N-terminal sequence analysis of atrial granule serine proteinase purified by affinity chromatography

Atrial granule serine proteinase is considered the leading candidate endoproteolytic processing enzyme of pro-atrial natriuretic factor. Its cleavage specificity is directed toward a monobasic amino acid processing site, and as such, the atrial enzyme is distinguished from the family of prohormone convertases which act at dibasic amino acid processing sites. To delineate the molecular mechanisms which distinguish monobasic from dibasic amino acid-directed processing enzymes, pure atrial enzyme is needed for sequence determination leading to molecular cloning, and for preparation of antisera. An affinity chromatography purification scheme seemed a logical modification of our established procedures to yield suitable amounts of enzyme for further studies. Surprisingly, pseudo-peptide bond inhibitors of the atrial enzyme [Damodaran and Harris (1995),J. Protein Chem., this issue] formed ineffective affinity ligands, even though these compounds contain essential residues on either side of what would be the scissile bond in a peptide substrate. On the other hand, tripeptide aldehydes (based on the substrate recognition sequence of the atrial enzyme) linked to Sepharose formed effective affinity matrices, permitting purification of the enzyme in a single step from a subcellular fraction enriched for atrial granules and lysosomes. Hence, the enzyme was purified 2000-fold in 90% overall yield, and subjected to N-terminal sequence analysis through 26 residues. The sequence determined, XXPEAAGLPG[R, L]GNPVP[F, G]R[Q, I]XY[G, E]XR(N, A]V, indicates that the atrial enzyme is unique, showing little sequence homology to other proteins in the database.Abbreviations AGSP atrial granule serine proteinase - ANF atrial natriuretic factor - BSA bovine serum albumin - Bz benzoyl - EACA 6()-aminocaproic acid - HEPES N-2-hydroxyethylpiperazine-N'-propanesulfonic acid - HPLC high-performance liquid chromatography - PEG polyethylene glycol-3350 - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Single-letter abbreviations are used to denote amino acids     

Preparations of Ψ-peptide bond and peptide-aldehyde inhibitors of atrial granule serine proteinase, a candidate processing enzyme of pro-atrial natriuretic factor

Pseudo-peptide bond inhibitors (-bond inhibitors) and peptide-aldehyde inhibitors of atrial granule serine proteinase, the candidate processing enzyme of pro-atrial natrieuretic factor, are prepared in high yield and purity by novel synthetic routes. The -bond compounds retain essential residues for enzyme binding, but place the enzyme inhibition site in the midst of the peptide sequence. Thus, Bz-APR--LR and Bz-APR--SLRR can be considered readthrough inhibitors of atrial granule serine proteinase. The most potent -peptide, Bz-APR--SLRR (IC₅₀=250 M), is about fivefold less potent than the best peptide-aldehyde inhibitor (EACA-APR-CHO), and both the -bond and peptide-aldehyde compounds are competitive, reversible inhibitors of the enzyme. The -bond peptides containing two C-terminal Arg residues are three-to tenfold more potent than the analogous compounds containing only one C-terminal Arg residue, confirming the importance of both Arg residues in the enzyme processing recognition site. As expected, because of their moderate potencies, the -peptides are not useful affinity ligands for purification of atrial granule serine proteinase, but both peptide aldehydes are effective affinity ligands [Damodaran and Harris (1995),J. Protein Chem., this issue].Abbreviations AGSP atrial granule serine proteinase - ANF atrial natriuretic factor - Bz benzoyl - DIEA diisopropylethylamine - DIPCDI diisopropylcarbodiimide - DMF dimethylformamide - DMSO dimethylsulfoxide - EACA 6(e)-aminocaproic acid - EtOAc ethyl acetate - HEPES N-2-hydroxyethylpiperazine-N-propanesulfonic acid - HOBt N-hydroxybenzotriazole - HPLC high-performance liquid chrornatography - NMR nuclear magnetic resonance - PEG polyethylene glycol-3350 - PyBOP benzotriazole-1-yl-oxy-trispyrrolidino-phosphonium-hexafluorophospate - TEA triethylamine - TFA trifluoroacetic acid - THF tetrahydrofuran - TLC thin-layer chromatography - UV ultraviolet - pseudo-peptide bond -CH₂-NH-. Single-letter abbreviations are used to denote amino acids     

Ethanol Promotes Apoptosis in Cerebellar Granule Cells by Inhibiting the Trophic Effect of NMDA

Abstract: When primary cultures of cerebellar granule neurons are grown in a physiological concentration of KCl (5 m M ) they undergo apoptosis, which can be prevented by growing the cells in the presence of N -methyl- d -aspartate (NMDA). We now show that ethanol inhibits this trophic effect of NMDA, i.e., promotes apoptosis, and also inhibits the NMDA-induced increase in intracellular Ca²⁺ concentration in cells grown in 5 m M KCl. Both effects of ethanol show a similar concentration dependence and are reversed by a high concentration of glycine, the co-agonist at the NMDA receptor. The data suggest that the effect of ethanol on apoptosis is mediated, at least in part, by inhibition of NMDA receptor function. This effect of ethanol to increase apoptosis could contribute to the previously described in vivo sensitivity of the developing cerebellum to ethanol-induced damage.     

Biochemical and Temporal Analysis of Events Associated with Apoptosis Induced by Lowering the Extracellular Potassium Concentration in Mouse Cerebellar Granule Neurons

Abstract: We analyzed biochemically and temporally the molecular events that occur in the programmed cell death of mouse cerebellar granule neurons deprived of high potassium levels. An hour after switching the neurons to a low extracellular K⁺ concentration ([K⁺]_o), a significant part of the genomic DNA was already cleaved to high-molecular-weight fragments. This phenomenon was intensified with the progression of the death process. Addition of cycloheximide to the neurons 4 h after high [K⁺]_o deprivation resulted in no cell loss and complete recovery of the damaged DNA. DNA margination and nuclear fragmentation as assessed by 4,6-diaminodiphenyl-2-phenylindole staining were observable in a few cells beginning ～4 h after the removal of high [K⁺]_o and developed to nuclear condensation 4 h later. Six hours after high [K⁺]_o deprivation, the DNA was fragmented into oligonucleosome-sized fragments. Within 6 h after removal of the extracellular K⁺, 50% of the neurons were committed to die and lost their ability to be rescued by readministration of 25 mM [K⁺]_o. Similar to high [K⁺]_o deprivation, inhibition of RNA or protein synthesis failed to halt neuronal degeneration of a similar percentage of cells 6 h after the onset of the death process. Mitochondrial function steadily decreased after [K⁺]_o removal. An ～40% decrease in RNA and protein synthesis was detected by 6 h of [K⁺]_o removal during the period of cell death commitment; rates continued to decline gradually thereafter. The temporal characteristics of the DNA damage and recovery, DNA cleavage to oligonucleosome-sized fragments, and the reduction in mitochondrial activity—events that occurred within the critical time—may indicate that these processes have an important part in the mechanism that committed the neurons to die.     

N-Acetylaspartylglutamate Stimulates Metabotropic Glutamate Receptor 3 to Regulate Expression of the GABAAα6 Subunit in Cerebellar Granule Cells

Abstract: We have shown that the vertebrate neuropeptide N-acetylaspartylglutamate (NAAG) meets the criteria for a neurotransmitter, including function as a selective metabotropic glutamate receptor (mGluR) 3 agonist. Short-term treatment of cerebellar granule cells with NAAG (30 µM) results in the transient increase in content of GABA_Aα6 subunit mRNA. Using quantitative PCR, this increase was determined to be up to 170% of control values. Similar effects are seen following treatment with trans-1-aminocyclopentane-1,3-dicarboxylate and glutamate and are blocked by the mGluR antagonists (2S,3S,4S)-2-methyl-2-(carboxycyclopropyl)glycine and (2S)-α-ethylglutamic acid. The effect is pertussis toxin-sensitive. The increase in α6 subunit mRNA level can be simulated by activation of other receptors negatively linked to adenylate cyclase activity, such as adenosine A1, α2-adrenergic, muscarinic, and GABA_B receptors. Forskolin stimulation of cyclic AMP (cAMP) levels abolished the effect of NAAG. The change in α6 levels induced by 30 µM NAAG can be inhibited in a dose-dependent manner by simultaneous application of increasing doses of the β-adrenergic receptor agonist isoproterenol. The increase in α6 mRNA content is followed by a fourfold increase in α6 protein level 6 h posttreatment. Under voltage-clamped conditions, NAAG-treated granule cells demonstrate an increase in the furosemide-induced inhibition of GABA-gated currents in a concentration-dependent manner, indicating an increase in functional α6-containing GABA_A receptors. These data support the hypothesis that NAAG, acting through mGluR3, regulates expression of the GABA_Aα6 subunit via a cAMP-mediated pathway and that cAMP-coupled receptors for other neurotransmitters may similarly influence GABA_A receptor subunit composition.     

Ethanol Specifically Inhibits NMDA Receptors with Affinity for Ifenprodil in the Low Micromolar Range in Cultured Cerebellar Granule Cells

Abstract: The effect of ethanol on the intracellular Ca²⁺ concentration response to NMDA in rat cerebellar granule cells grown in low or high KCI concentrations has been studied using image analysis. The cells grown in low KCI displayed high sensitivity for glycine. The subtype-selective antagonist ifenprodil inhibited the response with high (in the low micromolar range) and low (in the high micromolar range) potency. Ethanol affected the high-potency component in these cultures. In cells grown in high KCI the glycine sensitivity was lower, and a low potency for ifenprodil (high micromolar) dominated. These cells were not significantly sensitive to ethanol. The results indicate that the component displaying potency for ifenprodil in the low micromolar range with properties of the NR2B subunit is the target for ethanol action on the NMDA receptor.     

水盐负荷改变时分泌心房钠尿肽的心房特殊颗粒数目与其钙含量的相关变化

本文报道大鼠水盐负荷时,其心房特殊颗粒（ＡＳＧ）的数目及钙含量发生相关变化。给大鼠禁水５ｄ或饮２％ＮａＣｌ液４ｄ造成水盐负荷,用电镜形态计量法计数ＡＳＧ,以反映心房钠尿肽（ＡＮＰ）的分泌水平,电镜Ｘ射线显微分析法测定ＡＳＧ中钙、硫含量及肌质同终末池（ＴＳＲ）中钙含量。结果显示,禁水引起ＡＮＰ分泌减少时,ＡＳＧ的数密度增加（６．０２±２．３０增至９．９７±３．２１个／μｍ３）,同时伴有钙含量增加（６４±１６增至９２±１８ｍｍｏｌ／ｋｇ）;饮盐水引起ＡＮＰ分泌增加时,ＡＳＧ的数密度减少（６．０２±２．３０减至２．９６±１．６２个／μｍ３）,巨伴有钙含量减少（６４±１６减至３８±２２ｍｍｏｌ／ｋｇ）,但水盐负荷对ＴＳＲ中钙浓度无任何影响。据此推论ＡＳＧ作为细胞内钙库,借某种机制调控其中钙的释放而参与ＡＮＰ的刺激分泌耦联过程。     

Unusual redox behaviour of cytochrome b-561 from bovine chromaffin granule membranes

(1) Redox titrations of cytochrome b-561 have been performed with the purified cytochrome and with intact and detergent-solubilized chromaffin-granule membranes. (2) The midpoint redox potential of the cytochrome is 100–130 mV; this depends upon the composition of the buffer, but is independent of pH in the range 5.5–7.5; partial proteolysis of the cytochrome raises the midpoint potential to 160 mV. (3) The Nernst plots of titration data have slopes of 75–115 mV, and are in some cases sigmoid in shape. This may be explained by negative cooperativity during redox transitions in oligomeric cytochrome b-561. (4) Measurements of the haem and cytochrome content of chromaffin granule membrane suggest a haem content of 1 mol/mol protein. (5) Chemical crosslinking of cytochrome b-561 suggests that it may exist as an oligomer of 4–6 polypeptide chains within the chromaffin granule membrane. Aggregation of purified cytochrome b-561 was shown by gel filtration studies and by immunological methods in SDS-polyacrylamide gels. Studies of the molecular weight of the aggregates suggest that the monomer has a molecular weight close to 22 000, but migrates anomalously slowly during electrophoresis.     

Cyanophycin granule polypeptide protease in a unicellular cyanobacterium

An assay was developed to measure the proteolysis of cyanophycin granule polypeptide in crude extracts of a unicellular cyanobacterium. The substrate was radioactively labeled cyanophycin granule polypeptide formed by an unicellular cyanobacterium grown in the presence of chloramphenicol. Substrate polypeptide displayed identical chemical properties with polypeptide isolated from non-chloramphenicol-treated cells. Solubilization of radioactivity as arginine indicated hydrolysis of polypeptide. Radioactively labeled aspartate and arginine from hydrolyzed polypeptide was related to nmol amino acid using a combination of paper chromatography, liquid scintillation analysis, and ninhydrin quantitation. Protease activity was found in extracts of nitrogen-limited cells harvested 16–24 h after a nitrogen source was added back. Optimal pH for protease activity was 8.0 and optimum temperature was 35°C. Protease activity in crude extracts followed Michaelis-Menten kinetics with a V _max of 92 nmol arginine per 15 min/mg protein and a K _m of 2.1×10³ nmol arginine. Protease activity was inhibited by arginine and by high concentrations of aspartate.     

Lipid-lipid and lipid-protein interactions in chromaffin granule membranes: A spin label ESR study

The ESR spectra of six different positional isomers of a stearic acid and three of a phosphatidylcholine spin label have been studied as a function of temperature in chromaffin granule membranes from the bovine adrenal medulla, and in bilayers formed by aqueous dispersion of the extracted membrane lipids. Only minor differences were found between the spectra of the membranes and the extracted lipid, indicating that the major portion of the membrane lipid is organized in a bilayer arrangement which is relatively unperturbed by the presence of the membrane protein. The order parameter profile of the spin label lipid chain motion is less steep over the first half of the chain than over the section toward the terminal methyl end of the chain. This ‘stiffening’ effect is attributed to the high proportion of cholesterol in the membrane and becomes less marked as the temperature is raised. The isotropic hyperfine splitting factors of the various positional isomers display a profile of decreasing polarity as one penetrates further into the interior of the membrane. No marked differences are observed between the effective polarities in the intact membranes and in bilayers of the extracted membrane lipids. The previously observed temperature-induced structural change occurring in the membranes at approx. 35°C was found also in the extracted lipid bilayers, showing this to be a result of lipid-lipid interactions and not lipid-protein interactions in the membrane. A steroid spin label indicated a second temperature-dependent structural change occurring in the lipid bilayers at lower temperatures. This corresponds to the onset of a more rapid rotation about the long axis of the lipid molecules at a temperature of approx. 10°C. The lipid bilayer regions probed by the spin labels used in this study may be involved in the fusion of the chromaffin granule membrane leading to hormone release by exocytosis.