Evidence for a signal sequence at the N terminus of the common precursor to adrenocorticothrophin and beta-lipotropin in mouse pituitary cells

The precursor to corticotropin and beta-endorphin was synthesized in a reticulocyte cell-free system under the direction of mRNA from mouse AtT-20 pituitary tumor cells in the presence of [3H]proline, [3H]phenylalanine, [3H]leucine, [3H]valine, [3H]isoleucine or [35S]methionine. Automatic Edman degradation of the radioactive cell-free product showed the following N-terminal sequence: Pro-1, Met-2, Leu-11, Leu-12, Leu-13, Leu-15, Leu-16, Leu-17, Ile-21 and Val-23. The corticotropin-endorphin precursor was also labeled in AtT-20 cells with [3H]valine, [3H]leucine, [3H]tryptophan, [3H]serine, [35S]methionine or [35S]cysteine. Automatic Edman degradation of the radioactive intact cell form gave the following N-terminal sequence: Trp-1, Cys-2, Leu-3, Ser-5, Ser-6, Val-7, Cys-8, Leu-11, Leu-17, Leu-18 and tentatively Met-27. The sequence of the intact cell form from AtT-20 cells matches the sequence of the cell-free form of bovine pituitary precursor beginning at Trp-27, as determined by recombinant DNA technology [Nakanishi, S., Inoue, A., Kita, T., Nakamura, M., Chang, A. C. Y., Cohen, S. N., and Numa, S. (1979) Nature (Lond.) 278, 423-427]. The sequence of the mouse pituitary mRNA-directed cell-free translation product also matches the bovine precursor beginning at Pro-2. The results suggest that both the mouse and bovine precursors possess a signal sequence of 26 amino acids which is cleaved in intact cells. CNBr cleavage of [35S]cysteine-labelled intact cell precursor gave rise to an N-terminal fragment of a size compatible with the presence of a methionyl residue at or near position 27.     

Expression of the human proenkephalin gene in mouse pituitary cells: accurate and efficient mRNA production and proteolytic processing

A recombinant plasmid containing the human proenkephalin gene ligated to pBR322 was introduced into a mouse pituitary cell line (AtT-20D16v) that normally expresses pro-opiomelanocortin but not proenkephalin. The plasmid was introduced by co-transformation with the G418-selectable plasmid, pRSVneo. Stable transformants were isolated and analyzed for the presence of the human proenkephalin gene. AtT-20 transformants which had one or more copies of the human proenkephalin gene integrated stably into the mouse chromosomal DNA expressed a 1.45 kb mRNA identical in size to human proenkephalin mRNA. Primer extension analysis indicated that the human proenkephalin gene was accurately and efficiently transcribed from its own promoter. AtT-20 transformants that expressed the 1.45 kb human proenkephalin mRNA also expressed proenkephalin protein and cleaved the protein to form free Met-enkephalin. This is of particular interest because these cells do not cleave all of the available pairs of basic amino acids in the endogenous protein, pro-opiomelanocortin, the precursor to ACTH, beta-endorphin and melanocyte stimulating hormones. The release of both ACTH and Met-enkephalin from these cells is stimulated by corticotropin releasing factor, a natural secretagogue for ACTH, indicating that the two classes of peptide share a related secretory pathway.     

Effects of steroid hormones on the level of corticotropin messenger RNA activity in cultured mouse-pituitary-tumor cells.

Studies have been made with the mouse pituitary tumor cell line AtT-20 in culture to determine whether or not the suppression of pituitary corticotropin messenger RNA activity observed upon the administration of glucocorticoids to adrenalectomized rats is due to a direct action of these steroid hormones on the pituitary. The levels of corticotropin messenger RNA activity in AtT-20 cells treated with various steroid hormones were measured with the use of the cell-free protein-synthesizing system derived from wheat germ. The addition of dexamethasone to culture medium reduced the level of corticotropin messenger RNA activity to 30-40% of that in untreated cells. Corticosterone and cortisol exhibited a suppressive effect to a lesser extent. In contrast, nonglucocorticoids such as testosterone and 17beta-estradiol were essentially ineffective. These results indicate that at least part of the glucocorticoid action is exerted directly on the pituitary to suppress corticotropin messenger RNA activity.     

Distribution of the messenger RNA coding for the common precursor of corticotropin and beta-lipotropin within the bovine pituitary.

The distribution of the mRNA coding for the common precursor of corticotropin and beta-lipotropin among different parts of the bovine pituitary has been investigated by quantifying the mRNA activity with the use of a cell-free protein-synthesizing system. The results obtained have demonstrated that this mRNA activity is located both in the anterior lobe and in the intermediate lobe, while it is essentially not detectable in the neural lobe nor in the stalk. The structural identity of the translation products of corticotropin/beta-lipotropin mRNA from the anterior and from the intermediate lobe has been indicated by their molecular weight as well as by the electrophoretic patterns of the peptide fragments formed from them upon partial enzymatic proteolysis or upon cyanogen bromide cleavage. The specific activity of corticotropin/beta-lipotropin mRNA in the intermediate lobe is about 20-fold higher than that in the anterior lobe, and the total activity of this mRNA in the former is about 2-fold higher than that in the latter. In the intermediate lobe, the translation product of corticotropin/beta-lipotropin mRNA amounts to almost one-third of the products encoded by total translatable mRNA. These results indicate that corticotropin/beta-lipotropin mRNA represents a major mRNA species in intermediate lobe of the pituitary, thus suggesting that this lobe may perform a highly specialized function in producing a large amount of the common precursor of corticotropin and beta-lipotropin.     

Regulation of endorphin production by glucocorticoids in cultured pituitary tumor cells

When clonal AtT-20 mouse pituitary tumor cells were exposed in culture to physiological concentrations of glucocorticoids for 2 or more days, the intracellular endorphin content was reduced by 50–75%. The steroid specificity is consistent with a glucocorticoid-receptor mediated response. Gel filtration analysis indicates a reduction of both the major and the minor endorphin species present, which resemble β- and α-endorphin, respectively. The results suggest that endorphin synthesis, like corticotropin synthesis, is under negative regulatory control by glucocorticoids in AtT-20 cells and in the corticotropin/endorphin-producing cells of the adenohypophysis.     

High molecular weight forms of adrenocorticotropic hormone are glycoproteins.

Mouse pituitary tumor cells (AtT-20/D-16v) were incubated in medium containing [3H] glucosamine or [3H] mannose. By analyzing immunoprecipitates of cell extracts and culture medium it was shown that [3H] glucosamine and [3H] mannose were incorporated into all three high molecular weight forms of ACTH; label was not incorporated into Mr=4,500 ACTH (which is thought to be similar to the 39 amino acid polypeptide form of ACTH, alpha(1-39)). Based on sodium dodecyl sulfate-polyacrylamide gel electrophoresis the apparent molecular weights of these glycoprotein forms of ACTH were 31,000, 23,000, and 13,000. Gel filtration in 6 M guanidine HCl indicated that the molecular weights of these forms of ACTH were substantially lower; sodium dodecyl sulfate-polyacrylamide gel electrophoresis has often been found to overestimate the molecular weight of glycoproteins. A significant fraction of the high molecular weight ACTH in tumor cell extracts binds to columns of concanavalin A-agarose and can be eluted with 0.2 M alpha-methyl-D-mannopyranoside; porcine alpha(1-39) does not bind to concanavalin A-agarose. High molecular weight glycoprotein ACTH can be detected in extracts of mouse and bovine pituitary by using concavalin A affinity chromatography.     

Mouse pituitary tumor mRNA directed cell-free synthesis of polypeptides that are cross-reactive with adrenocorticotropic hormone antiserum.

A wheat germ extract was used to translate mRNA isolated from the mouse pituitary tumor AtT-20. This RNA directed the synthesis of a product which was precipitated with antiserum specific for the synthetic adrenocorticotropic hormone polypeptide β(1–24)(Synacthen). Analysis of the products by the radioimmunoassay technique also indicated the presence of an immunoreactive adrenocorticotropic hormone-like material. The molecular weight of this product was 31,000 as determined by electrophoresis in sodium dodecylsulphate-polyacrylamide gels. These findings suggest that the 31,000 species may be the primary gene product in adrenocorticotropic hormone biosynthesis.     

Forskolin Stimulates Adenylate Cyclase Activity, Cyclic AMP Accumulation, and Adrenocorticotropin Secretion from Mouse Anterior Pituitary Tumor Cells

Abstract: The effects of forskolin, an adenylate cyclase activator, were investigated on adrenocorticotropin (ACTH) secretion from AtT-20/D16-16 mouse pituitary tumor cells. Forskolin increased adenylate cyclase activity in these cells in the absence of added guanyl nu-cleotide, an effect blocked by somatostatin. Cyclic AMP synthesis and ACTH secretion increased in a concentration-dependent manner, not only in the clonal cells, but in primary cultures of rat anterior pituitary as well. Somatostatin inhibited cyclic AMP synthesis and ACTH secretion in response to forskolin. When forskolin was coapplied with corticotropin releasing factor, cyclic AMP synthesis was potentiated and ACTH secretion additive. The calcium channel blocker, nifedipine, inhibited forskolin, and 8-bromocyclic AMP stimulated ACTH secretion. These data suggest that ACTH secretion may be regulated at the molecular level by changes in cyclic AMP formation, which in turn regulate a calcium gating mechanism.     

High molecular weight forms of adrenocorticotropic hormone in the mouse pituitary and in a mouse pituitary tumor cell line.

Denaturing solvents have been used to determine the molecular weight of the adrenocorticotropic hormone (ACTH) activity in mouse pituitary, in an ACTH secreting mouse pituitary tumor cell line (AtT-20/D-16v), and in the tissue culture medium from the pituitary tumor cells. ACTH activity was quantitated by radioimmunoassay and by bioassay. It is possible to utilize guanidine hydrochloride or sodium dodecyl sulfate in characterizing the multiple forms of ACTH because treatment of porcine ACTH (the 39 amino acid polypeptide form of ACTH, alpha(1-39)), pituitary extracts, tumor cell extracts, and tumor cell tissue culture medium with these denaturants does not diminish the immunological ACTH activity. Based on gel filtration in the presence of guanidine hydrocholoride, extracts of the pituitary tumor cells and the mouse pituitary contain three distinct molecular weight classes of ACTH activity. The major form of ACTH has a molecular weight similar to alpha(1-39) (molecular weight 4000-5500), but there are significant amounts of two higher molecular weight forms of ACTH: molecular weight 6500-9000 and molecular weight 20,000-30,000. The 6500-9000 molecular weight form of ACTH is the major form of ACTH in the tissue culture medium; there is no peak of alpha(1-39) size ACTH in the medium. In the radioimmunoasay all three forms of ACTH generate competitive binding curves parallel to that of porcine alpha(1-39); in the bioassay (stimulation of steroidogenesis in a mouse adrenal tumor cell line) the dose response curve for each of the molecular forms of ACTH is parallel to that for porcine alpha(1-39).     

The Preparation of Biologically Active Messenger RNA from Human Postmortem Brain Tissue

Abstract: Messenger RNA (mRNA) was extracted from human postmortem brain tissue by alkaline phenol extraction of polysomes followed by oligo (dT)-cellulose chromatography. The mRNA preparations stimulated protein synthesis in a cell-free system containing wheat germ homogenate. The products of protein synthesis were analyzed by one- and two-dimensional gel electrophoresis. These analyses indicated that numerous polypeptides, including tubulin subunits and actin isomers, were synthesized by the human mRNA. The molecular weight range of polypeptides synthesized by human mRNA fractions from two brain specimens were identical, and analysis by two-dimensional gel electrophoresis indicated qualitatively similar products. The yield of mRNA extracted per gram of human tissue was less than the yield obtained with rat forebrains from animals sacrificed immediately before brain removal and mRNA purification. A decrease in the amount of polysomes isolated from human tissue relative to rat brain tissue was a major factor contributing to the low yield. The molecular weight distribution of polypeptides synthesized by human and rat brain mRNA fractions in wheat germ homogenate was similar; thus, there was no indication for selective breakdown or inactivation of high molecular weight mRNA species in the human tissue. Our studies indicate that it is possible to utilize postmortem tissue for molecular biological investigations of human brain mRNA.     

Expression of porcine cholecystokinin cDNA in a murine neuroendocrine cell line. Proteolytic processing, sulfation, and regulated secretion of cholecystokinin peptides

The cDNA for porcine preprocholecystokinin (pre-pro-CCK) was engineered for expression in mammalian cells under the control of the Rous sarcoma virus-long terminal repeat promoter. This expression construct was transfected into the murine anterior pituitary cell line, AtT-20. A stable cell line (AtT-20/CCK) was derived that expresses CCK mRNA indistinguishable from the CCK mRNA found in pig brain or gut. The AtT-20/CCK cells carry out proteolytic processing and sulfation reactions to generate authentic sulfated CCK8 from pro-CCK. The cells also store and secrete CCK-immunoreactive peptides. This secretion can be stimulated with corticotropin releasing factor, the natural secretagogue for anterior pituitary cells. In contrast, monkey kidney epithelial cells (COS cells), which are transiently transfected to express CCK, predominantly secrete nonsulfated pro-CCK into the medium. These studies show that a murine neuroendocrine cell line contains the complete processing machinery required to generate authentic porcine CCK8. The processing events include simultaneous proteolytic processing at one and two basic amino acid sites and sulfation of tyrosine residues. The cell line thus duplicates exactly the processing patterns found to occur in pig brain cortex.     

Programmed appearance of translatable flagellar tubulin mRNA during cell differentiation in Naegleria.

The programmed de novo synthesis of flagellar tubulin during the hour-long differentiation of Naegleria gruberi from amoebae to flagellates is our paradigm for the study of gene expression during cell differentiation. This paper reports the efficient translation of flagellar tubulin mRNA in the wheat germ cell-free system directed by total or polyadenylated RNA extracted from differentiating cells. The tubulin in the in vitro product has a subunit molecular weight of 55,000, separates into alpha and beta subunits under suitable conditions of polyacrylamide gel electrophoreis and co-polymerizes with calf brain tubulin. At least half of the tubulin synthesized in vitro is precipitated by antibodies specific to flagellar tubulin, and the immunoprecipitated tubulin subunits yield peptide maps similar to those of outer doublet tublin. Flagellar tubulin is the predominant protein synthesized in the cell-free system, and amounts to about 5% of the polypeptides whose synthesis is directed by total RNA from differentiating cells. In contrast, little or no flagellar tubulin is synthesized when the cell-free system is directed by RNA extracted from amoebae prior to differentiation. Translation assays show that at least 92% of the flagellar tubulin mRNA appears during differentiation. The time course of appearance of this mRNA was measured by quantitative immunoprecipitation of the cell-free products. Under conditions where cells from flagella 60 min after initiation of differentiation, translatable flagellar tubulin mRNA was first detected at 20 min, reached a maximum at about 60 min and then declined. An excellent correlation was observed between the amount of translatable flagellar tubulin mRNA and the previously measured rates of flagellar tubulin synthesis in vivo. These results indicate that synthesis of flagellar tubulin is a direct reflection of the abundance of its mRNA, and provide the molecular techniques for dissection of the factors that regulate the rapid appearance of this structural protein during differentiation.     

Multiple tachykinins are produced and secreted upon post-translational processing of the three substance P precursor proteins, alpha-, beta-, and gamma-preprotachykinin. Expression of the preprotachykinins in AtT-20 cells infected with vaccinia virus recombinants

The rat preprotachykinin I gene mRNA is alternatively spliced to yield three different mRNA species differing in their protein coding regions. We have produced recombinant vaccinia viruses expressing alpha-, beta-, and gamma-preprotachykinin to examine the tachykinin-related peptides produced upon post-translational processing of each individual precursor. Infection of BSC-40 or AtT-20 cell lines with a beta-preprotachykinin-encoding vaccinia virus recombinant results in the expression of the precursor protein. The pro-form (signal peptide removed) can be immunoprecipitated from extracts of infected cells. Infected cells of both types secrete into the culture medium a product(s) which reacts in radioimmunoassay with an antiserum shown to recognize precursor as well as mature substance P. Infected AtT-20, but not BSC-40, cells secrete into the culture medium a processed form(s) of beta-preprotachykinin which reacts in radioimmunoassay with an anti-serum which recognizes the amidated carboxyl terminus of substance P. The molecular nature of the tachykinin products produced in and secreted from AtT-20 cells infected with alpha-, beta-, and gamma-preprotachykinin-encoding recombinants was analyzed by combined high performance liquid chromatography and radioimmunoassay. Peptides were identified based on comigration with synthetic standards and antisera cross-reactivity. We determined that alpha-preprotachykinin is processed to the mature undecapeptide, substance P. beta-Preprotachykinin was processed into multiple products, including substance P, neurokinin A, neurokinin A(3-10), and neuropeptide K. gamma-Preprotachykinin was processed into substance P, neurokinin A, neurokinin A(3-10), and neuropeptide gamma. These five tachykinin peptide products were all routed through the regulated secretory pathway and were secreted into the medium in a cAMP-stimulatable fashion. Since all of these peptides have been shown to be biologically active, it is important to consider the biological consequences of their co-secretion in vivo.     

Chinese hamster lung cell polysomes direct the synthesis of a single molecular weight species of procollagen alpha chains.

Polysomes prepared from cultured Chinese hamster lung cells direct the synthesis of procollagen alpha chains in an heterologous cell-free system containing the postribosomal supernatant fraction prepared from wheat germ. Total protein synthesis requires both subcellular components and an exogenous energy source, and is inhibited by the antibiotics puromycin and aurin tricarboxylic acid. The ratio of collagenase-digestible to nondigestible material produced depends upon the wheat germ and not the polysome level in the reaction. Under optimal conditions, a significant fraction of the total product migrates on denaturing sodium dodecyl sulfate-polyacrylamide gels as a single molecular weight collagenase-digestible species corresponding in size to the procollagen alpha chain (Mr approximately equal to 170,000). Approximately one-third of this high molecular weight material represents products whose synthesis results from cell-free mRNA initiation, and no distinct product larger than the 170,000-dalton material is observed. These studies confirm the initial observation that collagen represents one of the major gene products of Chinese hamster lung cells and demonstrate the usefulness of this cell line for the study of mammalian collagen biosynthesis.     

The effects of cell membrane alteration on glucocorticoid uptake by the AtT-20/D-1 target cell

The glucocorticoid-sensitive AtT-20/D-1 cell line was used to study cellular uptake of glucocorticoids. A previous observation that glucocorticoid uptake by these cells was temperature dependent had prompted us to postulate that glucocorticoids entered the cell by a temperature-sensitive transport process located in the cell membrane. Attempts were then made to perturb the membrane mechanism. In some of these experiments, intact cells were treated with neuraminidase or pronase. The release of sialic acid in the case of neuraminidase treatmentand of sialic acid and cell surface peptides in the case of pronase treatment demonstrated that the enzymes were effective. Approx. 60% of total cellular sialic acid was released by a 15 min incubation with 20 μg/ml neuraminidase at 25°C. The treated cells appeared to be viable, in that they continued to produce corticotropin at a normal rate, yet intact cell glucocorticoid binding at both 4 and 25°C was only 20–30% of that of untreated cells. Treatment with pronase also caused steroid uptake at 4 and 25°C to be reduced, although the extent of reduction was less than that seen following neuraminidase treatment.In other experiments, the effect of exposure of AtT-20/D-1 cells to ethanol or dimethyl sulfoxide was determined. The solvent concentrations used (0.5–10%) did not alter cell viability significantly, and the ability of the cytosol receptor to bind steroid in a cell-free preparation was unimpaired. However, incubation of intact cells with 10% (v/v) dimethyl sulfoxide or ethanol resulted in an 80–90% decrease in steroid uptake at 25°C.We conclude that steroid uptake by the intact cell can be perturbed by treatments which do not affect the cytosol receptor or alter cell viability. These results support the postulate that glucocorticoids enter the AtT-20/D-1 cell by a specific membrane-associated mechanism.     

An Expression System for the Single-Step Production of Recombinant Human Amidated Calcitonin

Amidating mouse pituitary cells (AtT-20) have been engineered to secrete human calcitonin (hCT) in the fully active amidated form, without the need of additional enzymatic or chemical modifications. The 141-residue human calcitonin precursor has first been cloned in the eucaryotic expression vector pRc/RSV, and the resulting plasmid pRc/RSV/hCT introduced in AtT-20 cells. After transfection, 122 independent clones resistant to G-418 were selected and screened for calcitonin production using a competitive ELISA specifically designed to detect the amidated form of calcitonin. One of these clones was amplified and showed expression of 17 ng/ml of hCT, with a 70% increase in productivity after cAMP treatment. Calcitonin was partially purified from culture medium by two sequential steps of reverse-phase chromatography and characterized in terms of immunoreactivity and molecular weight by TOF-MALDI mass spectroscopy, which confirmed the intended chemical nature and the presence of the C-terminal amidated residue.