The effects of ACTH 1-17 on GH secretion in vitro

Recently we demonstrated that ACTH 1-17 infusion in normal subjects is able to stimulate growth hormone (GH) secretion. In order to study the mechanism by which ACTH 1-17 induces this hormonal secretory pattern, we examined the effects of ACTH 1-17 addition to primary cultures of rat anterior pituitary cells and of two human pituitary adenomas (a mixed GH- and PRL-secreting adenoma and a prolactinoma) on GH and PRL secretion. Normal rat pituitary cells responded to rGRF with a dose-dependent increase of rGH: ACTH 1-17 induced a slight not significant increase of rGH secretion even at micromolar concentrations. Furthermore no additive effect of ACTH 1-17 on rGRF-stimulated GH release was observed. No significant stimulatory effect was also documented in the human tumors studied. These results suggest that the GH releasing activity of ACTH 1-17 observed in vivo is mediated via a direct action on CNS.     

Reports of two cases of selective adrenocorticotropin (ACTH) and growth hormone (GH) deficiency: differential diagnosis from cases with isolated ACTH deficiency associated with transient GH insufficiency

An acquired partial pituitary insufficiency with selective ACTH and GH deficiency was demonstrated in two men aged 47 and 54, for which the clinical course over many years corresponds to Addison's disease. In one of the 2 cases, antibodies to anterior pituitary cell membrane, assayed by an immunofluorescence method with GH3 cells (rat GH and prolactin secreting cell) and AtT-20 cells (mouse ACTH secreting cell) as antigens, were positive. We also present a 55-year-old man with isolated ACTH deficiency associated with transient GH deficiency. In this case, hydrocortisone replacement corrected his subnormal, pre-therapy GH response to insulin tolerance and glucagon propranolol tests, although there was no response of serum GH to L-dops and arginine stimulation test before therapy. Selective ACTH and GH deficiency are very rare and the finding of transient GH insufficiency in a patient with isolated ACTH deficiency suggests that repeated testing while on hydrocortisone replacement therapy is of great diagnostic importance in order to distinguish between selective ACTH and GH deficiency and isolated ACTH deficiency accompanied by transient GH insufficiency.     

Constitutive and basal secretion from the endocrine cell line, AtT-20

A variant of the ACTH-secreting pituitary cell line, AtT-20, has been isolated that does not make ACTH, sulfated proteins characteristic of the regulated secretory pathway, or dense-core secretory granules but retains constitutive secretion. Unlike wild type AtT-20 cells, the variant cannot store or release on stimulation, free glycosaminoglycan (GAG) chains. In addition, the variant cells cannot store trypsinogen or proinsulin, proteins that are targeted to dense core secretory granules in wild type cells. The regulated pathway could not be restored by transfecting with DNA encoding trypsinogen, a soluble regulated secretory protein targeted to secretory granules. A comparison of secretion from variant and wild type cells allows a distinction to be made between constitutive secretion and basal secretion, the spontaneous release of regulated proteins that occurs in the absence of stimulation.     

Rat pro-atrial natriuretic factor expression and post-translational processing in mouse corticotropic pituitary tumor cells

Atrial natriuretic factor (ANF) is stored within atrial myocyte secretory granules as pro-ANF (ANF-(1-126] and is proteolytically processed co-secretionally C-terminal to a single basic amino acid to form ANF-(1-98) and the bioactive product ANF-(99-126). Pro-ANF is also expressed in certain non-cardiac neuroendocrine cell types (e.g. brain, adrenal). Although the relatively low levels of the peptide in these cell types have precluded detailed processing and secretion studies using cultured cells, some work with tissue extracts suggests that pro-ANF is pre-secretionally processed between or C-terminal to Arg101-Arg102 in such cells. In order to assess whether cultured non-cardiac endocrine cells process pro-ANF pre- or co-secretionally, and to establish whether both paired and single basic amino acids can serve as cleavage sites, transfection studies were carried out using the adrenocorticotropic hormone (ACTH)-producing pituitary tumor cell line AtT-20/D-16v. These cells normally cleave pro-ACTH/endorphin pre-secretionally at selected, but not all, pairs of basic amino acids to a variety of product peptides. A prepro-ANF expression plasmid was constructed and transfected into the AtT-20 cells. The resulting ANF/AtT-20 cell clone selected for this study expressed ACTH at levels similar to the untransfected wild type cells and secreted immunoreactive ANF-related material at a rate of approximately 1 fmol/min/10(5) cells, which was about 10% the rate of ACTH secretion. The rates of secretion of both ANF and ACTH could be increased 3-5-fold with a variety of known AtT-20 cell secretagogues including phorbol esters and the beta-adrenergic agonist, isoproterenol, thus indicating that both peptides were routed through regulated secretory pathways. Utilizing a combination of specific antisera directed against various regions of pro-ANF, size exclusion and reversed phase high performance liquid chromatography, and peptide mapping, it was shown that the ANF/AtT-20 cells contained and secreted the bioactive peptide ANF-(103-126) and -(1-97). These results indicate that the ANF/AtT-20 cells specifically cleave pro-ANF pre-secretionally at the same single basic site used by cardiac tissue; this single basic cleavage is apparently followed by removal of Arg98 by carboxypeptidase H. It is also apparent that the cells can cleave at the sole paired basic site in pro-ANF, which is the probable cleavage site used by neurons and some other endocrine cells that express low levels of the prohormone.(ABSTRACT TRUNCATED AT 400 WORDS)     

Processing of proaugurin is required to suppress proliferation of tumor cell lines

Augurin is a secretory molecule produced in pituitary, thyroid, and esophagus and implicated in a wide array of physiological processes, from ACTH release to tumor suppression. However, the specific proaugurin-derived peptides present in various cell types are not yet known. In order to shed light on the posttranslational modifications required for biological activity, we here describe the posttranslational processing of proaugurin in AtT-20 and Lovo cells and identify proaugurin-derived products generated by convertases. In vitro cleavage of proaugurin with proprotein convertases produced multiple peptides, including a major product with a mass of 9.7 kDa by mass spectrometry. Metabolic labeling of C-terminally tagged proaugurin in AtT-20 and AtT-20/PC2 cells resulted in a major 15-kDa tagged form on SDS-PAGE, which likely corresponds to the 9.7-kDa in vitro fragment, with the added tag, its linker, and posttranslational modification(s). The secretion of neither proaugurin nor this cleavage product was stimulated by forskolin, indicating its lack of storage in regulated secretory granules and lack of cleavage by PC2. Incubation of cells with the furin inhibitor nona-d-arginine resulted in impaired cleavage of proaugurin, whereas metalloprotease inhibitors did not affect proaugurin proteolysis. These data support the idea that proaugurin is cleaved by furin and secreted via the constitutive secretory pathway. Interestingly, proaugurin was sulfated during trafficking; sulfation was completely inhibited by brefeldin A. Proliferation assays with three different tumor cell lines demonstrated that only furin-cleaved proaugurin could suppress cell proliferation, suggesting that proteolytic cleavage is a posttranslational requirement for proaugurin to suppress cell proliferation.     

Cadmium chronotoxicity at pituitary level: effects on plasma ACTH,GH, and TSH daily pattern

Cadmium is an endocrine disruptor that has been shown to induce chronotoxic effects. The present study was designed to evaluate the possible cadmium effects on the daily secretory pattern of adrenocorticotropin hormone (ACTH), growth hormone (GH), and thyroid-stimulating hormone (TSH) in adult male Sprague-Dawley rats. For this purpose, animals were treated with cadmium at two different doses [25 and 50 mg/l cadmium chloride (CdCl₂)] in the drinking water for 30 days. Control age-matched rats received cadmium-free water. After the treatment, rats were killed at six different time intervals throughout a 24-h cycle. Cadmium exposure modified the 24-h pattern of plasma ACTH and GH levels, as the peak of ACTH content between 12:00 and 16:00 h in controls appeared at 12:00 h in the group treated with the lowest dose used, while it appeared between 16:00 and 20:00 h in rats exposed to 50 mg/l CdCl₂. In addition, the peak of GH content found at 04:00 h in controls moved to 16:00 h in rats exposed to 25 mg/l CdCl₂, and the highest dose used abolished 24-h changes of GH secretion. The metal treatment did not modify ACTH secretory pattern. Exposure to cadmium also increased ACTH and TSH medium levels around the clock with both doses used. These results suggest that cadmium modifies ACTH and TSH medium levels around the clock, as well as disrupted ACTH and GH secretory pattern, thus confirming the metal chronotoxicity at pituitary level.     

Muscarinic cholinergic inhibition of cyclic AMP formation and adrenocorticotropin secretion in mouse pituitary tumor cells

Cholinergic muscarinic receptors were identified in AtT-20/D16-16 (AtT-20) cell membranes by receptor binding techniques and the effect of carbachol on basal and stimulated cyclic AMP formation and ACTH release was investigated. Carbachol markedly decreased the stimulatory effect of the adenylate cyclase activator, forskolin, on both cyclic AMP formation and ACTH secretion. Carbachol also reduced forskolin-stimulated adenylate cyclase activity. The stimulatory effects of (-) isoproterenol on cyclic nucleotide formation and ACTH secretion were also blocked by carbachol. The inhibitory effects of carbachol on (-) isoproterenol-stimulated cyclic AMP synthesis and ACTH secretion were reversed by the muscarinic antagonist, atropine, and not by the nicotinic antagonist, gallamine. These data suggest that in AtT-20 cells, inhibition of ACTH secretion may be regulated by activation of muscarinic receptors coupled negatively to adenylate cyclase.     

Isolated growth hormone deficiency and the GH-1 gene: update 2002

This short review will focus on the mechanisms which are thought to be directly involved in GH expression and particularly on the monogenetic disorders which were shown to cause isolated growth hormone deficiency (IGHD) due to insufficient expression of GH. The overwhelming majority of genetic defects detected in isolated growth hormone deficiency (IGHD) are mutations of the coding region of the GH-1 gene which belongs to a five genes containing gene cluster located on 17q22-24. Depending on the type of the GH-1 gene mutation, the mode of inheritance is recessive or dominant. The promotor region of the GH-1 gene which encompasses the 300 bp of the 5' flanking region is highly polymorphic, but the functionally important cis-acting elements are conserved. This sequence is sufficient to control GH expression in cultured cells, but not in transgenic mice: the human GH locus control region, an enhancer region of the GH-1 gene located approximately 15-32 kB upstream of the GH-1 coding region was shown to direct pituitary-specific, high-level GH expression in vivo. Promotion of the GH expression needs the coordinate binding of pituitary-specific (i.e., POU1F1) and ubiquitous trans-acting factors to the cis-acting elements. The mutational analysis of trans-acting factors and cis-acting elements of the GH-1 gene has so far not established any defect outside the coding region as the genetic basis of IGHD except for POU1F1 mutations which cause multiple pituitary hormone deficiency including GHD. Several mutations of the GHRH-receptor gene were shown to result in severe IGHD. In the future, the discovery of new defects of the GH expression machinery will add to our understanding of how GH is sufficiently supplied to the organism and will hopefully simplify and improve the diagnostic approach in a subset of children with IGHD.     

Receptor for 1,25-dihydroxyvitamin D3 in GH3 pituitary cells

Cytosol prepared in 0.3 M KCl from pituitary GH3 cells, but not from AtT-20 cells contains a receptor-like macromolecule that binds 1,25-dihydroxyvitamin D3 (1,25(OH)2D3) with specificity and high affinity (Kd = 2.9 x 10(-10) M). The GH3 cytosolic binding component sediments at 3.3 S in high-salt sucrose gradients and adsorbs to DNA-cellulose; its elution profile from DNA-cellulose and other biochemical properties are indistinguishable from those of classical 1,25(OH)2D3 hormone receptors. The presence of the 1,25(OH)2D3 receptor in pituitary cells which secrete primarily growth hormone and prolactin (GH3), but not in a line which secretes the 31,000-dalton ACTH precursor and its derived peptides (AtT-20), suggests that 1,25(OH)2D3 may play a regulatory role in specific pituitary cells.     

In vitro mutagenesis of trypsinogen: role of the amino terminus in intracellular protein targeting to secretory granules

The mouse anterior pituitary tumor cell line, AtT-20, targets secretory proteins into two distinct intracellular pathways. When the DNA that encodes trypsinogen is introduced into AtT-20 cells, the protein is sorted into the regulated secretory pathway as efficiently as the endogenous peptide hormone ACTH. In this study we have used double-label immunoelectron microscopy to demonstrate that trypsinogen colocalizes in the same secretory granules as ACTH. In vitro mutagenesis was used to test whether the information for targeting trypsinogen to the secretory granules resides at the amino (NH2) terminus of the protein. Mutations were made in the DNA that encodes trypsinogen, and the mutant proteins were expressed in AtT-20 cells to determine whether intracellular targeting could be altered. Replacing the trypsinogen signal peptide with that of the kappa-immunoglobulin light chain, a constitutively secreted protein, does not alter targeting to the regulated secretory pathway. In addition, deletion of the NH2-terminal "pro" sequence of trypsinogen has virtually no effect on protein targeting. However, this deletion does affect the signal peptidase cleavage site, and as a result the enzymatic activity of the truncated trypsin protein is abolished. We conclude that neither the signal peptide nor the 12 NH2-terminal amino acids of trypsinogen are essential for sorting to the regulated secretory pathway of AtT-20 cells.     

Further evaluation of IGF-I responsiveness to ACTH in children affected with IGHD.

In our previous studies we had demonstrated that, in children affected with isolated GH deficiency (IGHD), a short-term recombinant growth hormone (rGH) therapy increases the 11-deoxycortisol (S) secretion and induces an IGF-I responsiveness to the ACTH challenge. The aim of the present study was to further investigate the mechanisms by which IGF-I is secreted after ACTH challenge in children affected with IGHD by correlating IGF-I versus cortisol (F) time courses after ACTH administration. Ten children affected with IGHD were subjected to rGH therapy (4 IU/day subcutaneously) for 10 days. The responsiveness of IGF-I, F and S to the ACTH 1-17 test were evaluated before and at the end of the therapy. No IGF-I response to the ACTH test was recorded in the patients before the rGH treatment, whereas after rGH administration ACTH induced a significant IGF-I release (p < 0.001) which started at the 1st hour, reached a peak value between the 5th and 6th hours and disappeared at the 10th hour. In conclusion, our study confirms that a short-term rGH therapy induces an IGF-I responsiveness to ACTH and helps to better define the kinetics and the mechanism of this IGF-I response to ACTH.     

Establishment of stable GH3 cell line expressing enhanced yellow fluorescein protein-growth hormone fusion protein.

To investigate, in real time, the transport and secretion of pituitary hormone, we have developed an experimental pituitary cell line, GH3 cell, which has secretory granules of growth hormone (GH) linked to enhanced yellow fluorescein protein (EYFP). This stable GH3 cell secretes secretory granules of GH linked to EYFP on stimulation by Ca2+ influx or Ca2 release from storage. This GH3 cell will be useful for the real-time visualization of the intracellular transport and secretion of GH.     

Correlation between electrical activity and ACTH/beta-endorphin secretion in mouse pituitary tumor cells

The electrical and secretory activities of mouse pituitary tumor cells (AtT-20/D-16v), which contain and release the ACTH/beta-endorphin family of peptides, were studied by means of intracellular recordings and radioimmunoassays. Injection of depolarizing current pulses evoked action potentials in all cells and the majority (82%) displayed spontaneous action potential activity. Action potentials were found to be calcium-dependent. Barium increased membrane resistance, action potential amplitude and duration, and release of ACTH and beta- endorphin immunoactivity. Isoproterenol increased both action potential frequency and hormone secretion. Raising the external calcium concentration increased the frequency and amplitude of the action potentials and stimulated secretion of ACTH and beta-endorphin immunoactivity. Thus, stimulation of secretory activity in AtT-20 cells was closely correlated with increased electrical activity. However, a complete blockade of action potential activity had no effect on basal hormone secretion in these cells. These results suggest that the mechanisms underlying stimulated hormone secretion are different from those responsible for basal secretory activity. It is proposed that the increased influx of calcium due to the increased action potential frequency initiates the stimulated release of hormone from these cells.     

GH3 cell secretion of growth hormone and prolactin increaseases spontaneously during perfifusion

Summary GH₃ cell secretory activity was studied in long-term perifusion to define previously reported spontaneous increases in growth hormone (GH) and prolactin production (PRL). Mechanically harvested cells (1×10⁷/column) were perifused at 4 ml/h for 72 h. A basal period of variable duration (8 to 12 h), during which hormone secretion was stable, was followed by steadily increasing secretion rates. Changes in cell number were not sufficient to acount for increased jormone secretion rates: a) there was no significant change in cell count after 72 h (0.97±0.03×10⁷;n=18); b) mean cell column DNA content increased 25.5% above the base value, whereas GH secretion rose 385% and PRL rose 178% (n=5). Observed differences in the duration of the basal secretion period, the basal secretory rate, and the magnitude of secretory rate increase were associated with several variables: a) variablility within a subline was a function of passage number: GH secretion decreased and PRL secretion increased with subculture number; b) cells with identical lot and freeze numbers, but received at different times, behaved differently; c) the presence of an antifungal agent (nystatin) altered hormone secretion reproducibly. Conclusions: a) rates of GH and PRL secretion rise spontaneously in perifusion without a proportional increase in GH₃ cell number; b) fluctuations in the rate of GH₃ cell secretion of GH and PRL are not entirely random but are determined by several definable variables. Supported by a grant to MES from the National Institutes of Health (AM33388) and in part by the Medical Research Service of the Veterans Administration.     

Secretory protein targeting in a pituitary cell line: differential transport of foreign secretory proteins to distinct secretory pathways

The mouse pituitary cell line, AtT-20, packages the adrenocorticotropic hormone (ACTH) in secretory vesicles and releases it when the cell is stimulated with secretagogues. These cells have the capacity, after transfection with the appropriate DNA, to package heterologous peptide hormones into the regulated secretory vesicles (Moore, H. P. H., M. D. Walker, F. Lee, and R. B. Kelly, 1983, Cell, 35:531-538). To test if other secreted proteins prefer a different route to the surface, we have transfected AtT-20 cells with DNAs coding for a fragment of a membrane protein, the vesicular stomatitis virus G protein from which the membrane spanning domain has been deleted (Rose, J. K., and J. E. Bergmann, 1982, Cell, 17:813-819). We found that the secreted vesicular stomatitis virus G proteins were not transported to the regulated secretory vesicles. Instead they preferentially exited the cell by the constitutive pathway previously found in these cells (Gumbiner, B., and R. B. Kelly, 1982, Cell, 28:51-59). In contrast, human growth hormone transfected into the cells by the same procedure was transported to the regulated pathway with a similar efficiency as the endogenous hormone ACTH. Transport of the secreted G protein to the regulated pathway, if it occurs at all, is at least 30-fold less efficient than peptide hormones. We conclude that the transport machinery in AtT-20 cells must selectively recognize different secreted proteins and sort them into distinct secretory pathways.     

Autocrine-paracrine inhibition of growth hormone and prolactin production by GH3 cell-conditioned medium

Summary In previous work we have shown that perifused GH₃ cells exhibit spontaneously accelerating growth hormone (GH) and prolactin (PRL) secretory rates. This behavior contrasts with GH and PRL secretion rates that are decreasing or stable over the same 3-d period in static cell culture. We now report that GH₃ cells maintained in serum-supplemented medium produce an autocrine-paracrine factor(s) which inhibits GH secretion in plate culture; PRL release is frequently reduced as well. The inhibitory effect of conditioned medium on GH secretion was concentration dependent, whereas PRL release was stimulated at low and inhibited at high concentrations over the same range. Extensive dialysis of conditioned medium using membranes with a molecular weight cut-off of 12 000–14 000 did not remove GH inhibition but produced a retentate that stimulated PRL secretion. Heat-inactivation of conditioned medium did not abolish inhibition of GH release but did remove the PRL-stimulatory effect. IGF-I added to fresh culture medium did not reproduce the GH-inhibitory effects of conditioned medium. We conclude that GH₃ cell secretory behavior in perifusion and plate culture systems may be partially explained by the production of an autocrine-paracrine factor: its accumulation in plate culture inhibits GH and PRL secretion whereas its removal, by perifusing medium, allows GH and PRL secretion to accelerate. Supported by grant DK33388 to M. E. S. from the National Institute of Health, Bethesda, MD, and in part by the Medical Research Service of the Veterans Administration, Washington, DC.     

Inhibition of voltage-dependent Ca2+ currents and activation of pertussis toxin-sensitive G-proteins via muscarinic receptors in GH3 cells.

In the rat pituitary cell line GH3, carbachol inhibits PRL secretion in a pertussis toxin-sensitive manner. For elucidation of the underlying mechanisms, we studied the effect of carbachol on voltage-dependent Ca2+ currents. Under voltage-clamp conditions, carbachol inhibited whole-cell Ca2+ currents by about 25%. This inhibitory action of carbachol was not observed in cells treated with pertussis toxin, indicating the involvement of a pertussis toxin-sensitive G-protein. In membranes of GH3 cells, carbachol stimulated a pertussis toxin-sensitive high-affinity GTPase. In immunoblot experiments with peptide antisera, we identified two forms of the Gi alpha-subunit (41 and 40 kDa) and two forms of the Go alpha-subunit (40 and 39 kDa). The 40-kDa Gi alpha-subunit was recognized by an antibody specific for the Gi2 alpha-subunit, and the 39-kDa Go alpha-subunit was detected by an antibody specific for the Go2 alpha-subunit. Incubation of membranes with the photoreactive GTP analog [alpha-32P]GTP azidoanilide resulted in photo-labelling of 40- and 39-kDa pertussis toxin substrates comigrating with G-protein alpha-subunits of the corresponding molecular masses. Carbachol dose-dependently stimulated incorporation of the photoreactive GTP analog into the 39-kDa pertussis toxin substrate and, to a lesser extent, into 40-kDa pertussis toxin substrates. The data indicate that muscarinic receptors of GH3 cells couple preferentially to Go, which is likely to be involved in the inhibition of secretion, possibly by conferring an inhibitory effect to voltage-dependent Ca2+ channels.     

Localization of Carboxyl Ester Lipase in Human Pituitary Gland and Pituitary Adenomas

Carboxyl ester lipase (CEL) is an enzyme that hydrolyzes a wide variety of lipid substrates, including ceramides, which are known to show inhibitory regulation of pituitary hormone secretion in experimental models. Because no studies on CEL expression in human pituitary and pituitary adenomas have been reported in the literature, we investigated CEL expression in 10 normal pituitary glands and 86 well-characterized pituitary adenomas [12 FSH/LH cell, 17 α-subunit/null cell, 6 TSH cell, 21 ACTH cell, 11 prolactin (PRL) cell, and 19 GH cell adenomas] using IHC, immunoelectron microscopy, Western blotting, and quantitative RT-PCR. In normal adenohypophysis, CEL was localized in GH, ACTH, and TSH cells. In adenomas, it was mainly found in functioning GH, ACTH, and TSH tumors, whereas its expression was poor in the corresponding silent adenomas and was lacking in FSH/LH cell, null cell, and PRL cell adenomas. Ultrastructurally, CEL was localized in secretory granules close to their membranes. This is the first study demonstrating CEL expression in normal human pituitary glands and in functioning GH, ACTH, and TSH adenomas. Considering that CEL hydrolyzes ceramides, inactivating their inhibitory function on pituitary hormone secretion, our findings suggest a possible role of CEL in the regulation of hormone secretion in both normal and adenomatous pituitary cells. (J Histochem Cytochem 58:881–889, 2010)