Identification and purification of a functional amine transporter from bovine chromaffin granules

The amine transporter from bovine chromaffin granules has been purified in a functional state. Two isoforms with different pI values have been separated and shown to be active. One with an unusually acidic pI (approximately 3.5) has been shown to be a glycoprotein with an apparent Mr of 80,000. The purified polypeptide catalyzes transport of serotonin upon reconstitution with an apparent Km of 2 microM and a Vmax of 140 nmol/mg/min, 150-200-fold higher than the one determined in the native system. Transport is inhibited by reserpine and tetrabenazine, ligands which bind to two distinct sites on the transporter. These findings suggest that the binding sites for both drugs reside on a single polypeptide. The reconstituted purified transporter binds [3H]reserpine with a biphasic kinetic behavior, KD values of 0.3 and 30 nM and Bmax of 310 and 4200 pmol/mg protein, respectively. In addition, binding of [3H]reserpine is accelerated upon imposition of a pH gradient across the proteoliposome. From these findings it is evident that a single polypeptide catalyzes the various functions of the transporter.     

Characterization and purification of the monoamine transporter of bovine chromaffin granules.

The monoamine transporter of the chromaffin granule membranes can be specifically labeled by the photoaffinity reagent 7-azido-8-[125I]iodoketanserin. The characteristics of the labeled protein have been investigated. Two-dimensional gel electrophoresis of the labeled membranes indicated a MW of about 70,000 and an isoelectric point ranging from 3.8 to 4.6. No clear protein spot was associated with the radioactive material, which migrated between glycoproteins GPII and GPIV. The diffuse aspect of the radioactive material indicated a heterogeneity, which was not modified after a second electrophoresis. This heterogeneity was, at least partially, due to glycosylation of the transporter; neuraminidase treatment increased the protein pI up to 6.3, whereas digestion with N-glycopeptidase markedly decreased the apparent MW, from 70,000 to 50,000. SDS-polyacrylamide gel electrophoresis showed that, at low acrylamide concentrations, the labeled material migrated more rapidly than predicted from the mobility of the markers of molecular weight, a behavior which indicated a marked hydrophobicity of the transporter. The labeled protein was purified to homogeneity by a combination of chromatography on DEAE-cellulose at pH 4.5, on immobilized wheat germ agglutinin, and on hydroxylapatite in the presence of SDS. During this purification, the specific radioactivity was increased by a factor of 300-500, with a yield of 10-20%.     

Functional asymmetry of the amine transporter from chromaffin granules

The studies presented in this communication describe the existence of a pH-dependent kinetic barrier in amine translocation in membrane vesicles isolated from chromaffin granules from bovine adrenal medulla. This barrier prevents efflux of amines previously accumulated in the membrane vesicles. In these preparations, once the amine is accumulated, there is no further need for ATP. This would suggest a low permeability of the membrane, both to ions and to the amine. In addition, we show that under conditions which thermodynamically favour efflux this is kinetically blocked. This block is due to a rapid protonation of the transporter in the interior of the vesicle. Net efflux can be induced by agents that bring upon an alkalinization of the internal pH such as ammonium salts or nigericin. On the other hand, the rate of exchange with extravesicular substrate is almost identical at the various pH values tested. The physiological implications of this mechanism are discussed.     

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.     

Molecular pharmacology of the catecholamine transporter of chromaffin granules from the bovine adrenal medulla

Tetrabenazine (TBZ) and reserpine are two inhibitors of the catecholamine uptake system of the chromaffin granule membrane. They are structural analogs of the substrates dopamine and serotonin and they inhibit the monoamine transporter, which catalyzes a H+/neutral amine antiport. [3H]Dihydrotetrabenazine ([3H]TBZOH) is bound by chromaffin granule membranes on one class of site (T sites, KD = 3 nM); [3H]reserpine is bound on T sites and a second class of site (R1 sites, KD = 0.7 nM). The two sites are involved in monoamine translocation. The substrates displace the ligands with different efficiency: noradrenaline (Km = 10 microM) displaces reserpine efficiently (EC50 = 30 microM), but TBZOH poorly (EC50 = 2000 microM); m-iodobenzylguanidine, which has recently been shown to be a substrate of the monoamine uptake system (Km = 5 microM), displaces TBZOH efficiently (EC50 = 25 microM), but reserpine inefficiently (EC50 = 300 microM). Since both substrates are translocated by the same transporter, this result confirms the existence of two sites with different properties. T sites are characterized by a linear relationship between the reciprocal of the dissociation constants of various drugs displacing [3H]TBZOH and their partition coefficient in octanol/H2O mixtures. This relationship, which indicates a hydrophobic environment of T sites, does not exist for R1 sites. T sites have been identified by covalent labeling with a derivative of TBZ coupled to an arylazido group. The labeled sites are borne by a 65,000 dalton protein. The kinetics of reserpine binding are accelerated in the presence of ATP.(ABSTRACT TRUNCATED AT 250 WORDS)     

Partial purification and characterization of the phosphate transporter from bovine heart mitochondria.

A highly active phosphate transporter was extracted with octylglucoside from bovine heart submitochondrial particles that were first partially depleted of other membrane components. It was then partially purified by ammonium sulfate fractionation. After reconstitution of the transporter into liposomes prepared with a crude mixture of soybean phospholipids, the Pi/OH exchange, but not the Pi/Pi exchange, was stimulated three- to fourfold by valinomycin and nigericin in the presence of K+. Both Pi/OH and Pi/Pi exchange activities were sensitive to mercurials and other SH reagents. The rutamycin-sensitive ATPase complex from mitochondria was reconstituted together with the phosphate transporter and adenine nucleotide transporter into liposomes. After inhibition of externally located ATPase, the hydrolysis of ATP was sensitive to atractyloside and mersalyl.     

Localization of lysophosphatidylcholine in bovine chromaffin granules.

One of the unique features of the chromaffin granule membrane is the presence of about 17 mol% lysophosphatidylcholine. Lysophosphatidylcholine isolated from the granules could be degraded by approx. 94% by lysophospholipase. This result is consistent with chemical analyses data showing that about 9% of this lysophospholipid is 1'-alkenyl glycerophosphocholine. The localization of the acylglycerophosphocholine in the chromaffin granule membrane was studied by using pure bovine liver lysophospholipases. In intact granules only about 10% of the total lysophosphatidylcholine was directly available for enzymic hydrolysis. In contrast, when granule membranes (ghosts) were treated with lysophospholipases approx. 60% of the lysophosphatidylcholine was deacylated. These values did not increase after pre-treatment of intact granules or ghosts with trypsin. Added 1-[1-14C]palmitoyl-sn-glycero-3-phosphocholine did not mix with the endogenous lysophosphatidylcholine pool(s) and remained completely accessible to added lysophospholipases.     

A soluble lipid.protein complex from bovine adrenal medulla chromaffin granules

A unique soluble lipoprotein has been isolated from aqueous lysates of bovine adrenal medulla chromaffin granules by DEAE-cellulose chromatography and gel filtration. Chloroform/methanol extracts of this complex contain sphingomyelin, lecithin, and cholesterol. Gel filtration in aqueous media indicate an approximate molecular weight of 900,000 for the complex. Incubation with sodium dodecyl sulfate causes dissociation to a low molecular weight polypeptide; prolonged treatment with guanidine HCl does not promote dissociation at all. Amino acid analysis revealed a high content of hydrophobic amino acids. Analysis of the tryptic fingerprint indicates that a single type of polypeptide chain is present. The complex appears to contain approximately five copies of polypeptide per aggregate.     

Peptidylglycine alpha-amidating monooxygenase from bovine heart atrium secretory granules and adrenal chromaffin granules

About 40-60% of the peptidylglycine alpha-amidating amonooxygenase activity in the lysates of secretory granules from bovine atria and adrenal medulla isolated and lyzed in the presence of pepstatin, phenylmethylsulfonyl gluoride, N-ethylmaleimide and catalase, was found to be in the soluble form. The remaining part bound to the membrane fraction was extracted with Triton X-100. The procedure of purification of the soluble form of peptidylglycine alpha-amidating monooxygenase from both atrial and chromaffin granules in electrophoretically homogeneous enzyme preparations was developed. The enzyme is made up of a single subunit with a molecular mass of 68 kDa and contains one copper atom per molecule. The EPR spectra of peptidylglycine alpha-amidating amonooxygenase and dopamine beta-monooxygenase were found to be practically identical, thus indicating that the copper environment in the both enzymes is the same. Both peptidylglycine alpha-amidating monooxygenase and dopamine beta-monooxygenase are inhibited by the neurocuprein apoform, an extremely acidic protein isolated from brain and secretory granules of different endocrine tissues.     

A unique proenkephalin-converting enzyme purified from bovine adrenal chromaffin granules

A unique proenkephalin converting enzyme specifically generating enkephalin was partially purified from lysates of adrenal chromaffin granules. The enzyme, whose molecular weight is estimated as ca. 220,000, is thiol-dependent protease, with optimal pH at around 5.5. The enzyme converts proenkephalin to enkephalins by cleaving specifically at the sites of consecutive basic amino acid residues. The enzyme also converts BAM-12P, an adrenal “big” Met-enkephalin, to Met-enkephalin in a similar manner. During the enzyme reaction, formation of [Arg⁶]-Met-enkephalin was not observed. Additionally, [Arg⁶]-enkephalins were not converted to enkephalins by the enzyme. Consequently, the enzyme was proved to be a unique converting enzyme distinct from either trypsin-like or carboxypeptidase B-like proteases.     

Localization of lysophosphatidylcholine in bovine chromaffin granules

One of the unique features of the chromaffin granule membrane is the presence of about 17 mol% lysophosphatidylcholine. Lysophosphatidylcholine isolated from the granules could be degraded by approx. 94% by lysophospholipase. This result is consistent with chemical analyses data showing that about 9% of this lysophospholipid is 1′-alkenyl glycerophosphocholine.The localization of the acylglycerophosphocholine in the chromaffin granule membrane was studied by using pure bovine liver lysophospholipases. In intact granules only about 10% of the total lysophosphatidylcholine was directly available for enzymic hydrolysis. In contrast, when granule membranes (ghosts) were treated with lysophospholipases approx. 60% of the lysophosphatidylcholine was deacylated. These values did not increase after pre-treatment of intact granules or ghosts with trypsin. Added $\text{1-[1-}{}^{14}\text{C]palmitoyl}\text{-sn-}\text{glycero-3-phosphocholine}$ did not mix with the endogenous lysophosphatidylcholine pool(s) and remained completely accessible to added lysophospholipases.     

Purification and characterization of a cathepsin D protease from bovine chromaffin granules.

Purification and potential tachykinin and enkephalin precursor cleaving enzymes from bovine chromaffin granules was undertaken using as substrates the model precursors 35S-(Met)-beta-preprotachykinin [35S-(Met)-beta-PPT] and 35S-(Met)-preproenkephalin [35S-(Met)-PPE]. Purification by concanavalin A-Sepharose, Sephacryl S200, and chromatofocusing resulted in a chromaffin granule aspartyl protease (CGAP) that preferred the tachykinin over the enkephalin precursor. CGAP was composed of 47-, 30-, and 16.5-kDa polypeptides migrating as a single band in a nondenaturing electrophoretic gel system, and coeluting with an apparent molecular mass of 45-55 kDa by size-exclusion chromatography. These results suggest that two forms exist: a single 47-kDa polypeptide and a complex of 30 + 16.5-kDa-associated subunits. CGAP was optimally active at pH 5.0-5.5, indicating that it would be active within the acidic intragranular environment. Cleavage at basic residues was suggested by HPLC and HVE identification of 35S-(Met)-NKA-Gly-Lys as the major acid-soluble product generated from 35S-(Met)-beta-PPT. Neuropeptide K was cleaved at a Lys-Arg basic residue site, as determined by identification of proteolytic products by microsequencing and amino acid composition analyses. Structural studies showed that the three CGAP polypeptides were similar to bovine cathepsin D in NH2-terminal sequences and amino acid compositions, indicating that CGAP appears to be a cathepsin D-related protease or cathepsin D itself. The 47- and 16.5-kDa polypeptides of CGAP possessed identical NH2-terminal sequences, suggesting that the 16.5-kDa polypeptide may be derived from the 47-kDa form by proteolysis.(ABSTRACT TRUNCATED AT 250 WORDS)     

The molecular shape of dopamine beta-hydroxylase from chromaffin granules of bovine adrenal medulla

The structural features of the soluble dopamine beta-hydroxylase from chromaffin granules of bovine adrenal medulla were studied using negative staining and platinum shadowing electron microscopic methods. The enzyme was shown to be highly asymmetric as suggested in earlier hydrodynamic studies. The tetramer of the enzyme appeared as four subunits arranged in the shape of a planar rose with an estimated width of 15 nm. A minimum thickness of 3.0 nm for the enzyme monomer was calculated from the shadow length of unidirectionally shadowed molecules. A model composed of four oblate ellipsoid monomers in a tetrameric rose arrangement is proposed for the shape of the dopamine beta-hydroxylase molecule. Two monomers associate edge to edge to form an in-plane dimer and two dimers associate side-by-side with their respective long axes at a slight angle to form a tetramer. Theoretical calculations based on the model are consistent with previous hydrodynamic studies.     

NADH: (acceptor) oxidoreductase from bovine adrenal medulla chromaffin granules

The NADH:(acceptor) oxidoreductase from membranes of bovine adrenal medulla chromaffin granules has been purified by column chromatography. After solubilization of the membranes with emulphogen, a nonionic detergent, the enzyme was purified by dye-ligand chromatography and gel filtration. The oxidoreductase appeared essentially homogeneous on two gel electrophoretic systems. On polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate, the enzyme revealed a dimeric structure with a combined molecular weight of about 55,000. The enzyme eluted as a detergent-lipid-protein aggregate with a Stoke's radius of 43 Å on gel filtration columns in the presence of emulphogen. The amino acid composition of the oxidoreductase was found to be distinct from that of similar enzymes from other organelles. Topographical experiments indicated that the enzyme is a transmembrane protein.     

Identification and characterization of the catecholamine transporter in bovine chromaffin granules using [3H]reserpine

Characterization of the catecholamine transporter in chromaffin granule membranes has been hampered by the lack of a radioligand with high specific activity which binds selectively to the carrier with high affinity. We report here the identification of a high affinity binding site for [3H]reserpine on chromaffin granule membranes isolated from bovine adrenal gland which has the characteristics expected of the catecholamine transporter. [3H]Reserpine bound predominately to a high affinity site with a Kd for [3H]reserpine of 9 nM and a binding site density of 7.8 pmol/mg of protein. Comparison of the characteristics of the high affinity reserpine binding site to the characteristics of catecholamine transport indicated that (a) the Ki and rank order of potency for inhibition of [3H]reserpine binding by various biogenic amines was similar to their Ki for inhibition of catecholamine transport (b) both the inhibition of (-)-[3H]norepinephrine transport and inhibition of [3H]reserpine binding showed similar stereo-specificity, and (c) Kd for binding of reserpine to chromaffin granule membranes was similar to the Ki for reserpine inhibition of catecholamine transport. These results demonstrate that the high affinity binding site for [3H]reserpine on chromaffin granule membranes is associated with the catecholamine transporter.