Serotonin transport in isolated platelet granules. Coupling to the electrochemical proton gradient

The effect of the transmembrane proton gradient (delta pH) and potential gradient (delta psi) upon the rate and extent of amine accumulation was investigated in intact 5-hydroxytryptamine (serotonin) containing dense granules. The granules were isolated and purified from other subcellular organelles under isotonic conditions utilizing a newly developed continuous density gradient of Percoll. As measured by [14C]methylamine distribution, isolated granules suspended in a highly buffered medium at pH 7.0 had an intragranular pH of 5.40, independent of the pH of the external medium. This pH gradient could be collapsed by the addition of 60 mM ammonia. In the presence of Mg-ATP, a transmembrane potential (delta psi) of 30-40 mV, inside positive, was generated and sustained for over 30 min, as measured by [14C]thiocyanate distribution. The addition of carbonyl cyanide p-trifluoromethoxyphenylhydrazone, a proton translocator, resulted in the reversal of the potential to negative values. The Mg-ATP-dependent generation of the delta psi was prevented by addition of dicyclohexylcarbodiimide and trimethyltin, inhibitors of proton-translocating ATPases in this and other subcellular organelles. Ammonia (1-50 mM) addition to highly buffered suspensions of serotonin granules caused a dose-dependent decrease in the delta pH, while thiocyanate added at varying concentrations produced a dose-related collapse of the delta psi and had no effect upon the delta pH. Both the delta pH and delta psi were found to independently drive accumulation of [14C]serotonin into the granules; stepwise collapse of each gradient resulted in a corresponding diminution of [14C]serotonin accumulation. The maximum rate and extent of [14C]serotonin uptake, however, were observed in the presence of both the delta pH and delta psi. The conclusions provide support for the existence of a proton-translocating ATPase in the serotonin granule membrane responsible for the generation of the delta pH and delta psi. Moreover, the results demonstrate a primary role for the electrochemical proton gradient (delta mu H+) in the carrier-mediated active transport of 5-hydroxytryptamine into the platelet granule.     

ATP-dependent uptake of 5-hydroxytryptamine by secretory granules isolated from thyroid parafollicular cells.

The current study was done to test the hypotheses that parafollicular granules contain a vacuolar ATPase (V-ATPase) similar to that found in chromaffin granules, that the transport of H+ into granules mediated by this enzyme drives the granular uptake of 5-hydroxytryptamine (5-HT, serotonin), and that secretagogues stimulate both the acidification of parafollicular granules and their ability to take up 5-HT by opening an anion channel in the granular membrane. Our studies indicate that parafollicular granules contain a V-ATPase that is antigenically similar to that of the V-ATPase of adrenal chromaffin granules; however, the parafollicular granular membrane differs from that of chromaffin granules in permeability to Cl- and K+. The membranes of granules derived from resting parafollicular cells appear to be relatively impermeable to Cl- but permeable to K+. Parafollicular granules (and ghosts derived from them) manifest ATP-dependent transmembrane transport of 5-HT. This transport is more dependent on the pH difference (delta pH) than on the membrane potential component of the proton electrochemical gradient across the granular membrane. Transport of 5-HT is thus inhibited more by exposure of parafollicular granules to agents, such as nigericin, that collapse delta pH than by those, such as valinomycin, that decrease transmembrane difference in potential. ATP-dependent uptake of 5-HT by granules isolated from secretagogue-stimulated parafollicular cells is greater than that into granules isolated from unstimulated cells. Since secretagogues open a Cl- channel in parafollicular granule membranes, which enhances acidification of the granules, the facilitation of 5-HT uptake by secretagogues is probably due to an increase in delta pH.     

Biological amine transport in chromaffin ghosts. Coupling to the transmembrane proton and potential gradients.

The effect of the transmembrane proton gradient (delta pH) and potential gradient (delta psi) upon the rate and extent of amine accumulation was investigated in chromaffin ghosts. The chromaffin ghosts were formed by hypo-osmotic lysis of isolated bovine chromaffin granules and extensive dialysis in order to remove intragranular binding components and dissipate the endogenous electrochemical gradients. Upon ATP addition to suspensions of chromaffin ghosts, a transmembrane proton gradient alone, a transmembrane gradient alone, or both, could be established, depending upon the compositions of the media in which the ghosts were formed and resuspended. When chloride was present in the medium, addition of ATP resulted in the generation of a transmembrane proton gradient, acidic inside of 1 pH unit (measured by [14C]methylamine distribution), and no transmembrane potential (measured by [14C]-thiocyanate distribution). When ATP was added to chromaffin ghosts suspended in a medium in which chloride was substituted by isethionate, a transmembrane potential, inside positive, of 45 mV and no transmembrane proton gradient, was measured. In each medium, the addition of agents known to affect proton or potential gradients, respectively, exerted a predictable mechanism of action. Accumulation of [14C]epinephrine or [14C]5-hydroxytryptamine was over 1 order of magnitude greater in the presence of the transmembrane proton gradient or the transmembrane potential than in the absence of any gradient and, moreover, was related to the magnitude of the proton or potential gradient in a dose-dependent manner. When ghosts were added to a medium containing chloride and isethionate, both a delta pH and delta psi could be generated upon addition of ATP. In this preparation, the maximal rate of amine accumulation was observed. The results indicate that amine accumulation into chromaffin ghosts can occur in the presence of either a transmembrane proton gradient, or a transmembrane potential gradient, and that the maximal rate of accumulation may exist when both components of the protonmotive force are present.     

H+ ATPase of chromaffin granules. Kinetics, regulation, and stoichiometry

The chromaffin granule ATPase mediates an inwardly directed transport of H+ against concentration gradients, thereby forming and maintaining an electrochemical transmembrane H+ gradient. The kinetics of this ATPase, its activity modulation by changes in electrochemical H+ gradients, and the stoichiometry between H+ transport and ATP hydrolysis were studied in intact bovine chromaffin granules, resealed chromaffin granule ghosts, and highly purified fragmented chromaffin granule membranes. In fragmented membranes the H+ ATPase has a KM for ATP of 69 microM, a maximum of activity at pH 7.3, and a Vmax of 111 nmol/min/mg of protein at 20 degrees C. Trimethyl tin inhibits the ATPase at much lower concentrations than dicyclohexylcarbodiimide, whereas oligomycin, reserpine, and other inhibitors were without effect. In intact chromaffin granules, the ATPase activity was stimulated up to 300% by collapsing the H+ transmembrane gradients. H+/ATP stoichiometry was measured in resealed chromaffin ghosts devoid of ATP and catecholamines under conditions where no net pH changes occur upon ATP hydrolysis. After addition of ATP, the rates of H+ accumulation in the ghosts and ATP hydrolysis were both linear for about 60-100 s, and the ratio of H+ to ATP was 1.71. These data indicate that the H+ ATPase of chromaffin granules has both kinetic similarities and dissimilarities with other known H+ ATPases. The regulation by changes in H+ gradients and the fixed H+/ATP ratio of this ATPase is further evidence of its primary role in establishing electrogenic H+ translocation and H+ gradients in chromaffin granules.     

5-Hydroxytryptamine transport in cells and secretory granules from a transplantable rat insulinoma.

Mechanisms of transport of 5-hydroxytryptamine in the pancreatic B-cell were investigated by using cell suspensions and secretory granules prepared from a transplantable rat insulinoma. (1) Cells incubated with 5-hydroxy[G-3H]tryptamine at concentrations ranging from 0.1 microM to 5 mM accumulated the radioisotope principally by a simple diffusion process. The incorporated radioactivity was recovered principally as the parent molecule and was recovered predominantly in soluble protein and secretory-granule fractions prepared from the tissue. (2) Isolated granules incubated in buffered iso-osmotic medium without ATP accumulated the amine to concentrations up to 38-fold that of the medium. This process was insensitive to reserpine and occurred over a wide range of 5-hydroxytryptamine concentrations (0.075 microM-25 mM). Above 5 mM, 5-hydroxytryptamine accumulation decreased in parallel with the breakdown of the delta pH across the granule membrane. Uptake was favoured by alkaline media and was reduced by the addition of (NH4)2SO4. In both cases a close correlation was observed between uptake and the transmembrane delta pH, a finding that suggested that 5-hydroxytryptamine permeated the membrane as the free base and equilibrated across the membrane with the delta pH. Binding of 5-hydroxytryptamine to granule constituents also played a part in this process. ATP caused a further doubling of granule 5-hydroxytryptamine uptake by a process that was sensitive to reserpine (0.5 microM). Inhibitor studies suggested that amine transport in this instance was linked to the activity of the granule membrane proton-translocating ATPase. (3) It was concluded that the uptake of amines driven by proton gradients across the insulin-granule membrane could account for the accumulation in vivo of amines in the B-cell.     

Secretion, subcellular localization and metabolic status of inorganic pyrophosphate in human platelets. A major constituent of the amine-storing granules.

The platelet content of PPi is 1.90 +/- mumol/10(11) platelets (S.E.M., n = 19) or about 10.5 nmol/mg of protein, several hundred times that found for rat liver. Some 80% of this PPi is secreted by platelets treated with thrombin with a time course and dose-response relationship similar to secretion of ATP, ADP and 5-hydroxytryptamine (serotonin) from the platelet dense granules. During platelet aggregation induced by ADP and adrenaline, substantial amounts of PPi were secreted, but no release of acid hydrolases was observed. Subcellular-fractionation studies showed that the PPi is highly enriched in the same fraction that contains the storage organelles which store ATP, ADP, Ca2+ and 5-hydroxytryptamine. Inorganic pyrophosphatase was present mainly in the soluble fraction and in the mitochondria. Secretion studies done with platelets prelabelled with [32P]Pi showed that the sequestered PPi was relatively metabolically inactive, as is the ATP and ADP in the storage organelles. The possible participation of PPi in the formation of a bivalent-cation-nucleotide complex associated with amine storage is discussed.     

p-Chloroamphetamine induces serotonin release through serotonin transporters.

p-Chloroamphetamine (PCA) interacts with serotonin transporters in two membrane vesicle model systems by competing with serotonin for transport and stimulating efflux of accumulated serotonin. In plasma membrane vesicles isolated from human platelets, PCA competes with [3H]imipramine for binding to the serotonin transporter with a KD of 310 nM and competitively inhibits serotonin transport with a KI of 4.8 nM. [3H]Serotonin efflux from plasma membrane vesicles is stimulated by PCA in a Na(+)-dependent and imipramine-sensitive manner characteristic of transporter-mediated exchange. In membrane vesicles isolated from bovine adrenal chromaffin granules, PCA competitively inhibits ATP-dependent [3H]serotonin accumulation with a KI of 1.7 microM and, at higher concentrations, stimulates efflux of accumulated [3H]serotonin. Stimulation of vesicular [3H]serotonin efflux is due in part to dissipation of the transmembrane pH difference (delta pH) generated by ATP hydrolysis. Part of PCA's ability to stimulate efflux may be due to its transport by the vesicular amine transporter. Flow dialysis experiments demonstrated uptake of [3H]PCA into chromaffin granule membrane vesicles in response to the delta pH generated in the presence of Mg2+ and ATP. In plasma membrane vesicles, no accumulation was observed using an NaCl gradient as the driving force. We conclude that rapid nonmediated efflux of transported PCA prevents accumulation unless PCA is trapped inside by a low internal pH.     

The assignment of the Ca2+-ATPase activity of chromaffin granules to the proton translocating ATPase

CaATP is shown to function as a substrate for the proton translocating ATPase of chromaffin granule ghosts at concentrations which are comparable to that of MgATP. Using the initial rate of the proton pump activity as the measure (delta pH/delta t), an apparent Km-value of 139 +/- 8 microM was estimated for CaATP and 59 +/- 3 microM for MgATP. The maximal rate was markedly higher with MgATP than with CaATP, partly due to an inhibition of the hydrolytic activity at the higher concentrations of CaATP. The proton pump activity with CaATP was inhibited by N-ethylmaleimide and N,N'-dicyclohexylcarbodiimide at concentrations similar to that found for MgATP. No inhibition was observed with sodium vanadate in the concentration range 0-15 microM. Calmodulin and trifluoperazine had no effect on the overall ATPase activity with CaATP. These findings establish this activity as an intrinsic property of the chromaffin granules, i.e., linked to the H+-ATPase. No evidence was obtained for the presence of a Ca2+-translocating ATPase [Ca2+ + Mg2+)-ATPase) in the chromaffin granules.     

Transport of 5-hydroxytryptamine by dense granules from porcine platelets

A method is described for the isolation of a homogeneous preparation of dense granules from procine platelets. The purified dense granule fraction contained approximately 400 nmol of 5-hydroxytryptamine/mg of protein and appeared to be homogeneous when examined by electron microscopy. Isolated dense granules transport exogenously added 5-hydroxytryptamine via two mechanisms: 1) a carrier-mediated process predominating at low substrate concentrations and 2) a diffusion-controlled process predominating at high substrate concentrations. Temperature studies revealed an apparent energy of activation of 14.9 kcal/mol for the carrier-mediated transport. Kinetic data yielded a Km of 3.3 micron and a Vmax of 0.79 nmol/min/mg of protein for the mediated transport process. Steady state uptake was sensitive to changes in medium osmotic pressure and a decline in uptake below 300 mosM was correlated with release of endogenous 5-hydroxytryptamine. The transport was inhibited by a number of structural analogs of 5-hydroxytryptamine. These results demonstrate the existence of a carrier-mediated transport system for 5-hydroxytryptamine in the membranes of the platelet dense granules.     

Effect of Ca ions on the transmembrane electric potential, synthesis and hydrolysis of ATP in brain mitochondria

The transmembrane potential (delta psi) of rabbit brain mitochondria was measured with the fluorescent dye dis--C2--5. During oxidative phosphorylation a fall in delta psi in the order of 20% was observed. In the presence of inhibitors of ATP synthesis, there was a good correlation between the fall in delta psi and the ADP-stimulated increase in respiration rate. The influence of endogenous calcium on the energetic metabolism of mitochondria was studied by measuring the changes of delta psi. An amount of 12 nmol Ca2+/mg protein cause half-inhibition of the ATP synthesis rate; 50 nmol/mg completely inhibits oxidative phosphorylation. The effect of the Ca2+ load on the ATPase activity of intact mitochondria was studied. It was found that endogenous calcium inhibits in a similar degree synthesis and hydrolysis of ATP. It was shown that both Ca ATP and Mg ATP can serve as a substrate for the mitochondrial ATPase.     

Lipid composition of membranes of aminestorage organelles

1. The lipid composition of the membranes from isolated 5-hydroxytryptamine-storage organelles of blood platelets of rabbits and of those from chromaffin granules of bovine adrenal medulla was compared. 2. In contrast with the membranes of the chromaffin granules, those of the 5-hydroxytryptamine organelles did not contain lysophosphatidylcholine (lysolecithin). 3. Both the cholesterol/phospholipid ratio and the relative proportions of phosphatidylethanolamine (kephalin), phosphatidylinositol and phosphatidylserine were about the same in both membranes, whereas phosphatidylcholine (lecithin) and sphingomyelin showed somewhat higher values in the membranes of the 5-hydroxytryptamine organelles. 4. In conclusion, the release of 5-hydroxytryptamine from blood platelets is probably not correlated with the presence of lysophosphatidylcholine in the membranes of the storage organelles and may thus differ from the mechanism of catecholamine release in adrenal medulla.     

Osmotic hemolysis contrasted with freeze-thaw hemolysis

Red blood cell ghosts resulting from osmotic hemolysis in the presence of Mg ions (Mg ghosts) and ghosts resulting from slow freeze-thaw process (freeze-thaw ghosts) differ in many respects: (1) Mg ghosts spontaneously take on the disc shape immediately after hemolysis and resuspension in buffered salt solution; whereas freeze-thaw ghosts are spherical; (2) Mg ghosts appear to be less hemolyzed than freeze-thaw ghosts; (3) washed and cold-stored Mg ghosts contract or become biconcave discs when exposed to 30 μmoles of ATP/10⁹ ghosts at 37 °C; whereas freeze-thaw ghosts under similar conditions break up into microspheres and membrane filaments; (4) Mg ghosts become crenated discs and spheres when rehemolyzed and resuspended in buffered salt solution; whereas freeze-thaw ghosts tend to fragment; (5) the ATPase activity of Mg ghosts, particularly the nontransport ATPase activity, is considerably less than that of freeze-thaw ghosts.     

The proton-translocating ATPase of Candida tropicalis plasma membrane

Proton translocation activity of Candida tropicalis plasma membrane ATPase has been demonstrated using a fluorescent delta pH probe (ACMA) and by direct pH measurements. Modifications in fluorescence intensity and H+ transport are highly specific for Mg2+ and ATP, and are sensitive to the well-known inhibitors of the plasma membrane ATPase, vanadate and DCCD. A H+/ATP ratio of 0.54 is found.     

Effects of the sulfhydryl reagentN-ethylmaleimide on reserpine binding to the catecholamine transporter in chromaffin granule membranes

1. Catecholamines are transported into chromaffin granules via a carrier-mediated, active-transport process which is inhibited by micromolar concentrations of the sulfhydryl reagent, N-ethylmaleimide (NEM). Reserpine is a very potent, competitive inhibitor of the catecholamine transporter and can be used to investigate the characteristics of the catecholamine transporter. 2. The purpose of this study was to determine whether [3H]reserpine binding to the catecholamine transporter present in chromaffin granule membranes isolated from bovine adrenal glands was also inhibited by NEM and, if so, whether this was a direct or an indirect effect of NEM on the catecholamine transporter. 3. Both [3H]norepinephrine transport into and [3H]reserpine binding to the chromaffin granule ghosts isolated from bovine adrenal glands are inhibited by NEM, with IC50 values of 0.63 +/- 0.02 and 2.8 +/- 0.66 microM, respectively. 4. Mg and ATP protected both the [3H]norepinephrine transport into the ghosts and the [3H]reserpine binding to the transporter from inhibition by NEM, shifting the IC50 values to 260 +/- 43 and 120 +/- 29 microM, respectively. 5. NEM inhibition of the catecholamine transport and reserpine binding appears to be due to an action on the proton translocator associated with the Mg ATPase enzyme rather than a direct action on the catecholamine transporter since (a) the concentration of NEM required to inhibit formation of a membrane potential is similar to that required to inhibit [3H]norepinephrine transport into and [3H]reserpine binding to the ghosts and (b) Mg and ATP protected the proton translocation and [3H]norepinephrine transport into the ghosts, and [3H]reserpine binding to the ghosts, from inhibition by NEM.(ABSTRACT TRUNCATED AT 250 WORDS)     

Diminished serotonin uptake in platelets of transgenic mice with increased Cu/Zn-superoxide dismutase activity.

Reduced levels of the neurotransmitter serotonin in blood platelets is a clinical symptom characteristic of individuals with Down's syndrome. To investigate the possible involvement of the Cu/Zn-superoxide dismutase (CuZnSOD) gene, which resides at the Down locus on chromosome no. 21, in the etiology of that symptom, we examined blood platelets of transgenic mice harboring the human CuZnSOD gene. It was found that platelets of transgenic CuZnSOD animals, which overexpress the transgene, contain lower levels of serotonin than nontransgenic littermate mice, due to a reduced rate of uptake of the neurotransmitter by the dense granules of the platelets. We found that the pH gradient (delta pH) across the dense granule membrane, which is the main driving force for serotonin transport, was diminished in dense granules of transgenic-CuZnSOD. Furthermore, a significantly lower than normal serotonin accumulation rate was also detected in dense granules isolated from blood platelets of Down's syndrome individuals. These findings suggest that CuZnSOD gene dosage is affecting the dense granule transport system and is thereby involved in the depressed level of blood serotonin found in patients born with Down's syndrome.     

Ca2+ and proton transport in chromaffin granule membranes: a proton NMR study

High-resolution proton NMR spectroscopy has been used to monitor the internal pH of chromaffin granule ghosts during Ca2+ influx through the membrane. For this purpose, ghosts were prepared by lysing and resealing chromaffin granules in a medium containing the disodium-ethylenediaminetetraacetic acid complex (Na2.EDTA). Uncomplexed EDTA and Ca.EDTA give rise to distinct sets of methylene peaks in the proton NMR spectrum. Free EDTA titrates with a pK near 6.6 in deuterated media; the chemical shifts that accompany titration have been used to monitor intravesicular pH changes which occur inside chromaffin granule ghosts as a result of ATPase activity and deprotonation of EDTA during Ca2+ influx and complex formation. ATPase activity results in an NMR-detectable proton gradient which is dissipated by nigericin. Experiments monitoring Ca2+ uptake showed that protons which are liberated inside ghosts as a result of Ca.EDTA complex formation are not extruded from the ghosts via a process coupled to Ca2+ entry. This suggests that the Ca2+ transport system of the chromaffin granule membrane occurs without concurrent proton antiport and is not directly coupled energetically to the transmembrane pH gradient.     

Amine transport into chromaffin ghosts. Kinetic measurements of net uptake of biologically and pharmacologically relevant amines using an on-line amperometric technique

The kinetic parameters for net transport of dopamine, epinephrine, norepinephrine, 5-hydroxytryptamine, S alpha-methyldopamine, R alpha-methyldopamine, and 1R,2S alpha-methylnorepinephrine into highly purified bovine chromaffin ghosts were determined using an on-line amperometric technique. Chromaffin ghosts devoid of endogenous amines were formed from lysis of chromaffin granules under hypotonic conditions, extensive washing of the scattered membranes, followed by resuspension in iso-osmotic media and overnight dialysis. When chromaffin ghosts formed so as to generate and maintain a large delta pH were suspended in 185 mM KCl, 10 mM Hepes at pH 7.0, 37 degrees C, the addition of MgATP resulted in rapid acidification of the intravesicular space, which was maintained at pH 6.0 (+/- 0.1) for over 30 min. Kinetic net amine transport was subsequently measured with a glassy carbon electrode. The initial rates of uptake were found to follow Michaelis-Menten kinetics. Computer based statistical analysis of the data using distribution-free procedures yielded Km (and V) values as follows: in microM (nmol X mg protein-1 X min-1) dopamine, 16.2 (14.0); R-norepinephrine, 32.5 (12.9); R-epinephrine, 35.1 (15.2); 5-hydroxytryptamine, 4.7 (5.1); S alpha-methyldopamine, 17.7 (11.2); R alpha-methyldopamine, 44.2 (9.9); 1R,2S alpha-methylnorepinephrine, 76.5 (12.5). The physiologic and pharmacologic implications of these kinetic parameters are discussed.     

The isolation of plasma membrane and characterisation of the plasma membrane ATPase from the yeast Candida albicans

Plasma membrane ghosts were isolated from Candida albicans ATCC 10261 yeast cells following stabilisation of spheroplasts with concanavalin A, osmotic lysis and Percoll density gradient centrifugation. Removal of extrinsic proteins with NaCl and methyl alpha-mannoside gave increased ATPase and chitin synthase specific activities in the resultant plasma membrane fraction. Sonication of this fraction yielded unilamellar plasma membrane vesicles which exhibited ATPase and chitin synthase specific activities of 4.5-fold and 3.0-fold, respectively, over those of the plasma membrane ghosts. ATPase activity in the membrane ghosts was optimal at pH 6.4, showed high substrate specificity (for Mg X ATP) and was inhibited 80% by sodium vanadate but less than 4% by oligomycin and azide. The effects of a range of other inhibitors were also characterised. Temperature effects of ATPase activity were marked, with a maximum at 35 degrees C. Breaks in the Arrhenius plot, at 12.2 degrees C and 28.9 degrees C, coincided with endothermic heat flow peaks detected by differential scanning calorimetry. ATPase was solubilised from the plasma membranes with Zwittergent in the presence of glycerol and phenylmethylsulphonyl fluoride and partially purified by glycerol density gradient centrifugation. The solubilised enzyme hydrolysed Mg X ATP at Vmax = 20 mumol X min-1 X mg-1 in the presence of phospholipids, with optimal activity at pH 6.0--6.5.     

Existence of an adenosine 5'-triphosphate dependent proton translocase in bovine neurosecretory granule membrane

The addition of ATP to bovine neurohypophysial secretory granules suspended in isotonic sucrose medium induces a positive polarization, delta psi, of their interior without affecting their internal pH. In KCl-containing media, ATP failed to generate large delta psi but induced a pH gradient (delta pH; interior acidic). These observations are consistent with the existence in the neurosecretory granule membrane of an ATP-dependent inward electrogenic H+ translocase (H+ pump), capable in KCl-containing media of acidifying the granule matrix by H+-Cl- cotransport. The delta psi and delta pH generated by the H+ pump, defined as the ATP-induced changes sensitive to the H+ ionophore carbonyl cyanide m-chlorophenylhydrazone (CCCP), were blocked by N,N'-dicyclohexylcarbodiimide, an inhibitor of all H+ pumps, and were insensitive to oligomycin, a mitochondrial ATPase inhibitor. In sucrose medium, measurements were complicated by a Donnan equilibrium reflecting the presence in the granule of peptide hormones and neurophysins which resulted in a CCCP-resistant resting delta pH. In KCl-containing media, the Donnan equilibrium was destroyed since the membrane is permeable to cations, but under these conditions a CCCP-resistant K+-diffusion potential was observed. The ATP-induced delta psi was also monitored by the extrinsic fluorescent probe bis(3-phenyl-5-oxoisoxazol-4-yl)pentamethine oxonol. The hypothesis of a granule H+ pump is further supported by the presence of an oligomycin-resistant ATPase in the preparation and the ultrastructural localization of such an activity on the granule membrane. The H+ pump has been found in both newly formed and aged neurosecretory granules. Its possible physiological function is discussed with reference to that of chromaffin granules, with which it has many similarities.     

Solubilization and reconstitution of the catecholamine transporter from bovine chromaffin granules.

The catecholamine transporter from bovine chromaffin granules has been solubilized by using low concentrations of sodium cholate in the presence of phospholipids. The functional solubilized protein has been incorporated into liposomes after removal of the detergent either by gel filtration or by dialysis. Reserpine-sensitive accumulation against a concentration gradient is achieved by artifically imposing a pH gradient across the membrane. In the reconstituted system adenosine 5'-triphosphate (ATP) serves as an energy source only at higher detergent concentrations. The proton-translocating adenosine triphosphatase (ATPase) is solubilized in parallel with the increasing efficiency of ATP as an energy source. Several criteria are proposed to distinguish between carrier-mediated (reserpine sensitive) and unmediated transport in the reconstituted system. The reserpine-sensitive process shows affinity and ss presented in this communication provide further support for the contention that concentrative uptake in biogenic amine storage vesicles is driven by a transmembrane pH gradient, which, in the native system, is generated by a proton-translocating ATPase. Moreover, the assays described provide a tool for the isolation and purification of the transport protein.