A membrane-bound aminopeptidase isolated from monkey brain and its action on enkephalin

A membrane-bound aminopeptidase which cleaves the tyrosin-glycine bond of enkephalin was purified about 1600-fold from monkey brain. This aminopeptidase hydrolyzed Leu-enkephalin with a K_m value of 35 μM and also hydrolyzed basic, neutral and aromatic amino acid β-naphthylamides. An apparently homogeneous enzyme consisted of a single polypeptide chain with a molecular weight of approx. 100 000. The optimum pH was in the neutral region. From the analysis of the reaction products, only aminopeptidase activity was detected. The enzyme was inactivated by metal chelators, but the activity could be restored by the addition of divalent cations, such as Co²⁺, Mg²⁺ and Zn²⁺. Puromycin, bestatin and amastatin, which are aminopeptidase inhibitors derived from microorganism, showed strong competitive inhibition of the enzyme, the most potent being amastatin, with a K_i value of 0.02 μM.     

Purification and partial characterization of an aminopeptidase from mung bean cotyledons

An aminopeptidase (EC 3.4.11.-) was purified to homogeneity, as judged by SDS-PAGE. from mung bean ( Vigna radiata ) cotyledons. The molecular mass of this peptidase was estimated as 75 kDa by gel filtration. When an oligopeptide consisting of 5 amino acid residues was used as substrate, amino acids were released in the order of the N-terminal sequence of the oligopeptide chain. This enzyme apparently requires free sulfhydryl for its activity, as judged by the effects of various proteinase inhibitors. Among aminoacyl- p -nitroanilides examined for the availability as substrates of the enzyme, p -nitroanilides with hydrophobic amino acids were preferred substrates. According to western immunoblot profiles, the enzyme level in cotyledons was high at the early stage of imbibition and declined rapidly after germination.     

Purification and characterization of guinea pig serum aminoacylproline hydrolase (aminopeptidase P).

Aminoacylproline hydrolase (EC 3.4.11.9) of guinea pig serum has been obtained as two apparently homogeneous isoforms. Dialyzed serum was chromatographed successively on Affi-gel blue, hydroxyapatite, DE-cellulose, phenyl-Sepharose, an affinity matrix for angiotensin converting enzyme and concanavalin-Sepharose. On the latter matrix, 68% of the enzyme activity was eluted with alpha-methyl mannoside at 10 and 100 mM, and 29% was eluted with alpha-methyl glucoside, 500 mM, at 56 degrees C. The two fractions ('biantennary' and 'high mannose' fractions, respectively) were concentrated and then chromatographed separately on Sephacryl S-200HR. Both fractions were eluted as expected for a globular protein of Mr 217,000. On SDS-PAGE, under reducing and non-reducing conditions, each of the concanavalin-Sepharose fractions was separated into two protein bands, Mr 89,000 and Mr 81,500. Each of the bands was found to be N-blocked when N-terminal amino acid sequencing was attempted. The reaction of the 'biantennary' fraction with the synthetic substrate Arg-Pro-Pro-[3H]benzylamide was characterized in part: Km 0.7 microM, kcat 124.6 min-1, kcat/Km 1.78.10(8) M-1 min-1. Hydrolysis of the substrate was strongly inhibited by bradykinin and those of its lower homologs that contain two adjacent proline residues. Cu2+ was strongly inhibitory. Co2+ at 30 microM activated the enzyme, as did Mn2+, Mg2+ and Ca2+ at higher concentrations. Sulfhydryl compounds, including captopril, inhibited the enzyme as did 1,10-phenanthroline. Iodoacetamide and N-ethylmaleimide had no effects, but 4-hydroxymercuribenzoate conferred a partial inhibition over a remarkably wide concentration range: 0.34-1400 microM. Amastatin and bestatin did not inhibit the enzyme. Aminoacylproline hydrolase of guinea pig serum appears to be a heterogeneous, glycosylated metallo-enzyme with a high affinity for bradykinin and related peptides in which the sequence Pro-Pro, Xaa-Pro-Pro or Xaa-Pro-Hyp is N-terminal.     

Purification and characterization of an aminopeptidase from the chloroplast stroma of barley leaves by chromatographic and electrophoretic methods

Aminopeptidases catalyze the cleavage of amino acids from the amino terminus of protein or peptide substrates. Although some aminopeptidase activities have been found in plant chloroplasts, the identity of these proteins remains unclear. In this work, we report the purification to apparent homogeneity of a soluble aminopeptidase from isolated barley chloroplasts which preferentially degraded alanyl-p-nitroanilide (Ala-pNA). After organelle isolation in a density gradient and precipitation of soluble proteins with ammonium sulfate, the proteins were purified in three consecutive steps including hydrophobic interaction, gel permeation and ion-exchange chromatographies. The purified enzyme appeared as a single band with a M_r of 84 000 in sodium dodecyl sulfate–polyacrylamide gel electrophoresis analysis. The M_r of the native enzyme was estimated to be 93 000 by gel permeation chromatography, suggesting that the protein is a monomer. Mass spectrometry analysis of tryptic digests indicates that the primary structure of the protein has not been reported previously. The enzyme was characterized as a metalloprotease as it could be totally inhibited by 1,10-phenanthroline. Strong inhibition could also be observed using the specific aminopeptidase inhibitors amastatin and bestatin. Besides Ala-pNA, the purified protein could also cleave with decreasing activity glycyl-pNA, leucyl-pNA, lysyl-pNA, methionyl-pNA and arginyl-pNA. The possible physiological role of this enzyme in the chloroplast stroma is discussed.     

Purification and characterization of a lysine aminopeptidase from Kluyveromyces marxianus

A lysine aminopeptidase was purified from the yeast Kluyveromyces marxianus. This enzyme was purified 100-fold from a soluble extract obtained at 100,000g. The purification procedure consisted in fractionated precipitation with ammonium sulfate and five chromatography steps. The native enzyme had a molecular mass of 46 kDa assessed through gel filtration. This aminopeptidase depicted an optimal pH of 7.0 and was stable at a pH range of 4-8, its optimal temperature was 45 degrees C and the enzyme became unstable at temperatures above 55 degrees C. The isoelectric point of the purified enzyme was 4.4. Michaelis constant and Vmax for L-lysine-p-nitroanilide were 0.33 mM and 2.2 mM min(-1) per milligram of protein, respectively. The enzyme was strongly inhibited by bestatin, o-phenanthroline and, to a lesser extent, by EDTA, suggesting that this enzyme is a metalloprotease. Our results suggest that the lysine aminopeptidase from Kluyveromyces marxianus might be of biotechnological relevance.     

Purification and characterization of an intracellular N-terminal exopeptidase from Streptococcus durans

An intracellular N-terminal exopeptidase isolated from cell extracts of Streptococcus durans has been purified 470-fold to homogeneity (specific activity of 12.0 μmol/min per mg). In the absence of thiol compounds, the purified aminopeptidase undergoes a slow oxidation with a 70% loss of activity, which can be restored by the addition of 2 mM β-mercaptoethanol. The purified aminopeptidase (M_r 300 000) preferred L-peptide and arylamide substrates with small nonpolar or basic side chains. SDS electrophoresis yielded a single protein band corresponding to a molecular weight of 49 400, suggesting that the native enzyme is a hexameric protein. The enzyme-catalyzed hydrolysis of $\text{L}\text{-}\text{alanyl}\text{-p-}\text{nitroanilide}$ exhibited a bell-shaped pH dependence for log V_max/K_m(pK₁ = 6.35; pK₂ = 8.50) while the log V_max versus pH profile showed only an acid limb (pK = 6.35). Methylene blue-sensitized photooxidation of the enzyme resulted in the complete loss of activity, while L-leucine, a competitive inhibitor, partially protected against this inactivation. Amino acid analysis indicated that this photooxidative loss of activity corresponded to the modification of one histidine residue per enzyme monomer. N-Ethylmaleimide (100 mM) caused a 78% reduction in enzyme activity. Treatment of the enzyme with 1.0 mM hydrogen peroxide resulted in the oxidation of two cysteine residues per enzyme monomer and caused a 70% decrease in the catalytic activity.     

Bile salt sulfotransferase in guinea pig liver

Bile salt sulfotransferase from guinea pig liver is purified by the procedures of ammonium sulfate fractionation, Sephadex G-100 column chromatography, agarose-hexane-adenosine 3′,5′-diphosphate affinity chromatography and polyacrylamide gel electrophoresis. The purified enzyme exhibits a pH optimum of 6.8, an isoelectric point of 5.6 and a molecular weight of 7600 estimated by gel filtration technique. The apparent K_m values of the enzyme are 7.7·10^?5 M for taurolithocholate and 1.4·10^?6 M for 3′-phosphoadenosine 5′-phosphosulfate. It requires Mg²⁺ and free sulfohydryl group(s) for activity. The enzyme reacts with hydroxy groups of bile salts at both 3α and 3β positions. No activity is found in the kidney of guinea pig. The purified enzyme does not react with estrone, estradiol, testosterone, dehydroepiandrosterone, cholesterol, phenol, tyramine, and serotonin. The results indicate that bile salt sulfotransferase is distinct from other hepatic sulfotransferases.     

Immunological identification of soluble carbonyl reductase with testosterone 17β-dehydrogenase (NADP+) in guinea pig liver and kidney

Antiserum was produced against one of two carbonyl reductases purified from guinea pig liver cytosol to identify the enzymes as testosterone 17β-dehydrogenase isozymes. Immunoelectrophoresis and immunoprecipitation with the antiserum indicated that the two reductases had common antigenic sites. The antiserum inhibited most of both carbonyl reductase and testosterone 17β-dehydrogenase activities in the purified reductases and in cytosols of liver and kidney.     

Bile acid uptake by isolated intestinal mucosa cells of guinea pig

Isolated intestinal mucosa cells of the guinea pig were employed to study intestinal transport of bile acids. Chenodeoxycholate and lithocholate were rapidly taken up into jejunal and ileal cells by diffusion. Taurocholate and cholate however showed only a minor diffusion rate and were preferentially taken up by the ileal bile acid carrier. This uptake was saturable with an apparent K_m of 231 μM and V of 7 nmol/mg protein per min for taurocholate; this bile acid was accumulated 90-fold. Its uptake was strongly inhibited by antimycin A, FCCP, ouabain or Na⁺-deficiency in the medium. Sugars or amino acids did not interfere with uptake. Experimental conditions were optimized with regard to incubation medium, cell amount, cell age and length of preincubation. It is concluded that ileal cells of the guinea pig are superior to other experimental models for characterizing the ileal bile acid carrier, because they allow us to determine initial rates of uptake and have a very efficient energetic coupling.     

Electron microscopic studies on guinea pig rib cartilage

Summary The guinea-pig rib cartilage consists of chondrocytes dispersed in an intercellular substance composed of collagen fibrils, often characteristically cross-striated, and polygonal granules. Electron-dense membrane-bounded matrix vesicles are also observed intercellularly, especially in the central, partly calcified zone of the cartilage. With respect to their location in a cross-section of the rib, the chondrocytes differ in size, shape and intracellular fine structure. Thus, three separate types of cells are recognized. Peripheral chondrocytes have a flattened shape and are largely occupied by the nucleus. In the cytoplasm, the granular endoplasmic reticulum is the most extensive organelle. Intermediate chondrocytes are oval or round in shape. The endoplasmic reticulum and the Golgi complex are both prominent. Mitochondria and membrane-bounded cytoplasmic dense bodies are more numerous than in the peripheral cells. The ground cytoplasm often contains a few lipid droplets. In the central chondrocytes, such droplets sometimes fill the entire cytoplasm. Concomitantly, the nucleus is usually completely heterochromatic and the cells are therefore regarded as being metabolically inert.After preparations including ruthenium red staining en bloc, the general stainability of the chondrocytes is decreased. Intracellularly, positive ruthenium red staining of granular material within the Golgi vacuoles are to be observed. Extracellularly, the matrix granules are stained with this polyvalent, cationic dye. Extraction of the cartilage with 4 M guanidine-HCl removes all matrix granules and about 70% of the proteoglycans, measured as hexosamine, from the tissue. It is concluded that the matrix granules contain proteoglycan complexes.Financial support was received from the Swedish Medical Research Council (proj. no. 12X-3355), the Swedish Cancer Society (proj. no. 100-K71-05XK), the King Gustaf V 80th Birthday Fund, the Harald and Greta Jeansson Foundation, the C. B. Nathhorst Foundation, and from the funds of Karolinska Institutet.The skilled technical assistance of Mrs. Eva Lundberg and the secretarial assistance of Mrs. Inger Åhrén are gratefully acknowledged. The authors are indebted to Dr. S. Lohmander for helpful suggestions during the progress of the work.     

Effect of vitamin C deficiency on hydroxylation of trimethylaminobutyrate to carnitine in the guinea pig

The effect of ascorbate deficiency on carnitine biosynthesis was investigated in young male guinea pigs. Liver and skeletal muscle carnitine levels were reduced in scorbutic animals. Heart and kidney concentrations remained unchanged. ¹⁴C-labeled 4-N-trimethylaminobutyrate was administered to control, pair-fed and scorbutic animals and distribution of isotope in compound present in the liver after 30 min was determined. Control and pair-fed animals converted trimethylaminobutyrate to carnitine faster than scorbutic animals. Injection of ascorbate with the [¹⁴C]trimethylaminobutyrate reversed the decline in trimethylaminobutyrate hydroxylase (EC 1.14.11.1) activity in scorbutic animals.     

Purification and characterization of an enkephalin-degrading dipeptidyl-aminopeptidase from porcine brain

A porcine brain dipeptidyl-aminopeptidase (DAP) has been purified more than 2400-fold from a crude mitochondrial fraction containing synaptosomes. This enzyme catalyzes the release of free Tyr-Gly from Leu-enkephalin (Km = 2.5 microM) with an optimal activity between pH 6.0 and pH 8.0. The enzyme appears homogeneous as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis devoid of detectable contaminating aminopeptidase activities. The native enzyme is a monomeric protein with a molecular weight of 51,000 +/- 1,000 and an isoelectric point of 4.6 +/- 0.1. This enzyme cosediments with synaptosomes on a Ficoll-sucrose gradient and is partially associated with synaptic plasma membranes. Its activity is inhibited by the metal-chelating agents ethylenediaminetetraacetate and o-phenanthroline. It is not inhibited by the OH-reactive agent phenylmethanesulfonyl fluoride and SH-reactive agents such as p-(chloromercuri)benzoate and N-ethylmaleimide. Among the various biologically active peptides tested, the purified enzyme releases efficiently the N-terminal dipeptide moiety from enkephalins, Trp-Met-Asp-Phe-NH2 (CCK4), and Gly-Trp-Met-Asp-Phe-NH2 (CCK5). At variance, the native peptides CCK8, substance P, neurotensin, and angiotensin II are not cleaved by the DAP. This enzyme is different from other unspecific DAPs, as well as from enkephalin-degrading DAPs previously reported, by its molecular weight and substrate specificity.     

Isolation of arteriolar microvessels and culture of smooth muscle cells from cerebral cortex of guinea pig

Summary Published methods for the isolation of cerebral microvessels primarily yield terminal resistance vessels and capillary networks, not the more proximal, subpial penetrating arterioles desired for certain studies. We report a novel method for isolating microvessels from the cerebral cortex of a single guinea-pig brain that yields large arteriolar complexes that are up to 50% intact. Instead of using homogenization to disperse brain parenchyma, we digested cortical fragments with trypsin, gently dispersed the parenchyma mechanically, and recovered microvascular complexes by sieving. Phase-contrast and electron microscopy showed primary (penetrating) arterioles, secondary arterioles, and capillary networks that frequently were in continuity as intact microvascular units. Culture of microvascular cells was carried out by enzymatic dissociation followed by an overnight incubation in a recovery medium at 4°C before plating onto fibronectin-modified surfaces. Viability of isolated cells was demonstrated by good cell attachment and prompt proliferation that resulted in confluent cultures after 10 days. Confluent secondary cultures demonstrated characteristic features of smooth muscle cells, including a hill-and-valley growth pattern and expression of -actin. Less than 1% of cells were endothelial or astrocytic cells by immunocytochemical and morphologic criteria. Ultrastructural studies demonstrated evidence of a synthetic phenotype of smooth muscle cell and absence of a significant number of fibroblasts. This method demonstrates that viable smooth muscle cells from the cerebral parenchymal microvasculature can be isolated in bulk quantities for study in vitro.     

Uridine uptake by isolated intestinal epithelial cells of guinea pig

Uptake of uridine was studied in isolated intestinal epithelial cells of guinea pig. Uptake was not severely influenced by metabolism. Free uridine was accumulated within cells 13-fold. Uptake was saturable with an apparent K_m value of 46 μM and a V_max of 0.9 nmol/mg protein per min. Uracil inhibited uptake only slightly; adenosine, guanosine and cytosine inhibited strongly. Antimycin A and ouabain inhibited almost 90%. If the extracellular Na⁺ concentration was decreased to 5 mM, the rate of uptake decreased 6.5-fold. The stimulatory effect of Na⁺ was related to the transmembraneous Na⁺-gradient. Cells from jejunum transported about 30% faster than cells from ileum. In conclusion, isolated enterocytes of guinea pig posses an active transport system for uridine.     

GABA immunoreactivity of calyceal nerve endings in the vestibular system of the guinea pig

Summary Neurotransmitters involved in the vestibular system are largely uncharacterized. On the basis of results of earlier electrophysiological and immunohistochemical experiments, glutamate and gamma-amino-butyric acid (GABA) have been proposed in both mammalian and non-mammalian species as afferent transmitters between the sensory cell and the afferent dendrite. GABA is also suspected to act as an efferent neurotransmitter in the cochlea. We describe in this study the immunocytochemical localization of GABA within the vestibular end organs in the guinea pig. GABA immunoreactivity was found in the calyceal nerve endings surrounding type I hair cells of the vestibular epithelia. The most significant labelings were obtained in the crista ampullaris. Labeling was more difficult to observe in the utricular and saccular macula. These results contribute to the recent proposal that the calyx has a secretory function, and suggest that GABA may have a modulatory influence upon the type I hair cells.     

Forms and activity of high molecular weight adrenocorticotropin in guinea pig

High molecular weight forms of adrenocorticotropin (ACTH) and endorphin were identified in extracts of guinea pig anterior and intermediate/posterior pituitary. Extracts of anterior pituitary contained ACTH immunoactive material with apparent molecular weights of 36,000, 24,000 and 4,500 daltons. The highest molecular weight form the ACTH co-migrated with a peak of endorphin immunoactive material. No material the size of glycosylated ACTH(1--39) was detected. Separated forms of high molecular weight ACTH prepared from mouse tumor cell culture medium stimulated the same maximal production of steroid as ACTH(1--39) in the guinea pig adrenal cell bioassay. Pro-ACTH/endorphin and ACTH biosynthetic intermediate were two orders of magnitude less potent than synthetic human ACTH(1--39); glycosylated ACTH(1--39) was equipotent to ACTH(1--39) although no similar material was detected in guinea pig pituitary extracts. Isolated guinea pig adrenal cortical cells were incubated with the various separated form of mouse tumor cell ACTH and products synthesized from (3H)pregnenolone were analyzed by two-dimensional thin-layer chromatography. The ratio of cortisol-related to corticosterone-related products was the same in response in glycosylated and nonglycosylated ACTH.     

A cytofluorometric study of the myenteric plexus in the guinea pig

Summary The myenteric plexus of the guinea pig ileum was studied in stretch preparations of the longitudinal muscle layer with adherent plexuses, and in freeze-dried transverse sections from the small intestinal wall. Catecholamines and serotonin (5-HT) were visualized according to the Falck-Hillarp technique. Emission spectra from the resulting fluorophores and recordings of their rates of photodecomposition were analysed. Adrenergic nerve terminals showed a slow fluorescence fading rate and a fluorescence spectrum compatible with their known contents of noradrenaline (NA), while the enterochromaffin cells showed a rapid exponential fading and a fluorescence spectrum compatible with their known contents of 5-HT. In order to unmask any low amounts of 5-HT in the neurons of the plexus, analysis of fluorescence parameters at various time intervals after pretreatment with reserpine followed by MAO-inhibition was performed. With the methods used no evidence of the presence of 5-HT in the myenteric plexus of the guinea pig could be found.We thank Iréne Svensson and Uno Johansson for skilful technical assistance. We are also indebted to Ciba, Pfizer and Draco for generous supplies of Reserpine, Nialamide and Pheniprazine. —This work was supported by grants from the Swedish Medical Research Council (Project 14 X-2235) and Göteborgs Läkaresällskap.     

Over-expression, purification, and characterization of aminopeptidase N from Escherichia coli

The gene from Escherichia coli encoding aminopeptidase N (PepN) was subcloned into pET-26b, and PepN was over-expressed in BL21(DE3) E. coli and purified using Q-Sepharose chromatography. This protocol yielded over 17 mg of purified, recombinant PepN per liter of growth culture under optimum conditions. Gel filtration chromatography revealed that recombinant PepN exists as a monomer. MALDI-TOF mass spectra showed that the enzyme has a molecular mass of 98,750 Da, and steady-state kinetic studies revealed that as-isolated, recombinant PepN exhibits a k(cat) of 354 +/- 11s(-1) and a K(m) of 376 +/- 39 microM when using L-alanine-p-nitroanilide as the substrate. Metal analyses demonstrated that as-isolated, recombinant PepN binds 0.5 and <0.1 equivalents of iron and zinc, respectively. The addition of Zn(II) to recombinant PepN inhibits catalytic activity, while the addition of iron causes a slight decrease or no change in activity. Further metal binding studies revealed that recombinant PepN tightly binds 5 equivalents of iron and <0.1 equivalents of Zn(II). By using this over-expression and purification system, E. coli PepN can now be obtained in quantities necessary for structural characterization and possibly inhibitor design efforts.     

Relaxant activity of atriopeptins in isolated guinea pig airway and vascular smooth muscle

Atriopeptins are circulating peptide hormones which are secreted by atrial tissue and act at the kidney. Because the atriopeptins survive passage through the pulmonary circulation, they also may be involved in the modulation of airway or pulmonary vascular smooth muscle tone. Using in vitro organ bath techniques, atriopeptins were found to induce potent concentration-dependent relaxation of isolated guinea pig trachea, and pulmonary artery with a rank order of potency: atriopeptin III greater than atriopeptin II greater than atriopeptin I. Atriopeptin-induced smooth muscle relaxation was observed to be a direct response since it was not mediated by activation of relaxant VIP receptors, beta-adrenergic receptors, or H2 receptors nor affected by cyclooxygenase inhibition or denuding of the vasculature or trachea of endothelial and epithelial cells. The time course of atriopeptin II-induced relaxation of the pulmonary artery was transient in contrast to the prolonged relaxations on the trachea. The transient relaxant responses of atriopeptin II on pulmonary artery were not due to metabolism of atriopeptin II to atriopeptin I by angiotensin-converting enzyme since pretreatment with captopril did not augment the response. These results seem to indicate that distinct atriopeptin receptors may exist in airway and pulmonary arterial smooth muscle and that activation of these relaxant receptors may play an important role in the regulation of pulmonary vascular and bronchomotor tone.