Multiple episodes of induced secretion of human growth hormone from recombinant AtT-20 cells

Recombinant AtT-20 cells expressing human growth hormone (hGH) secreted the hormone at a constant, basal rate of 0.3–0.5 ng/10⁵ cells-hour when exposed to medium without secretagogues. When triggered with 8 bromo-cyclic AMP, cells secreted hGH at an initial rate of 1.7 ng/10⁵ cells-hour while intracellular hGH declined sharply. Upon extended exposure to secretagogue, secretion decreased gradually to the basal rate and intracellular hGH stabilized at a value 40% the initial. In cells switched from secretion to growth medium, the total rate of hGH accumulation intracellularly and in medium was 2.2 times that observed with cells never exposed to secretagogue; however, only a fraction of the hormone was stored intracellularly and the rest was secreted. When cells were exposed alternately to growth and secretion medium, induced cells secreted at rates at least two times higher than uninduced controls during the first five cycles. The induced response deteriorated with time, however, in parallel with outgrowth of attached cells by foci of round cells, and by the eighth cycle induced secretion did not occur. Operational modifications that may improve the performance of cycling schemes are discussed.     

Cultivation of recombinant,insulin-secreting AtT-20 cells as free and entrapped spheroids

Animal cells from endocrine glands have potential applications in bioprocessing, for the production of hormones, enzymes, possibly also recombinant proteins, and in tissue engineering, for the development of immunoisolated, implantable devices for long-term treatment of endocrine disorders. Immunoisolation can be achieved by surrounding cells with a biocompatible polymer which allows diffusion of nutrients and metabolites, including hormones, but excludes higher molecular weight antibodies and cytotoxic cells. Primary hormone-secreting cells cannot be effectively amplified in culture, so the large-scale application of implantable systems based on such cells is limited by cell availability. In this study, we conducted an initial assessment of the feasibility of using transformed, continuous cell lines in immunoisolated devices. The model system employed consisted of mouse pituitary tumor AtT-20 cells which secrete recombinant proinsulin and an insulin-like peptide and exhibit a high growth potential. Cells were cultivated as spheroids in spinner flasks and entrapped as such in alginate/polylysine/alginate beads. Free and entrapped spheroids were propagated in fed-batch, suspension cultures. Entrapment did not significantly affect spheroid metabolism or basal secretion. Entrapped spheroids did not increase in size or number and maintained roughly constant metabolic and basal secretory activities over a 15-day period. Free spheroids in suspension increased in size during the sami period, but also maintained constant metabolism and basal secretion, apparently because of a concomitant increase in hypoxic and/or necrotic cells. The potential of using continuous cell lines in the development of bioartificial endocrine organs is discussed.     

Regulation of exocytosis in electrically permeabilized insulin-secreting cells. Evidence for Ca2+ dependent and independent secretion

The regulation of insulin secretion from RINm5F cells exposed to high voltage discharge has been investigated. Electron microscopy revealed that the overall structure of the cells was preserved after permeabilization. In this preparation insulin release was stimulated by Ca²⁺ (EC₅₀=2.4 M). The stable GTP analogue GTPS enhanced secretion both at intermediate (nano- to micromolar) and vanishingly low (<10 pM) Ca²⁺ concentrations. At optimal Ca²⁺ (10 M) the effect of GTPS was greatly reduced. We investigated whether the secretory response to GTP analogues was mediated by any of three enzyme systems regulated by GTP-binding proteins, i.e. generation of cyclic AMP by adenylate cyclase, of diacylglycerol by phospholipase C and of arachidonic acid by phospholipase A₂. The involvement of these messenger systems could be excluded as (i) cyclic AMP only had minor, Ca²⁺ dependent effects, (ii) phospholipase C was not activated in the absence of Ca²⁺ and insulin secretion due to the phorbol ester TPA displayed a different Ca²⁺ dependency, (iii) arachidonic acid did not elicit Ca²⁺ independent insulin secretion. These results, taken together with the finding that insulin secretion due to Ca²⁺ or TPA is attenuated by the inhibitory guanine nucleotide GDPS, suggest the existence of a regulatory site in exocytosis which is sensitive to guanine nucleotides.Abbreviations InsP₃ inositol trisphosphate - Ptd-InsP₂ phosphatidylinositol 4,5-bisphosphate - GTPS guanosine 5-(3-O-thio)triphosphate - GDPS guanosine 5-(2-O-thio)diphosphate - Gpp(NH)p guanyl-5-yl imidodiphosphate - TPA 12-O-tetradecanoylphorbol-13-acetate - OAG 1-oleoyl-2-acetylglycerol - Hepes 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid - EGTA (ethylenebis(oxyethylenenitrilo)tetraacetic acid - DAG diacylglycerol - [Ca²⁺]_i cytosolic free Ca²⁺ concentration     

Interaction of ACTH synthetic fragments with rat adrenal cortex membranes.

Synthetic peptide, corresponding to the amino acid sequence 11-24 of human adrenocorticotropic hormone (ACTH), was labeled with tritium (specific activity of 22 Ci/mmol). [(3)H]ACTH (11-24) was found to bind to rat adrenal cortex membranes with high affinity and specificity (K(d) = 1.8 +/- 0.1 nM). Twenty nine fragments of ACTH (11-24) have been synthesized and their ability to inhibit the specific binding of [(3)H]ACTH (11-24) to adrenocortical membranes has been investigated. Unlabeled fragment ACTH 15-18 (KKRR) was found to replace in a concentration-dependent manner [(3)H]ACTH (11-24) in the receptor-ligand complex (K(i) = 2.3 +/- 0.2 nM). ACTH (15-18) was labeled with tritium (specific activity of 20 Ci/mmol). [(3)H]ACTH (15-18) was found to bind to rat adrenal cortex membranes with high affinity (K(d) = 2.1 +/- 0.1 nM). The specific binding of [(3)H]ACTH (15-18) was inhibited by unlabeled ACTH (11-24) (K(i) = 2.2 +/- 0.1 nM). ACTH (15-18) at the concentration range of 1-1000 nM did not affect the adenylate cyclase activity in adrenocortical membranes.     

Practical considerations regarding the use of streptolysin-O as a permeabilising agent for cells in the investigation of exocytosis

Streptolysin-O is widely used in cell biological investigations in order to make large (>12 nm) pores in the plasma membrane and so to render the cytosol directly accessible to experimental manipulation. We have compared the effect of streptolysin-O commercially formulated (Murex Diagnostics) as a diagnostic reagent in pathology with two pure reagents (a conventional purified protein, and a recombinant protein generated in E.coli) on exocytotic secretion from mast cells. For mast cells permeabilised by streptolysin obtained from the commercial source, exocytosis (of -D-N-acetylglucosaminidase) is dependent on provision of both Ca²⁺ and a guanine nucleotide. In contrast, for cells permeabilised by either of the two pure proteins, a substantial extent of Ca²⁺-independent exocytosis can be elicited. When the Murex material is subject to dialysis or ultrafiltration, some secretion can be induced in the absence of Ca²⁺, indicating a modulatory function of the low mol wt additives of formulation, mainly phosphate and cysteine. However, Ca²⁺-independent exocytosis is still manifest when the pure proteins are reconstituted with ultrafiltrates from the Murex material. These observations indicate that reagents used to permeabilise cells should be characterised thoroughly and used with great care. Confirmation that the cytolytic activity of the Murex material derives from a cholesterol directed factor was demonstrated by inhibition of exocytosis when red blood cell derived (and hence cholesterol containing) sonicated liposomes were provided.     

Effect of transient overexpression of Gqα on soluble and polymerized tubulin pools in GH3 and AtT-20 cells

In order to study G_q-tubulin interaction in the cytosol, GH₃ and AtT-20 cells (stably expressing TRH receptor) were transiently transfected with G_qα cDNA. Forty-eight hours after transfection, thyrotropin-releasing hormone (TRH)-stimulated prolactin (PRL) secretion by G_qα-transfected GH₃ cells increased by 90% compared to mock-transfected cells. In addition, using immunocytochemistry it was observed that G_qα-specific staining was much more prominent in G_qα-transfected GH₃ and AtT-20 cells (also transfected with G_qα) compared to mock-transfected cells. Thus, transfection resulted in successful overexpression of functional G_qα. Forty-eight hours after transfection, cells were processed to obtain soluble and polymerized tubulin fractions. Tubulin levels were determined in these fractions by immunoblotting using polyclonal anti-tubulin antibodies. Compared to mock-transfected cells soluble tubulin levels decreased in G_qα-transfected GH₁ and AtT-20 cells, by 33 and 52%, respectively. Moreover, compared to mock-transfected cells a 50% reduction in the ratio (an index of the flux between tubulin pools) of soluble and polymerized tubulin levels was observed in G_qα-transfected GH₃ and AtT-20 cells. To determine whether these effects on tubulin were mediated by G_q directly, we examined the influence of purified G_q on tubulin polymerization. G_q (0.5 μM) inhibited polymerization of crude tubulin (present in GH₃ cell cytosol) by 53%. In contrast to its effects on GH₃ cell cytosol tubulin, G_q stimulated purified tubulin polymerization by 160%. These results suggest that G_q modulates the polymerization and depolymerization cycles of tubulin and that this modulation is in turn influenced by other unknown cellular components. © 1996 Wiley-Liss, Inc.     

Multiple G-protein involvement in parathyroid hormone regulation of acid production by osteoclasts

The involvement of multiple G-proteins in parathyroid hormone regulation of acid production was demonstrated in a highly enriched osteoclast population. Osteoclasts were isolated from the endosteum of 2.5 to 3-week-old chicken tibia using sequential enzymatic digestion. Single cell analysis of acid production was accomplished using microscope photometry and vital staining with acridine orange, a hydrogen ion concentration sensitive fluorescent dye. Lithium chloride, an uncoupler of G-proteins from their respective receptors, blocked parathyroid hormone stimulated production of acid. Cholera toxin, which permanently activates G_s-proteins, mimicked PTH stimulation. Pertussis toxin, which prevents receptor interaction with G_i- and G_o-proteins, blocked both 10 ⁸ M and 10 ¹¹ M PTH stimulated acid production, suggesting that the pertussis toxin-sensitive G-protein is utilized at both PTH concentrations. Immunoblots of osteoclast plasma membrane proteins, using a panel of antibodies generated against specific G-protein α subunits, revealed a 48 kDa G_sα, a 41 G_oα, a 34 kDa G_iα-3, and a unique 68 kDa Gα subunit, with the 41 kDa and 34 kDa bands being the most intense. Immunoblots of osteoblast plasma membrane proteins had a substantially different profile with the most intense bands being a G_sα (48 kDa) and a G_oα (36 and 38 kDa). The studies suggest the utilization of at least two different G-proteins in the parathyroid hormone regulation of acid formation by osteoclasts, a G_s and a pertussis toxin-sensitive G-protein (G_o and/or G_iα-3). J. Cell. Biochem. 64:161–170. © 1997 Wiley-Liss, Inc.     

An [3H]oxotremorine binding method reveals regulatory changes by guanine nucleotides in cholinergic muscarinic receptors of cerebral cortex

A rapid, reliable filtration method for [³H]oxotremorine binding to membranes of the cerebral cortex that allows the direct study of regulation by guanine nucleotides of muscarinic receptors was developed. [³H]Oxotremorine binds to cerebral cortex membranes with high affinity (K _D, 1.9 nM) and low capacity (B _max, 187 pmol/g protein). These sites, which represent only about 18% of those labeled with [³H]quinuclidinyl benzilate, constitute a population of GTP-sensitive binding sites. Association and dissociation binding experiments revealed a similar value ofK _D (2.3 nM). Displacement studies with 1–4000 nM oxotremorine showed the existence of a second binding site of low affinity (K _D, 1.2 M) and large capacity (B _max, 1904 pmol/g protein). Gpp(NH)p, added in vitro, produced a striking inhibition of [³H]oxotremorine binding with an IC 50 of 0.3 M. Saturation assays, in the presence of 0.5 M Gpp(NH)p, revealed a non-competitive inhibition of the binding with little change in affinity. These results are discussed from the viewpoint of conflicting reports in the literature about guanine nucleotide regulation of muscarinic receptors in reconstituted systems and membranes from different tissues.     

Dual regulation of the cardiac L-type calcium channel in L6 cells by protein kinase C

The role of protein kinase C (PKC) in the regulation of cardiac L-type Ca²⁺ channel activity (LCC) was investigated in L6 rat neonatal myoblasts. Depolarization of fura-2 loaded cells with 140 mM KCl activated a Ba²⁺ influx pathway that was blocked by nifedipine and stimulated by (−) Bay K 8644. At least two splice variants of the α_1C subunit of the cardiac LCC were identified by PCR; the α_1S subunit of the skeletal muscle LCC was not detected. Peptides that specifically inhibit translocation of the novel, Ca²⁺-independent δ and PKC isozymes reduced Ba²⁺ influx by 27% and 19%, respectively, whereas a corresponding peptide directed against translocation of classical PKC α had no effect. Ingenol 3,20-dibenzoate, an agent reported to selectively activate novel PKCs, increased Ba²⁺ uptake by 31% while ethanol, a PKC agonist, enhanced uptake by 38%. In contrast, selective activation of classical PKCs with thymeleatoxin or an agonist peptide reduced Ba²⁺ influx by 23–33%. Ba²⁺ influx was reduced by 30–40% when cells were treated with either a PKC inhibitor (Gö 6983, bisindolylmaleimide) or the PKC activator phorbol-12-myristate-13-acetate. We propose that novel, Ca²⁺-insensitive PKC(s) enhance cardiac Ca²⁺ channel activity in L6 cells under basal conditions while activation of the classical, Ca²⁺-sensitive PKC(s) inhibits channel activity. These findings provide the first evidence that different PKC isozymes exert class-specific opposing effects on cardiac L-type Ca²⁺ channel activity in L6 myoblasts.     

Adrenocorticotropic Hormone (ACTH) Responses Require Actions of the Melanocortin-2 Receptor Accessory Protein on the Extracellular Surface of the Plasma Membrane

The melanocortin-2 (MC2) receptor is a G protein-coupled receptor that mediates responses to ACTH. The MC2 receptor acts in concert with the MC2 receptor accessory protein (MRAP) that is absolutely required for ACTH binding and signaling. MRAP has a single transmembrane domain and forms a highly unusual antiparallel homodimer that is stably associated with MC2 receptors at the plasma membrane. Despite the physiological importance of the interaction between the MC2 receptor and MRAP, there is little understanding of how the accessory protein works. The dual topology of MRAP has made it impossible to determine whether highly conserved and necessary regions of MRAP are required on the intracellular or extracellular face of the plasma membrane. The strategy used here was to fix the orientation of two antiparallel MRAP molecules and then introduce inactivating mutations on one side of the membrane or the other. This was achieved by engineering proteins containing tandem copies of MRAP fused to the amino terminus of the MC2 receptor. The data firmly establish that only the extracellular amino terminus (N_out) copy of MRAP, oriented with critical segments on the extracellular side of the membrane, is essential. The transmembrane domain of MRAP is also required in only the N_out orientation. Finally, activity of MRAP-MRAP-MC2-receptor fusion proteins with inactivating mutations in either MRAP or the receptor was rescued by co-expression of free wild-type MRAP or free wild-type receptor. These results show that the basic MRAP-MRAP-receptor signaling unit forms higher order complexes and that these multimers signal.     

Dual role of calbindin-D28K in vesicular catecholamine release from mouse chromaffin cells

Calbindin-D(28K) is suggested to play a postsynaptic role in neurotransmission and in the regulation of the intracellular Ca(2+) concentration. However, it is still unclear whether calbindin-D(28K) has a role in the regulation of exocytosis, either as Ca(2+) buffer or as Ca(2+) sensor. Amperometric recordings of catecholamine exocytosis from wild-type and calbindin-D(28K) knockout mouse chromaffin cells reveal a strong reduction in the number of released vesicles, as well as in the amount of neurotransmitter released per fusion event in knockout cells. However, Ca(2+) current recordings and Ca(2+) imaging experiments, including video-rate confocal laser scanning microscopy, revealed that the intracellular Ca(2+) dynamics are remarkably similar in wild-type and knockout cells. The combined results demonstrate that calbindin-D(28K) plays an important and dual role in exocytosis, affecting both release frequency and quantal size, apparently without strong effects on intracellular Ca(2+) dynamics. Consequently, the possibility that calbindin-D(28K) functions not only as a Ca(2+) buffer but also as a modulator of vesicular catecholamine release is discussed.     

Glucocorticoids stimulate the activity of large-conductance Ca2+ -activated K+ channels in pituitary GH3 and AtT-20 cells via a non-genomic mechanism

The effects of glucocorticoids on ion currents were investigated in pituitary GH3 and AtT-20 cells. In whole-cell configuration, dexamethasone, a synthetic glucocorticoid, reversibly increased the density of Ca2+ -activated K+ current (IK(Ca)) with an EC50 value of 21 +/- 5 microM. Dexamethasone-induced increase in IK(Ca) density was suppressed by paxilline (1 microM), yet not by glibenclamide (10 microM), pandinotoxin-Kalpha (1 microM) or mifepristone (10 microM). Paxilline is a blocker of large-conductance Ca2+ -activated K+ (BKCa) channels, while glibenclamide and pandinotoxin-Kalpha are blockers of ATP-sensitive and A-type K+ channels, respectively. Mifepristone can block cytosolic glucocorticoid receptors. In inside-out configuration, the application of dexamethasone (30 microM) into the intracellular surface caused no change in single-channel conductance; however, it did increase BKCa -channel activity. Its effect was associated with a negative shift of the activation curve. However, no Ca2+ -sensitiviy of these channels was altered by dexamethasone. Dexamethasone-stimulated channel activity involves an increase in mean open time and a decrease in mean closed time. Under current-clamp configuration, dexamethasone decreased the firing frequency of action potentials. In pituitary AtT-20 cells, dexamethasone (30 microM) also increased BKCa -channel activity. Dexamethasone-mediated stimulation of IK(Ca) presented here that is likely pharmacological, seems to be not linked to a genomic mechanism. The non-genomic, channel-stimulating properties of dexamethasone may partly contribute to the underlying mechanisms by which glucocorticoids affect neuroendocrine function.     

多巴胺通过促进RNF20降解抑制神经细胞中组蛋白H2B泛素化

表观遗传修饰参与了药物成瘾的形成过程,而在药物成瘾过程中组蛋白泛素化水平的变化仍未可知。药物成瘾过程中常表现为多巴胺(dopamine, DA)表达量的升高,因此本研究欲探讨多巴胺升高对神经细胞组蛋白泛素化的影响及其机制。Western印迹结果显示,在终浓度0.8 mmol/L的多巴胺作用8 h后,人神经母细胞瘤细胞系SH-SY5Y细胞中环指蛋白20(ring finger protein 20, RNF20)表达量降低(0.29±0.032 vs. 1.0±0.025,P<0.0001),泛素化组蛋白H2B(H2Bub1)表达量下降(0.28±0.032 vs. 1.0±0.017,P<0.0001)。但是RT-PCR结果显示,多巴胺处理SH-SY5Y细胞后,RNF20在mRNA水平的表达无明显变化。在SH-SY5Y细胞中沉默RNF20的表达,H2Bub1在蛋白质水平的表达明显降低(0.20±0.069 vs. 1.0±0.060,P=0.001)。在加入多巴胺的基础上,分别加入蛋白酶体抑制剂MG132、自噬体形成抑制剂3-MA以及空泡型H^+-ATP酶特异性抑制剂Baf-A1等药物来检测RNF20的降解途径,结果发现,加入MG132、3-MA以及Baf-A1后,RNF20表达量均比DA处理组显著上升(1.51±0.095,P=0.0003; 0.89±0.075,P=0.0021; 2.74±0.099,P<0.0001;vs. 0.27±0.044)。上述结果表明,在SH-SY5Y细胞中,RNF20对H2Bub1具有调控作用,多巴胺可通过泛素化及自噬两种途径促进RNF20降解,从而抑制组蛋白H2B泛素化。     

Effects of phosphatase inhibitors and a protein phosphatase on norepinephrine secretion by permeabilized bovine chromaffin cells

A protein phosphatase and phosphatase inhibitors were used to examine the role of protein phosphorylation in the regulation of norepinephrine secretion in digitonin-permeabilized bovine chromaffin cells. Addition of okadaic acid, a potent inhibitor of type 1 and type 2A protein phosphatases, or 1-naphthylphosphate, a more general phosphatase inhibitor, to digitonin-permeabilized chromaffin cells caused about a 100% increase in the amount of norepinephrine secreted in the absence of Ca²⁺ (in 5 mM EGTA) without affecting the amount of norepinephrine secreted in the presence of 10 μM free Ca²⁺. This stimulation of norepinephrine secretion by protein phosphatase inhibitors suggests that in the absence of Ca²⁺ there is a slow rate phosphorylation and that this phosphorylation triggers secretion. Addition of an exogenous type 2A protein phosphatase caused almost a 50% decrease in Ca²⁺-dependent norepinephrine secretion. Thus, the amounts of norepinephrine released both in the absence of Ca²⁺ and in the presence of Ca²⁺ appear to depend upon the level of protein phosphorylation.     

Role of ecdysone 20-monooxygenase in regulation of 20-hydroxyecdysone levels by juvenile hormone and biogenic amines in Drosophila

The effects of increased levels of dopamine (feeding flies with dopamine precursor, l-dihydroxyphenylalanine) and octopamine (feeding flies with octopamine) on ecdysone 20-monooxygenase activity in young (2 days old) wild type females (the strain wt) of Drosophila virilis have been studied. l-dihydroxyphenylalanine and octopamine feeding increases ecdysone 20-monooxygenase activity by a factor of 1.6 and 1.7, respectively. Ecdysone 20-monooxygenase activity in the young (1 day old) octopamineless females of the strain Tβh ^nM18 , in females of the strain P845 (precursor of Tβh ^nM18 strain) and in wild type females (Canton S) of Drosophila melanogaster have been measured. The absence of octopamine leads to a considerable decrease in the enzyme activity. We have also studied the effects of juvenile hormone application on ecdysone 20-monooxygenase activity in 2-day-old wt females of D. virilis and demonstrated that an increase in juvenile hormone titre leads to an increase in the enzyme activity. We discuss the supposition that ecdysone 20-monooxygenase occupies a key position in the regulation of 20-hydroxyecdysone titre under the conditions that lead to changes in juvenile hormone titre and biogenic amine levels.