (adrenocorticotrophin), angiotensin II, K(+) ions and 5-hydroxytryptamine]. Since glomerulosa-cell preparations from capsular strippings are normally contaminated with a proportion of fasciculata cells, cells purified by fractionation on a bovine serum albumin gradient were also used. The results showed that: (1) ACTH and angiotensin II stimulated cyclic AMP accumulation in both fractionated and unfractionated zona fasciculata cells; (2) 5-hydroxytryptamine and an increased extracellular K(+) concentration (from 3.6 to 8.4mm) had no effect on cyclic AMP concentrations in fasciculata cell preparations; (3) the addition of ACTH, angiotensin II, 5-hydroxytryptamine or K(+) to the incubation medium resulted in increased cyclic AMP concentrations in unpurified zona glomerulosa cell preparations; (4) fractionation and hence the virtual elimination of fasciculata contamination, did not affect the response to 5-hydroxytryptamine and increased K(+) concentration. However, the responses to ACTH and angiotensin II were markedly lowered but not abolished. These results strongly suggest a link between cyclic AMP production and steroidogenesis in the zone of the adrenal gland that specifically secretes aldosterone. All four agents used stimulated both steroid output and cyclic AMP accumulation. However, at certain doses of 5-hydroxytryptamine, K(+) and angiotensin II the significant increases in corticosterone output were not accompanied by measurable increases in cyclic AMP accumulation.

Fate of corticotrophins in an isolated adrenal-cell bioassay and decrease of peptide breakdown by cell purification

1. The fate of corticotrophins in a trypsin-dispersed rat adrenal-cell assay system was investigated with a view to establishing whether differences in the rate of inactivation might contribute to potency differences observed between analogues. 2. Corticotrophin-(1-24)-tetracosapeptide and to a lesser extent synthetic 1-39 corticotrophins were found to be inactivated during incubation with cell suspension. 3. Peptide fragments were isolated by using [[(3)H(2)]Tyr(23)]corticotrophin-(1-24)- tetracosapeptide as a marker. The fragments indicate a peptidase with a predominantly tryptic specificity. 4. The peptidase is present in the extracellular fluid and is released from cells when they are damaged. 5. Cells were fractionated on an albumin gradient. Cells from the zona fasciculata and the zona intermedia or reticularis were present in fractions which produced fluorogenic steroids in response to corticotrophin. 6. Purification of the cells by centrifugation through albumin decreased degradation by peptidases, so that if the assay is carried out with a dilute suspension of purified cells peptide breakdown should not affect the observed potencies of adrenocorticotrophin analogues. 7. No binding of [[(3)H(2)]Tyr(23)]corticotrophin-(1-24)- tetracosapeptide to cells could be detected at low concentrations of the peptide. This indicated that less than 120 receptors/cell are occupied during stimulation by a dose that would elicit approx. 80% of the maximal response.