Modulation of lyso-platelet activating factor:acetyl-CoA acetyltransferase from rat splenic microsomes. The role of cyclic AMP-dependent protein kinase

Incubation of rat splenic microsomes with the catalytic subunit of cyclic AMP-dependent protein kinase in the presence of Mg-ATP stimulated 2-3-fold lyso-platelet-activating factor:acetyltransferase activity. This activation was due to an increase in the $\text{V}{}_{\mathrm{<mtext>max</mtext>}}$ of the acetylation reaction, whereas the $\text{K}{}_{\mathrm{<mtext>m</mtext>}}$ for acetyl-CoA was not affected. The ATP derivative, AMPPNP, could not replace ATP and preincubation of the microsomes with the heat-stable inhibitor of protein kinase prevented the activation by Mg-ATP obtained in the presence of the protein kinase. Activation of the acetylation reaction by the protein kinase was reversible. Evidence is provided that the reversal of activation is due to dephosphorylation of the enzyme. These data provide evidence that in vitro lyso-platelet-activating factor:acetyltransferase from splenic microsomes is regulated by phosphorylation.     

Modulation of lyso-platelet-activating factor: acetyl-CoA acetyltransferase from rat splenic microsomes. The role of calcium ions

The enzyme lyso-platelet-activating factor: acetyl-CoA acetyltransferase (EC 2.3.1.67) was assayed in microsomal fractions from rat spleens. The addition of micromolar Ca2+ rapidly enhanced acetyltransferase activity and this activation was reversed by the addition of EGTA in excess of Ca2+. The effect of Ca2+ was on the apparent Km of the enzyme for the substrate acetyl-CoA without showing any significant effect on the Vmax of the acetylation reaction. When microsomes were isolated in the presence of 5 mM EGTA, to remove endogenous calmodulin, the same enhancing effect of Ca2+ on the acetylation reaction was observed. The addition of exogenous calmodulin to this preparation had no effect on the enzyme activity. Preincubation of spleen microsomes with the calmodulin inhibitor trifluoperazine decreased acetyltransferase in both the presence and the absence of Ca2+, indicating an effect of this drug independently of calmodulin. The addition of Mg-ATP to the assay mixture also had no effect on the acetylation reaction. These data suggest that Ca2+ modulates acetyltransferase activity from rat spleen microsomes by a mechanism that seems to be independent of calmodulin or protein phosphorylation.     

Purification of protein synthesis initiation factor eIF-3 from rat liver microsomes by affinity chromatography on rRNA-cellulose

An efficient four-step procedure is described for preparing highly purified polypeptide chain initiation factor eIF-3 from rat liver microsomal saltwash. The method involves fractionation with ammonium sulfate between 25–40% saturation (0°C) followed by affinity chromatography on rRNA-cellulose, DEAE-cellulose chromatography and sucrose density gradient centrifugation. eIF-3 is eluted from the affinity column at a KCl concentration of 0.18 M. The purification is 10-times and the recovery of activity better than 85%. In the sucrose gradients, eIF-3 sediments as a 15 S particle indicating a total mass of 650 000 Da. The purified eIF-3 is highly active in stimulating globin synthesis in a fractionated translation system. Factor eIF-3 contains eight subunits with molecular weights ranging from 40 000 to 110 000. Seven of the subunits are present in one copy per eIF-3, whereas the factor contains two copies of one subunit. The isoelectric points of the factor subunits range from 5.5 to 7.3 with most of the polypeptides being acidic.     

The sidedness of carnitine acetyltransferase and carnitine octanoyltransferase of rat liver endoplasmic reticulum

The location of carnitine acetyltransferase and carnitine octanoyltransferase on the inner and outer surfaces of rat liver microsomes was investigated. Latency of mannose-6-phosphate phosphatase showed that the microsomes were 90–94% sealed. All of the octanoyltransferase is associated with the cytosolic face, while the acetyltransferase is distributed between the cytosolic face (68–73%) and the lumen face (27–32%) of the endoplasmic reticulum membrane. Small amounts of trypsin inhibit the carnitine octanoyltransferase equally in either sealed or permeable microsomes but the acetyltransferase of sealed microsomes is stimulated. Large amounts of trypsin inhibit all transferase activities by about 60%, except for acetyltransferase of sealed microsomes. Other studies show that 0.1% Triton X-100 partially inhibits carnitine octanoyltransferase of microsomes but does not inhibit the acetyltransferase or any of the mitochondrial carnitine acyltransferase.     

Cross-linking studies of the protein topography of rat liver microsomes

A cleavable cross-linking reagent, dithiobis(succinimidyl propionate), DSP, was used to study the topography of the proteins in the endoplasmic reticulum membrane of rat liver. Reaction of untreated (control), phenobarbital- or 3-methylcholanthrene-induced microsomes with 0.5 mM DSP for 30 min at 0°C resulted in the cross-linking of a protein with a molecular weight of about 52 000 to form an apparent dimer. In phenobarbital microsomes, a smaller amount of a 52 000-dalton protein also appeared in a dimer in the absence of DSP if N-ethylmaleimide was not included during homogenization. In phenobarbital and 3-methylcholanthrene microsomes, a 48 000-dalton protein was cross-linked by DSP to a protein of about 57 000. In all three types of microsomes, a protein with an M_I of about 52 000 was also cross-linked to a protein of about 79 000. In phenobarbital and control microsomes, cross-linking resulted in an oligomeric protein of approximate molecular weight 180 000 which contained three proteins, two with M_r of about 52 000 and one about 79 000. Under the cross-linking conditions, little or no denaturation of cytochrome P-450 and NADPH-cytochrome c reductase was observed. The aryl hydrocarbon hydroxylase activity was significantly inhibited by the bifunctional cross-linking reagent, DSP, but not by the monofunctional reagent N-succinimidyl-3-(4-hydroxyphenyl) propionate. However, attempts to regenerate the aryl hydrocarbon hydroxylase activity by cleavage of the disulfide linkage with 2-mercapto-ethanol or dithiothreitol were not successful.     

Biosynthesis of platelet activating factor. Substrate specificity of 1-alkyl-2-lyso-sn-glycero-3-phosphocholine:acetyl-CoA acetyltransferase in rat spleen microsomes

The substrate requirements and specificity of 1-alkyl-2-lyso-sn-glycero-3-phosphocholine (alkyllyso-GPC):acetyl-CoA acetyltransferase were investigated. The following findings were observed. 1) When the ether bond of alkyllyso-GPC is substituted with an ester linkage, the resulting compound, palmitoyllyso-GPC, can serve as a substrate, albeit at a reduced rate (50%). In addition, palmitoyllyso-GPC is a competitive inhibitor in the reaction with respect to concentration dependence of alkyllyso-GPC and a noncompetitive inhibitor when the concentrations of acetyl-CoA are varied. 2) Octadecyllyso-GPC is acetylated at a slightly higher rate than hexadecyllyso-GPC and unsaturated alkyllyso-GPC is a preferable substrate to its saturated counterpart. 3) The homologous series of short chain acyl-CoAs demonstrate an inverse relationship of chain length with the values of their apparent Km and Vmax, e.g. the longer the acyl-CoA chain, the smaller the values of Vmax and apparent Km. 4) The effect of polar head group modification of alkyllyso-GPC on the acetyltransferase activity is related to the degree of methylation of the amine group. The choline base analog gives the highest enzyme activity and the ethanolamine derivative is the least active, while N', N'-dimethylethanolamine and monomethylethanolamine analogs are the substrates with intermediate activities. These results on substrate selectivity of acetyltransferase correlate with the known structural requirements essential for the biological activities elicited by platelet activating factor and thus suggest that the acetyltransferase activating factor and thus suggest that the acetyltransferase may be important in governing the chemical structure of platelet activating factor synthesized in vivo.     

Glucocorticoid regulation of two serine hydrolases in rat splenic lymphocytes in vitro

A quantitative assay employing binding of [³H]diisopropylfluorophosphate ([³H]DFP) and SDS-polyacrylamide gel electrophoresis was used to measure serine hydrolases in cell-free extracts from rat splenic lymphocytes. After labeling with [³H]DFP at pH 7, six major serine hydrolases are detected on 10% gels, having molecular weights of 78, 55, 34, 30, 28 and 17 (· 10^?3). When labeled at pH 4, only four activities are measured, with M_r or 79, 55, 33 and 17 (· 10^?3). Incubation of splenic lymphocytes for 8 h in vitro with 1 μM dexamethasone followed by [³H]DFP labeling at pH 7 produces a 91% increase in the 17000 [³H]DFP. Hormone treatment for 8 h with subsequent labeling at pH 4 results in a 15% increase in the largest (78000) species, as well as 73% increase in the 17000 enzyme, compared with lysates from cells incubated without steroid. These effects are not observed after only 4 h of glucocorticoid exposure. Dexamethasone treatment for 8 h does not produce a decrease in any of these serine hydrolases, nor is there an apparent induction of new enzymes (i.e., having a molecular weight different from the preexisting species). Studies examining the effect of protease inhibitors on the [³H]DFP capacity of these proteins, show that the 17000 enzyme is sensitive to the protease inhibitor, pepstatin A, as well as the sulfhydryl reagents dithiothreitol and N-ethylmaleimide. These result suggest that this dexamethasone-responsive enzyme is a protease which requires a free thiol group for optimal activity. These findings are discussed with regard to the mechanism of glucocorticoid action in lymphocytes.     

Compartmentation of membrane phosphatidylethanolamine formed by base-exchange reaction in rat brain microsomes

The compartmentation of membrane phosphatidylethanolamine (PE) formed by base-exchange reaction in rat brain microsomal vesicles has been investigated. After labelling membrane PE by base-exchange in vitro, microsomal vesicles were treated with trinitrobenzenesulfonic acid (TNBS). The amount of membrane PE reacting with TNBS depends on the duration and the temperature of the reaction as well as on the TNBS concentration. It was found that almost all of the labelled PE molecules, but only about 24% of membrane PE, were accessible to TNBS, under very mild reaction conditions. It is concluded that PE labelled by base-exchange is completely localized in the cytoplasmic leaflet of microsomal vesicles.     

Regulation of platelet activating factor synthesis: modulation of 1-alkyl-2-lyso-sn-glycero-3-phosphocholine:acetyl-CoA acetyltransferase by phosphorylation and dephosphorylation in rat spleen microsomes

1-Alkyl-2-lyso-sn-glycero-3-phosphocholine:acetyl-CoA acetyltransferase plays an important regulatory role in the biosynthesis of platelet activating factor, a potent bioactive mediator. We tested the hypothesis that the activity of acetyltransferase may be modulated by enzymatic phosphorylation and dephosphorylation. The results showed that acetyltransferase activity in rat spleens was 2- to 3-fold higher in microsomes isolated in the presence of F-than in those isolated in the presence of Cl-. The microsomal acetyltransferase could be activated by preincubation of microsomes, isolated in the presence of Cl-, with ATP, Mg2+, and the soluble fraction from rat spleen. Addition of phosphatidylserine, diacylglycerols, plus Ca2+ further enhanced the activity. The increase in the activity of acetyltransferase was abolished by treatment of the activated microsomes with alkaline phosphatase. Conversely, the activity of acetyltransferase can be reactivated in the alkaline phosphatase-treated microsomes with incubation conditions that favor phosphorylation. Therefore, our findings suggest that acetyltransferase activity is regulated by reversible activation/inactivation through phosphorylation/dephosphorylation.     

5′-Iodothyronine deiodinase of rat liver: activity in microsomes prepared by various methods,solubilization by detergents and partial purification

Iodothyronine deiodinase activities of rat liver microsomes prepared by (1) differential centrifugation, (2) column chromatography, (3) precipitation with Ca²⁺, (4) precipitation at low pH, or combinations of these were compared. Method 2 or 2 followed by 4 provided microsomes with specific activities 4.6- and 7.4-times higher than method 1, respectively. Both Triton X-100 at 0.1% (w/v) and 3-[(3-cholamidopropyl)dimethylamonio]-1-propane sulfonate (Chaps) at 4–6 mM efficiently solubilized deiodinase and were not inhibitory at low concentrations. The Chaps-soluble enzyme could be moderately purified by fractionation with ammonium sulfate but more effectively with poly(ethylene glycol).     

Secretion from rat basophilic leukaemia cells induced by calcium ionophores Effect of pH and metabolic inhibition

Previous experiments on the functional properties of rat basophilic leukaemia cells showed a major anomaly when compared to normal mast cells: though IgE-mediated secretion was dependent on external Ca²⁺ with both types of cells, substantial non-cytotoxic release with ionophore A23187 could be demonstrated with the normal cells but not with the tumour cells. We now show that when the pH of the incubation medium is increased to 8 it is possible to obtain excellent Ca-dependent, non-cytotoxic secretion from tumour basophils with the ionophores A23187 and ionomycin. These results provide further evidence that secretion from the tumour cells occurs via a mechanism similar to that used by normal mast cells and basophils. Experiments with metabolically inhibited tumour cells suggest that their unusual sensitivity to the cytotoxic effects of Ca²⁺ ionophores may be related to their ability to sequester intracellular calcium. Changes in the conditions of cell culture appeared to produce substantial and at least partially reversible changes in responsiveness to IgE-mediated triggering and ionophores.     

Platelet activating factor (PAF-acether) is released into rat pulmonary alveolar fluid as a consequence of hypoxia

Hypoxia provokes pulmonary constriction and because PAF-acether is a very strong pulmonary constrictor, we looked for PAF-acether in lung alveolar lavage (LAL) with a biological method based on the measurement of rabbit platelet aggregation. We first demonstrated a PAF-acether secretion during bronchoalveolar lavage with sterile isotonic NaCl (pH 7.2). PAF-acether secretion was completely suppressed with isotonic NaCl containing 5 mM EDTA but lyso-PAF-acether was still present (1.9 +/- 0.55 nmoles). Upon hypobaric hypoxia, PAF-acether was detected in LAL (1.05 +/- 0.25 10(-2)nmoles). The amount of lyso-PAF-acether increased by 6 times (12.1 +/- 4.1 nmoles). These results are given for 10(4) nmoles phospholipids of LAL. They indicate that alveolar macrophages might be activated by hypobaric hypoxia, so they produce PAF-acether in the alveole. Such a process could be involved in the well-known bronchoconstriction accompanying hypoxia.     

Modulation of acetyl-CoA:1-alkyl-2-lyso-sn-glycero-3-phosphocholine (lyso-PAF) acetyltransferase in human polymorphonuclears. The role of cyclic AMP-dependent and phospholipid sensitive, calcium-dependent protein kinases

In order to characterize the mechanism of activation of the enzyme 1-O-alkyl-2-lyso-sn-glycero-3-phosphocholine:acetyl-CoA acetyltransferase (EC 2.3.1.67) which is the limiting step in the regulation of the synthesis of the potent inflammatory mediator 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine; homogenates from human polymorphonuclear leukocytes were incubated in the presence of the catalytic subunit of cyclic AMP-dependent protein kinase and in the presence of a partially purified phospholipid sensitive, calcium-dependent protein kinase (PrKC). The first kinase was found to enhance up to 3-fold acetyltransferase activity in a dose- and time-dependent manner. In homogenates from PMN previously stimulated with complement-coated zymosan particles, the decay of acetyltransferase activity was partially prevented by the addition of soybean trypsin inhibitor and almost completely inhibited when the homogenates were supplemented with inhibitors of alkaline phosphatase such as 50 mM KF and 100 microM paranitrophenylphosphate. Under these conditions it was possible to initiate the decay of acetyltransferase activity by adding an excess of alkaline phosphatase. Preincubation of PMN with 12-O-tetradecanoylphorbol-13-acetate previous or simultaneously to the addition of ionophore A23187 reduced the increase in acetyltransferase produced by ionophore A23187, whereas the generation of superoxide anions was enhanced. Addition of partially purified PrKC to homogenates from ionophore A23187-stimulated PMN, reduced acetyltransferase activity by 63%, whereas only a 16% inhibition was observed on homogenates from resting PMN. These data indicate the modulation of acetyltransferase activity in human polymorphonuclear leukocytes by a phosphorylation-dephosphorylation mechanism linked to cyclic AMP-dependent protein kinase. Phospholipid sensitive, calcium-dependent protein kinase seems not to be involved in the mechanism of activation, but, most probably, in the generation of negative activation signals.     

The role of glucose,pyruvate and lactate in ATP production by rat spermatocytes and spermatids

The ATP content of pachytene spermatocytes and round spermatids, isolated from rat testes, was not maintained during incubation of the germ cells in the presence of glucose. Glucose was metabolized via glycolysis at a considerable rate, but the rate of oxidation of the resulting endogenous pyruvate in the mitochondria was too low to support fully ATP production. Exogenous pyruvate (0.25 mM) or exogenous l-lactate (3–6 mM), however, were effective energy substrates. The lactate dehydrogenase reaction in isolated germ cells favoured the rapid conversion of pyruvate to lactate, at the expense of reducing equivalents from mitochondrial NADH. Hence, to support ATP production by the germ cells via mitochondrial metabolism of endogenous pyruvate, a relatively high concentration of exogenous lactate may be essential. In the spermatogenic microenvironment in vivo, such high concentrations of lactate could result from the net production of lactate by Sertoli cells. The mitochondria of the isolated germ cells produced ATP probably at a close to maximal rate, and spermatogenesis therefore may be extremely sensitive to compounds which interfere with mitochondrial energy metabolism and respiratory control.     

The role of calcium ions in phytochrome-mediated germination of spores of Onoclea sensibilis L.

Phytochrome is confirmed to be the photoreceptor pigment in the germination response of Onoclea sensibilis L. by demonstrating red-far-red (R-FR) photoreversibility. External Ca²⁺ is required for this response with a threshold at a submicromolar concentration. Ethylene glycol-bis(-amino-ethyl ether)-N,N,N,N-tetraacetic acid, La³⁺ and Co²⁺ reversibly inhibit germination. Lanthanum only inhibits germination when applied before or during irradiation, indicating that the external Ca²⁺ requirement is transient, although in the absence of Ca²⁺ the R-stimulated system remains maximally poised to accept the ion for over 4 h after irradiation. The ability to respond to Ca²⁺ 4.1 h after R-irradiation is not reversed by FR-irradiation, indicating that Ca²⁺ transport has been uncoupled from phytochrome. Barium and Sr²⁺, but not Mg²⁺ can substitute for Ca²⁺. Artificially increasing the concentration of intracellular free Ca²⁺ with the ionophore A 23187 stimulates germination in the dark. The Ca²⁺-calmodulin antagonists, trifluoperizine and chlorpromazine, reversibly inhibit germination. Calcium is required in phytochrome-mediated fern spore germination; it may be acting as a second messenger.Abbreviations EGTA ethylene glycol-bis(-aminoethyl ether)-N,N,N,N-tetraacetic acid - FR far-red light - R fed light     

Fate of intraocular chromaffin cell suspensions: role of initial nerve growth factor support

Summary Adrenal medullary tissue from adult rats was dissociated into cell suspensions and injected into the anterior chamber of the eye, where the cells were made to attach to the previously sympathectomized irides with the use of fibronectin. Short- and long-term survival of the chromaffin cells was examined in whole mounts of irides using Falck-Hillarp fluorescence histochemistry or indirect immunohistochemistry with antibodies against adrenaline and dopamine--hydroxylase (DBH). After 6 days in oculo all cells were immunoreactive for adrenaline; almost none displayed processes even if -nerve growth factor (NGF) was given at grafting. One month after weekly intraocular injections of NGF, many cells were surrounded by nerve fiber net-works and all cells were DBH-immunoreactive. Eight months postgrafting and 7 months after the last injection of NGF almost the entire iris was reinnervated and resembled a normal, sympathetically innervated iris. Both at 1 and 8 months, chromaffin cells, ganglion cells and transitional cell forms (chromaffin cells transforming towards ganglion-like cells) were found in irides from the NGF-treated eyes. The number of ganglion cells was remarkably increased with time by NGF, while the number of chromaffin cells decreased compared to controls. A single treatment with NGF at grafting had no marked effects as examined up to 3 months; at this time there was a certain outgrowth of nerve terminals, which, however, was not as pronounced as 1 month after repeated NGF injections. In conclusion, it is shown that some cells in a chromaffin cell suspension attach to the iris, transform to ganglion cells after an induction with exogenous NGF, and reinnervate the sympathically denervated iris. Such cells remain ganglion-like in character and continue to form processes even after cessation of exogenous NGF treatment.     

Metabolism of nitroxide spin labels in subcellular fraction of rat liver: I. Reduction by microsomes

As part of an ongoing study of the role of subcellular fractions on the metabolism of nitroxides, we studied the metabolism of a set of seven nitroxides in microsomes obtained from rat liver. The nitroxides were chosen to provide information on the effects of the type of charge, lipophilicity and the ring on which the nitroxide group is locted Important variables that were studied included adding NADH, adding, induction of enzymed by intake of phenobarbital and the effects of oxygen. Reduction of nonparamagnetic derivatives and oxidation to paramagnetic derivatives were measured by electron-spin resonance spectroscopy. In general, the relative rates of reduction of nitroxides were similar to those observed with intact cells, but the effects of the various variables that were studied often differed from those observed in intact cells. The rates of reduction were very slow in the absence of added NADh or NADPH. The relative effect of these two nucleotides changed when animals were fed phenobarbital and paralleled the levels of NADPH cytochrome c reductase, cytochrome P-450, cytochrome b₅ and NADH cytochrome c reductase; results with purified NADPH-cytochrome c reductase were consistent with these results. In microsomes from uninduced animals the rate of reduction was about 10-fold higher in the absence of oxygen. The products of reduction of nitroxides by microsomes were the corresponding hydroxylmines. We conclude that there are significant NADH- and NADPH-dependent paths for reduction of nitroxides by hepatic microsomes, probably involving cytochrome c reductases and not directly involving cytochrome P-450. From this, and from parallel studies now in progress in our laboratory, it seems likely that metabolism by microsomes is an important site of reduction of nitroxides. However, mitochondrial metabolism seems to play an even more important role in intact cells.     

l-2-Hydroxyglutarate dehydrogenase: identification of a novel enzyme activity in rat and human liver. Implications for l-2-hydroxyglutaric acidemia

In this paper we studied the degradation of l-2-hydroxyglutarate in tissues from rat and man in order to try and find the underlying basis for the accumulation of this metabolite in l-2-hydroxyglutaric patients. The results show that l-2-hydroxyglutarate is not degraded by an oxidase but via a dehydrogenase which was found to be present in liver only. This newly identified enzyme activity was characterized kinetically, although the nature of the reaction product remains to be identified.     

Glycans of synaptosomal plasma membrane glycoproteins from adult rat forebrain: Characterization after fractionation by concanavalin A-Sepharose affinity chromatography

Glycopeptides obtained by exhaustive proteolytic digestion of synaptosomal plasma membranes from adult rat forebraini were separated by affinity chromatography on concanavalin A-Sepharoe. Concanavalin A-binding glycopeptides are essentially made up of mannose and N-acetylglucosamine in a molar ration of 3.45:1, whereas glycopeptides not bound to concanavalin A have a complex monosaccharide composition. By gel filtration on Bio-Gel P-30, concanavalin A-binding glycopeptides appear as low-molecular-weight glycopeptides (migrating like ovalbumin glycopeptides), whereas glycopeptides not bound to concanavalin A behave as high-molecular-weight glycopeptides (migrating like fetuin glycopeptides). Comparison of concanavalin A-binding glycopeptides from rat brain synaptosomal plasma membranes with concanavalin A-binding glycoproteins isolated from the same membrane fraction shows clear differences in monosccharide composition. We demonstrate here that this discrepancy is due to the presence on most concanavalin A-binding glycoprotein subunits of at least two different types of glycan: in addition to the concanavalin A-binding glycans, these glycoprotein subunits carry other glycans which do not interact with concanavalin A. Biological implications of the presence of two (or more) types of glycan on the same polypeptide are discussed.