Isolation and characteristics of bovine pituitary secretory granules

Secretory granules containing primarily growth hormone and prolactin were isolated from bovine anterior pituitaries. Marker enzyme analysis and electron microscopy indicated that the secretory granule fraction did not contain measureable amounts of other intracellular organelles. Such isolated granules were resistant to a variety of chemical and physical challenges including variations in osmolarity, ionic strength, EGTA, sonication, boiling, etc. The only treatments that were found to routinely result in granules lysis were alkaline pH and 0.5% SDS. Nonspecific leakage of both growth hormone and prolactin was less than 9% of total hormone pool even after a 60-min incubation. The release of prolactin but not growth hormone could be increased by lowering the free calcium concentration. Conversely, 10(-5) M ionophore A23187 caused a decrease in nonspecific hormone leakage. This raises the possibility that a nonexocytosis secretory pathway might be involved in pituitary hormone release. The initial secretory granule fraction was further purified using discontinuous sucrose gradient ultracentrifugation to yield a subfraction highly enriched in prolactin granules. These granules had the same stability characteristics as the original secretory granule fraction. The use of such granules should prove useful in our efforts to understand how calcium regulates cellular secretion.     

Isolation and characteristics of bovine pituitary secretory granules

Secretory granules containing primarily growth hormone and prolactin were isolated from bovine anterior pituitaries. Marker enzyme analysis and electron microscopy indicated that the secretory granule fraction did not contain measurable amounts of other intracellular organelles. Such isolated granules were resistant to a variety of chemical and physical challenges including variations in osmolarity, ionic strength, EGTA, sonication, boiling, etc. The only treatments that were found to routinely result in granules lysis were alkaline pH and 0.5% SDS. Nonspecific leakage of both groth hormone and prolactin was less than 9% of total hormone pool even after a 60-min incubation. The release of prolactin but not growth hormone could be increased by lowering the free calcium concentration. Conversely, 10⁻⁵ M ionophore A23187 caused a decrease in nonspecific hormone leakage. This raises the possibility that a nonexocytosis secretory pathway might be involved in pituitary hormone release. The initial secretory granule fraction was further purified using discontinuous sucrose gradient ultracentrifugation to yield a subfraction highly enriched in prolactin granules. These granules had the same stability characteristics as the original secretory granule fraction. The use of such granules should prove useful in our efforts to understand how calcium regulates cellular secretion.     

Ultrastructural aspects of the effect of calcium ionophore A23187 on incubated anterior pituitary cells of rats

In order to study the fine structural effect of calcium influx on secretory activity of rat anterior pituitary cells, small pieces of anterior pituitary were incubated in Krebs' medium containing the calcium ionophore A23187 (0.15 mM) and were examined electron microscopically. Marked changes were present in all types of secretory cells incubated for 3, 12 and 20 min in the medium containing calcium and A23187. Secretory granules tended to accumulate in the peripheral cytoplasm of the secretory cells, and more numerous images of granule release by exocytosis were observed in somatotroph (STH cell), luteotroph (LTH cell), thyrotroph (TSH cell), corticotroph (ACTH cell), type 1 gonadotroph (Type 1 GTH cell), and type 2 gonadotroph (Type 2 GTH cell). In addition to the increase in the number of exocytosis of single granules, the simultaneous extrusion of multiple granules, "multigranular exocytosis", was often observed in all kinds of secretory cells, especially the ACTH-cells. Large numbers of granule cores were often located in large vacuole-like or channel-like structures, irregular in shape and size, which were open to the intercellular or pericapillary space. Some parts of the membrane of the vacuole-like or channel-like structures were coated. These observations are interpreted to suggest that the calcium influx stimulates the extrusion of the secretory granules by single or multigranular exocytosis.     

Regulated von Willebrand factor (vWf) secretion is restored by pro-vWf expression in a transfectable endothelial cell line

Von Willebrand factor (vWf) is a glycoprotein involved in primary hemostasis and synthesized in endothelial cells (EC). vWf is stored in secretory granules specific for EC called Weibel-Palade bodies (WPb). Studies on the molecular mechanisms of vWf storage and acute release are hampered by the limitations of the available endothelial cell culture models. We created a suitable model by stable transfection of the vWf-negative ECV304 endothelial cell line with pro-vWf cDNA. Pro-vWf was normally cleaved to mature vWf and stored in WPb. Acute vWf release occurred in response to the calcium ionophore A23187. Thus, vWf expression is sufficient to restore functional secretory granules in ECV304 cells. We used this model to study the role of WPb in the storage of tissue-type plasminogen activator (t-PA), a key fibrinolytic enzyme that is acutely released by EC, but whose intracellular storage compartment is still a matter of debate. We observed that restoration of WPb in ECV304 cells results in the targeting of t-PA to these storage granules.     

Actions of releasing factors on isolated secretory granules mediated by calcium.

Synthetic TRH, crude hypothalamic extract and partially purified prolactin releasing factor stimulated prolactin and growth hormone release from isolated secretory granules. Somatostatin and partially purified prolactin release-inhibiting factor inhibited release of both hormones. Calcium promoted hormone release from granules; its releasing action was potentiated by TRH and ionophore A23187 but reduced by somatostatin.     

A role for serglycin proteoglycan in granular retention and processing of mast cell secretory granule components

In the absence of serglycin proteoglycans, connective tissue-type mast cells fail to assemble mature metachromatic secretory granules, and this is accompanied by a markedly reduced ability to store neutral proteases. However, the mechanisms behind these phenomena are not known. In this study, we addressed these issues by studying the functionality and morphology of secretory granules as well as the fate of the secretory granule proteases in bone marrow-derived mast cells from serglycin(+/+) and serglycin(-/-) mice. We show that functional secretory vesicles are formed in both the presence and absence of serglycin, but that dense core formation is defective in serglycin(-/-) mast cell granules. The low levels of mast cell proteases present in serglycin(-/-) cells had a granular location, as judged by immunohistochemistry, and were released following exposure to calcium ionophore, indicating that they were correctly targeted into secretory granules even in the absence of serglycin. In the absence of serglycin, the fates of the serglycin-dependent proteases differed, including preferential degradation, exocytosis or defective intracellular processing. In contrast, beta-hexosaminidase storage and release was not dependent on serglycin. Together, these findings indicate that the reduced amounts of neutral proteases in the absence of serglycin is not caused by missorting into the constitutive pathway of secretion, but rather that serglycin may be involved in the retention of the proteases after their entry into secretory vesicles.     

Chemiosmotic lysis and insulin secretion: studies of isolated granules, intact and permeabilised rat islets of Langerhans

The possible involvement of chemiosmotic lysis of secretory granules in the exocytosis of insulin from pancreatic beta cells was investigated by comparing insulin release from isolated secretory granules, from intact islets of Langerhans, and from electrically permeabilised islets. Lysis of isolated granules was stimulated by ATP in the presence of Mg2+. ATP-induced granule lysis was pH and temperature dependent and was inhibited by collapsing the pH gradient across the granule membrane by removal of permeant anions, or by increasing the extragranular osmolarity. However, insulin secretion from intact islets in response to glucose, a phosphodiesterase inhibitor or a Ca2+ ionophore was only partially inhibited by anion replacement, while Ca2+ -induced insulin release from electrically permeabilised islets was not affected by altering the extragranular or intragranular pH. These results suggest that studies of the stability of isolated granules in vitro do not necessarily relate to insulin release from whole cells, and do not support a major role for chemiosmotic lysis of secretory granules in the exocytotic release of insulin.     

Cdc42 and Rac stimulate exocytosis of secretory granules by activating the IP(3)/calcium pathway in RBL-2H3 mast cells

We have expressed dominant-active and dominant-negative forms of the Rho GTPases, Cdc42 and Rac, using vaccinia virus to evaluate the effects of these mutants on the signaling pathway leading to the degranulation of secretory granules in RBL-2H3 cells. Dominant-active Cdc42 and Rac enhance antigen-stimulated secretion by about twofold, whereas the dominant-negative mutants significantly inhibit secretion. Interestingly, treatment with the calcium ionophore, A23187, and the PKC activator, PMA, rescues the inhibited levels of secretion in cells expressing the dominant-negative mutants, implying that Cdc42 and Rac act upstream of the calcium influx pathway. Furthermore, cells expressing the dominant-active mutants exhibit elevated levels of antigen-stimulated IP(3) production, an amplified antigen-stimulated calcium response consisting of both calcium release from internal stores and influx from the extracellular medium, and an increase in aggregate formation of the IP(3) receptor. In contrast, cells expressing the dominant-negative mutants display the opposite phenotypes. Finally, we are able to detect an in vitro interaction between Cdc42 and PLCgamma1, the enzyme immediately upstream of IP(3) formation. Taken together, these findings implicate Cdc42 and Rac in regulating the exocytosis of secretory granules by stimulation of IP(3) formation and calcium mobilization upon antigen stimulation.     

Histochemical and biochemical determination of calcium in salivary glands of cat

Although feline salivary glands have been used in investigations on secretion and microlithiasis and both processes involve calcium, nothing is known about its distribution in these glands. Therefore we have demonstrated the presence of calcium by a histochemical technique using glyoxal bis(2-hydroxyanil) and a biochemical technique using dry ashing. The histochemical technique stained serous acinar cells weakly and rarely found mucous acinar cells strongly in the parotid gland, mucous acinar cells moderately to strongly and serous acinar cells weakly in the sublingual gland, and central and demilunar acinar cells moderately to strongly in the submandibular gland. The biochemical technique revealed less calcium in the parotid than in the submandibular and sublingual glands. Both techniques revealed a decrease of calcium in submandibular and sublingual glands following parasympathetic stimulation. The histochemical distribution of calcium, which corresponds to that of acinar secretory glycoprotein, and the loss of calcium following parasympathetic stimulation, which causes release of secretory granules, indicate the presence of calcium in secretory granules. The concentration of calcium in the different types of acinar cell corresponds to the acidity of the secretory glycoprotein and suggests that calcium is present as a cationic shield to allow the condensation of polyionic glycoprotein in secretory granules.     

Transport via the regulated secretory pathway in semi-intact PC12 cells: role of intra-cisternal calcium and pH in the transport and sorting of secretogranin II

To gain insight into the mechanisms governing protein sorting, we have developed a system that reconstitutes both the formation of immature secretory granules and their fusion with the plasma membrane. Semi- intact PC12 cells were incubated with ATP and cytosol for 15 min to allow immature granules to form, and then in a buffer containing 30 microM [Ca2+]free to induce exocytosis. Transport via the regulated pathway, as assayed by the release of secretogranin II (SgII) labeled in the TGN, was inhibited by depletion of ATP, or by the inclusion of 100 microM GTP gamma S, 50 microM AlF3-5 or 5 micrograms/ml BFA. When added after immature granules had formed, GTP gamma S stimulated rather than inhibited exocytosis. Thus, exocytosis of immature granules in this system resembles the characteristics of fully matured granules. Transport of SgII via the regulated pathway occurred at a fourfold higher efficiency than glycosaminoglycan chains, indicating that SgII is sorted to some extent upon exit from the TGN. Addition of A23187 to release Ca2+ from the TGN had no significant effect on sorting of SgII into immature granules. In contrast, depletion of lumenal calcium inhibited the endoproteolytic cleavage of POMC and proinsulin. These results establish the importance of intra-cisternal Ca2+ in prohormone processing, but raise the question whether lumenal calcium is required for proper sorting of SgII into immature granules. Disruption of organelle pH gradients with an ionophore or a weak base resulted in the inhibition of transport via both the constitutive and the regulated pathways.     

Release of arylsulfatase A but not B from rat mast cells by noncytolytic secretory stimuli.

The net percentage of release of arylsulfatase activity from purified rat mast cells induced by rabbit anti-rat F(ab')2 was consistently only about 1/3 that of histamine. Isoelectric focusing of the released and residual arylsulfatase activities demonstrated specific release of the A type without B and a net percentage of immunologic release of arylsulfatase A equivalent to that of histamine. When the net percentage of histamine and arylsulfatase A release were nearly maximal (88 and 76%) in response to the calcium ionophore A23187, specific release of arylsulfatase B did not occur. Thus, arylsulfatase A and not B was associated with the secretory granule released from the rat mast cell by reversed anaphylaxis or the calcium ionophore. In contrast, subcellular fractionation of water-lysed mast cells yielded arylsulfatase B with the heparin- and chymase-containing granule fraction and arylsulfatase A in the aqueous fraction comprised of cell sap and granule water eluate. It may be that arylsulfatase B resides in a minor second granule, whereas arylsulfatase A is loosely associated with the predominant secretory granule of the rat mast cell.     

Cholinergic stimulation of pancreatic amylase release and muscarinic receptors: effect of ionophore A23187

Dispersed rat pancreatic acini were incubated in 0.5mM calcium medium with increasing concentrations of carbamylcholine, with or without the ionophore A23187 (10(-6)M). Addition of the ionophore reduced maximal amylase release, increased the maximal effective concentration of carbamylcholine and dramatically impaired the agonist's capacity to induce enzyme secretion at low concentration. The ionophore also abolished the inhibition of secretion observed at high carbamylcholine concentrations. These effects of the ionophore on the cholinergic secretory response cannot be explained by interaction at the muscarinic receptor since neither the Bmax, the affinity of the receptor for the [3H]QNB nor the binding of carbamylcholine were affected by the ionophore. It is suggested that for the conditions studied, the ionophore can interact with the secretory process at one or several points ulterior to the initial recognition site of carbamylcholine on its receptor.     

Quantitative analysis of the cytosolic free calcium dependency of exocytosis from three subcellular compartments in intact human neutrophils

Cytosolic free calcium concentration, [Ca2+]i, and exocytosis of azurophil granules (beta-glucuronidase), specific granules (vitamin B12-binding protein), and secretory vesicles (gelatinase) were measured concomitantly in intact human neutrophils under steady state [Ca2+]i. The cells were loaded with the fluorescent calcium indicator quin2 in the presence or absence of extracellular Ca2+, and steady state [Ca2+]i levels ranging from 20 to greater than 2,000 nM were obtained by adding the Ca2+ ionophore ionomycin at various concentrations of extracellular calcium. The extent of exocytosis from the three granule populations was found to be a function of [Ca2+]i. The minimal [Ca2+]i that caused significant release (threshold [Ca2+]i) was approximately 200-300 nM and was similar for all three compartments. Marked differences, however, were found when the [Ca2+]i for half-maximal exocytosis (EC50) was determined. In the absence of cytochalasin B the EC50 was 1,100 +/- 220 nM and 1,600 +/- 510 nM for specific granules and secretory vesicles, respectively, and approximately 6,000 nM for azurophil granules. Cytochalasin B did not affect the threshold [Ca2+]i but decreased the EC50 and enhanced the rate of exocytosis. In the presence of cytochalasin B the EC50 was approximately 600 nM both for secretory vesicles and specific granules, and approximately 2,600 nM for azurophil granules. The addition of the chemotactic peptide N-formyl-methionyl-leucyl-phenylalanine dramatically changed the [Ca2+]i dependency of granule secretion: It decreased the threshold [Ca2+]i to less than 20 and less than 50 nM, and the EC50 to 50 and 200 nM for specific and azurophil granules, respectively, and it significantly increased the rate of exocytosis. Thus, the additional signal(s) provided by receptor activation markedly lower(s) the Ca2+ requirement of the exocytotic process. Furthermore, these results indicate that the secretion from three different granule populations within the same cell type are differently modulated by [Ca2+]i.     

Temperature effects in the stimulus-secretion process from isolated chromaffin cells

Temperature effects on the stimulus-secretion coupling process was studied by inducing release of catecholamines (CA) from isolated chromaffin cells of the bovine adrenal medulla. Use was made of three different secretagogues: acetylcholine (ACH), high potassium concentration, and the calcium ionophore A23187, at various incubation temperatures. The latter two agents induced a monotonic increase in secretion with rise in temperature, suggesting different regions of the dependence of total release on temperature. The ACH-induced secretion was, however, markedly different and exhibited a maximal release at 30 degrees C. Kinetic experiments using ACH stimulus revealed that this maximum is produced by different temperature dependence in the stages of activation and desensitization. A proposed model for the total release process yields temperature-dependent parameters that can be divided into three regions of initial rates of secretory activity corresponding to the above independent findings using high K+ concentration and the calcium ionophore. The transitions between the various regions indicate possible transitions in the physical properties of the plasma and secretory granule membranes. Elucidation of the interaction between the membranes is of primary importance in the determining mechanism of CA secretion from the isolated adrenal medulla cell.     

Antisense GAP-43 Inhibits the Evoked Release of Dopamine from PC12 Cells

Abstract: To investigate the role of the neuronal growth-associated protein GAP-43 (neuromodulin, B-50, F1, P-57) in neurotransmitter release, we transfected PC12 cells with a recombinant expression vector coding for antisense human GAP-43 cRNA. Two stable transfectants, designated AS1 and AS2, were selected that had integrated the recombinant sequence and expressed antisense GAP-43 RNA. Immunoblot analysis of proteins from AS1 and AS2 cells indicated that the level of GAP-43 in these cell lines was reduced. In the presence of extracellular calcium, a depolarizing concentration of K⁺ (56 m M ) evoked dopamine release from control cells, but not from AS1 and AS2 cells. Similarly, the calcium ionophore A23187 evoked dopamine release from control cells, but was ineffective in stimulating dopamine release from AS1 and AS2 cells. The antisense transfectants, as well as the control cells, contained appreciable quantities of dopamine and secretory granules with a normal appearance. Because the expression of antisense GAP-43 RNA in PC12 cells leads to a decrease in GAP-43 expression and to the loss of evoked dopamine release, these results provide evidence of a role for GAP-43 in calcium-dependent neurotransmitter release.     

Modifying actions of calcium ionophores on insulin release.

Beta-Cell-rich pancreatic islets were microdissected from noninbred ob/obmice and exposed to the calcium ionophores X-537A and A-23187. X-537A differed from A-23187 in being a potent insulin secretagogue at non-stimulating glucose concentrations. Both ionophores inhibited the stimulation of insulin release obtained after adding 20 mM glucose to the incubation medium. The latter observation is consistent with the idea of a reduced beta-cell function when the Ca-2+ in the functionally important intracellular pool (s) exceeds a certain concentration. The ionophore inhibition of the glucose-stimulated insulin release may at least in part result from decreased formation of cyclic AMP, since X-537A proved to be as effective as L-epinephrine in reducing the islet content of this nucleotide in the presence of a phosphodiesterase inhibitor. The secretagogic action of X-537A at a low glucose concentration persisted when different ions were omitted from the incubation medium and was actually considerably enhanced in the absence of extracellular Ca-2+. The insulin-releasing action of X-537A was neither influenced by 3-O-methyglucose nor by drugs blocking the alpha or beta-adrenergic receptor sites. Exposure of the pancreatic beta-cells to metabolic inhibitors in concentrations which significantly reduced the secretory response to glucose, potentiated stimulation of insulin release by X-537A, suggesting that this effect may in part be accounted for by intracellular dissolution of secretory granules.     

Quantitative aspects of membrane shifts in rat parathyroid cells initiated by decrease in serum calcium

The secretory activity of parathyroid glands in rats was stimulated by decreasing the serum Ca++ concentration through constant intravenous infusion of EGTA. The morphometric analysis of the nuclear and cytoplasmic volume and of the surface area of the rough endoplasmic reticulum, Golgi complex, secretory granules and plasma membrane revealed a membrane shift from secretory granules and Golgi complex to the plasma membrane within 1 hr of calcium depression. Subsequently, between 1 and 3 hr of calcium depression, the membrane shift was from the plasma membrane to the Golgi complex. It is considered likely that these membrane shifts are related to a rise in release of parathyroid hormone by exocytosis and a subsequent increase in retrieval of plasma membrane by endocytosis—probably through the compartment of coated pits and coated and uncoated vesicles.     

Three Phases of Cortical Maturation during Meiosis Reinitiation in Starfish Oocytes

Oocytes of the starfish, Asterina pectinifera , respond differently to calcium ionophore A23187 depending upon their stage of maturation. Oocytes not-treated with 1-methyladenine (1-MA) formed only a partial fertilization envelope (FE) in response to A23187. Those treated with 1-MA formed no FE if the ionophore was introduced to them before germinal vesicle breakdown (GVBD), in contrast with which they did fully elevate the FE if it was introduced after GVBD. Similar stage-dependent results were obtained if the intracellular concentration of calcium was increased by microinjection of calcium-EGTA buffers. In good accordance with the FE formation, a stage-dependent protease release from oocytes by the ionophore was observed.
It is concluded from these results that, in starfish oocytes, their ability to undergo the exocytosis of cortical granules in response to an increase in intracellular calcium greatly changes along the way of maturation.     

Expression of regulated secretory proteins is sufficient to generate granule-like structures in constitutively secreting cells

The formation of secretory granules and regulated secretion are generally assumed to occur only in specialized endocrine, neuronal, or exocrine cells. We discovered that regulated secretory proteins such as the hormone precursors pro-vasopressin, pro-oxytocin, and pro-opiomelanocortin, as well as the granins secretogranin II and chromogranin B but not the constitutive secretory protein alpha(1)-protease inhibitor, accumulate in granular structures at the Golgi and in the cell periphery in transfected COS-1 fibroblast cells. The accumulations were observed in 30-70% of the transfected cells expressing the pro-hormones and for virtually all of the cells expressing the granins. Similar structures were also generated in other cell lines believed to be lacking a regulated secretory pathway. The accumulations resembled secretory granules morphologically in immunofluorescence and electron microscopy. They were devoid of markers of the endoplasmic reticulum, endosomes, and lysosomes but in part stained positive for the trans-Golgi network marker TGN46, consistent with their formation at the trans-Golgi network. When different regulated proteins were coexpressed, they were frequently found in the same granules, whereas alpha(1)-protease inhibitor could not be detected in accumulations formed by secretogranin II, demonstrating segregation of regulated from constitutive secretory proteins. In pulse-chase experiments, significant intracellular storage of secretogranin II and chromogranin B was observed and secretion of retained secretogranin II was stimulated with the calcium ionophore A23187. The results suggest that expression of regulated cargo proteins is sufficient to generate structures that resemble secretory granules in the background of constitutively secreting cells, supporting earlier proposals on the mechanism of granule formation.     

Secretion of immunoreactive ANF from FRTL-5 rat thyroid cells: regulation by calcium ionophore A23187.

Atrial natriuretic factor-like immunoreactivity (ir-ANF) was characterized in a continuous line of rat thyroid follicular cells (FRTL-5) and the influence of the calcium ionophore A23187 on ir-ANF secretion was examined. Ir-ANF was identified by immunohistochemical staining as primarily reticular and juxtanuclear in short-term cultures, and more peripheral and granular in longer-term cultures, suggesting a process of ir-ANF packaging into secretory granules. The accumulation of ir-ANF granules was dependent upon the presence of thyrotropin (TSH) in the medium. Secreted ir-ANF was characterized using reversed-phase, high-performance liquid chromatography (RP-HPLC) and radioimmunoassay as a single peak eluting one fraction earlier than 125I-labeled rat ANF (99-126) (i.e., circulating atrial ANF) included as an internal standard. A23187 treatment of cells exhibiting primarily reticular ir-ANF caused a change to a pattern of more distinct, peripherally localized granules. This change occurred within 1 h after A23187 treatment and was dependent on the presence of Ca2+ in the medium. In cultures containing primarily ir-ANF granules, A23187 (0.5 micrograms/ml) induced a peripheral translocation of the granules at 30 min and a complete degranulation by 7 h. Enzyme-linked immunoadsorbent assay (EIA) confirmed a dose-dependent effect of A23187 on ir-ANF release into the medium. These results suggest that some of the effects of Ca2+ in the thyroid could be ascribed to its mobilization and release of ir-ANF, which in turn may have autocrine effects on thyroid follicular cells.