Modulation of the activity of 5′-nucleotidase by the transfer of non-esterified cholesterol to rat-liver microsomal fraction and evidence for regulation of the concentration of non-esterified cholesterol in plasma membranes in vivo

The transfer of non-esterified cholesterol to rat-liver microsomal fraction resulted in a considerable decrease in the activity of 5′-nucleotidase and in changes in the characteristics of the Arrhenius plots of the enzyme. The decrease in the activity of 5′-nucleotidase and the increase in the concentration of non-esterified cholesterol in the serum-treated preparations were serum-concentration-dependent and incubation-time-dependent. The enzyme in serum-treated preparations with high non-esterified cholesterol content showed Arrhenius plots with a constant activation energy between 37 and 19°C, whereas the enzyme in the non-treated microsomal fraction or the lipoprotein-deficient serum-treated preparations showed a break at about 28°C, with activation energies higher below and lower above the break. These changes in the temperature-induced kinetics are consistent with an increase in the concentration of non-esterified cholesterol in the plasma membrane vesicles of the serum-treated preparations. The Arrhenius plots of 5′-nucleotidase in liver microsomal fraction from rats fed cholesterol-supplemented diet showed constant activation energy between 37 and 19°C and had similar characteristics with the plots for 5′-nucleotidase in serum-treated preparations. Since the changes in the characteristics of Arrhenius plots of the enzyme in microsomal fraction from rats that had been denied food for 36 h were in the opposite direction to those produced by feeding cholesterol, these results are consistent with a lower concentration of non-esterified cholesterol in hepatic plasma membranes from fasted rats relative to that in plasma membranes from fed rats. The isolation of a plasma membrane preparation with negligible contamination of endoplasmic reticular membranes from rats fed the standard or cholesterol-supplemented diet and from fasted rats showed that the ratio of cholesterol to phospholipid has increased in the preparation from rats fed cholesterol and decreased in that from rats that had been denied food relative to the ratio in the preparation from rats fed the standard diet. The Arrhenius plots of 5′-nucleotidase in these preparations showed characteristics similar to the corresponding plots of the enzyme in the microsomal fraction from the rats in the three experimental conditions.     

The role of plasma membranes in the transfer of non-esterified cholesterol to the acyl-CoA: Cholesterol acyltransferase substrate pool in liver microsomal fraction

The incubation at 37°C of rat-liver microsomal fraction followed by re-isolation of the treated microsomal vesicles results in a time-dependent increase in the activity of acyl-CoA: cholesterol acyltransferase. The rate of this increase was higher in the microsomal fraction from rats fed cholesterol-supplemented diet or starved overnight as compared with that in the microsomal fraction from rats fed standard diet. The presence of a plasma membrane preparation in the incubation mixture also resulted in a time-dependent increase in acyl-CoA: cholesterol acyltransferase activity at a rate that was dependent on the concentration of plasma membranes. During the incubation of the microsomal fraction in the presence of phosphatidylcholine liposomes, cholesterol is transferred from the microsomal to liposomal vesicles. This transfer followed first-order kinetics with respect to cholesterol concentration in the donor with a rate that increased with the concentration of liposomes in the incubation mixture. The presence of phospholipid was also associated with a decrease in the activity of the acyltransferase that was related to the concentration of phospholipid in the incubation mixture. The incubation of the microsomal fraction in the presence of phosphatidylcholine-cholesterol liposomes resulted in a time-dependent and concentration-dependent transfer of liposomal cholesterol to the microsomal fraction and the acyltransferase substrate pool. The measurement of the rate of transfer of liposomal cholesterol to the microsomal vesicles and to the acyltransferase substrate pool at various temperatures showed that activation energies for the two processes are similar. Similar to these values was also the activation energy for the increase in acyl-CoA: cholesterol acyltransferase activity due to preincubation in the absence of artificial membrane vesicles. The present results suggest that there is, under the present conditions, a time-dependent and temperature-dependent flow of cholesterol from plasma membranes to the acyltransferase substrate pool and that this flow is either diverted in the presence of phospholipid liposomes or increased in the presence of cholesterol-phospholipid liposomes.     

Redox-dependent activation of 5'-nucleotidase in rat liver plasma membranes

Addition of NADH, but not NAD+ or NADPH, to rat liver plasma membranes resulted in the increase of their 5'-nucleotidase activity. NADH-dependent activation of 5'-nucleotidase was significantly suppressed by atebrine, an inhibitor of NADH dehydrogenase of plasma membranes, and completely abolished by 2,4-dinitrophenol (2 X 10(-4)M) and Triton X-100 (2%). Inhibitors of electron transfer in the mitochondrial respiratory chain, rotenone and potassium cyanide, failed to affect 5'-nucleotidase activity in both the presence and absence of NADH. The data obtained give reasons to suggest a redox-dependent mechanism of 5'-nucleotidase activation in rat liver plasma membranes.     

Purification and properties of 5'-nucleotidase from lymphocyte plasma membranes.

5'-Nucleotidase is purified from lymphocyte plasma membranes by two affinity chromatographies. The first one, on Lens culinaris lectin-Sepharose 4B yields a fraction of twelve lectin-binding glycoproteins (lectin-receptor fraction). The second one on 5'-AMP-Sepharose 4B leads to pure enzyme. This enzyme is a glycoprotein with a molecular weight of 130 000; it gives a single band in polyacrylamide/dodecylsulfate electrophoresis and displays a very high specific activity (2500-3000 mumol Pih-1mg-1). Some properties of purified 5'-nucleotidase are similar to those of membrane-bound enzyme: substrate specificity, temperature dependence, effects of ions and SH-blocking reagents. Others are completely different for the two systems and these differences result from an interaction between the enzyme molecule and other Lens culinaris lectin binding proteins.     

5-Hydroxytryptamine metabolism by the nuclear fraction of rat-liver homogenate

1. The metabolism of 5-hydroxy[1′-¹⁴C]tryptamine creatinine sulphate in the nuclear fraction of rat-liver homogenate was studied. In the incubation mixture five metabolites were found. 2. Two metabolites were not radioactive; one of them was identified as 5-hydroxyindole-3-carboxylic acid and the second tentatively as 5-hydroxyindole-3-aldehyde. 3. 5-Hydroxyindol-3-ylacetic acid, 1′-N-acetyl-5-hydroxytryptamine and 5-hydroxytryptophol were not precursors of 5-hydroxyindolealdehyde and 5-hydroxyindolecarboxylic acid. 4. It was shown that the metabolism of 5-hydroxytryptamine in the nuclear fraction involves monoamine oxidase, the precursor of 5-hydroxyindolealdehyde and 5-hydroxyindolecarboxylic acid being most probably 5-hydroxyindol-3-ylacetaldehyde.     

Facilitated transfer of cholesteryl ester between rough and smooth microsomal membranes by plasma lipid transfer protein

The accessibility of intracellular membrane cholesteryl esters to removal was tested with plasma lipid transfer protein as a tool. Incubation of a mixture of non-radioactive smooth microsomes + rough microsomes prelabeled with cholesteryl ester resulted in slight movement (2-4%) of radioactive cholesteryl ester into smooth microsomes. With the addition of increasing amounts of plasma lipid transfer protein to the mixture, the % transfer of cholesteryl ester into smooth microsomes progressively increased until a plateau was reached at 14%. Movement of cholesteryl ester in the reverse direction was examined with non-radioactive rough microsomes as an acceptor and smooth microsomes prelabeled with cholesteryl ester as a donor. The pattern of the % cholesteryl ester transferred in the reverse and forward direction was almost identical in the presence of plasma lipid transfer protein, showing bidirectional movement of cholesteryl ester between membranes.     

Modulation of phospholipase A2 activity in zymogen granule membranes by GTP[S]; evidence for GTP-binding protein regulation

In membranes associated with purified pancreatic zymogen granules, GTP[S] elicited a concentration-dependent activation of phospholipase A2 (PLA2), which was converted to inhibition in the presence of added Ca2+. The GTP-binding protein inhibitor GDP[S] blocked both the stimulatory and inhibitory actions of GTP[S]. We conclude that in zymogen granule membranes GTP-binding proteins exert a dual regulation of PLA2 activity.     

Sensitivity of 5'-nucleotidase and phospholipase A2 towards liver plasma membranes modifications

The changes in the phospholipid and fatty acid composition of liver plasma membranes isolated from rats, fed two different diets, containing either saturated or unsaturated fatty acids, were investigated. We established that dietary treatment can considerably modify the fatty acid as well as the phospholipid composition of liver plasma membranes. Lipid transfer proteins were used for enrichment of liver plasma membranes with sphingomyelin, dioleoylphosphatidylcholine, dipalmitoylphosphatidylcholine, and phosphatidylinositol. A marked sphingomyelin and membrane fluidity dependence of the membrane-bound 5'-nucleotidase and phospholipase A2 was observed.     

Biogenesis of microsomal membrane glycoproteins in rat liver. III. Release of glycoproteins from the Golgi fraction and their transfer to microsomal membranes

The presence in the Golgi fraction of glycoproteins destined to be incorporated into the microsomal membrane was investigated. When incubated in sucrose, washed Golgi vesicles released four major, weakly acidic glycoproteins, some of which could be incorporated into microsomal membranes by incubation. Double labeling with [3H]glucosamine and [14C]leucine demonstrated the incorporation of both protein and oligosaccharide moieties, and the main peak of radioactivity was associated with the 70,000 mol wt region after SDS-gel electrophoresis. The proteins that could be incorporated into microsomes were probably associated to a large extent with the outer surface of the Golgi membrane. Centrifugation of the proteins released from the Golgi in a KBr solution (p = 1.24) resulted in a separation of glycoproteins, those in the top layer most actively incorporated into microsomes. The lipoglycoproteins in the top layer that could be incorporated appeared in the 70,000 mol wt region after SDS-gel electrophoresis, as did the corresponding proteins isolated from the supernate. These results suggest that glycoproteins with completed oligosaccharide chains are released from the Golgi system to the cytosol and are subsequently transferred to microsomes as constitutive membrane components.     

Modulation of gamma-glutamyltranspeptidase activity in rat liver plasma membranes by thyroid hormone

1. In adult male and female rats, liver plasma membrane gamma-glutamyltranspeptidase activities were 16-fold higher in the propylthiouracil (PTU)-induced hypothyroid state than in the control euthyroid state; thyroxine (T4)-replacement resulted in an 80% restoration to control levels. 2. Liver plasma membrane gamma-glutamyltranspeptidase activities were 6.7-fold higher in PTU-induced congenitally hypothyroid rats than in control euthyroid rats; T4-replacement reduced enzyme activities to 37% of control levels. 3. In adult rats, in response to the development and recovery from tri-iodothyronine (T3) excess, liver plasma membrane gamma-glutamyltranspeptidase activities were inversely related to, and out of phase by 12 hr, to the earlier changes in T3. 4. Liver gamma-glutamyltranspeptidase is a thyroid hormone-dependent enzyme.     

Role of microviscosity of the lipid phase of microsomal membranes in regulation of enzymatic activity of glucose-6-phosphatase under microsomal modifications in vivo and in vitro

The changes in microviscosity of the lipid phase of microsomal membranes under microsomal modification in vivo and in vitro were studied. It was shown that in intact microsome lipids there occur five thermo-induced structural transitions within the temperature range of 5--50 degrees. Delipidation of microsomes results in a shift in structural transitions temperature. Based on the literary and own data it was assumed that the breaks on the Arrhenius plots for glucose-6-phosphatase (EC 3.1.3.9) activity are due to phase-structural changes of microsomal lipids.     

Ecto-5'-nucleotidase activity in brain membranes of zebrafish (Danio rerio)

Adenosine, a well-known neuromodulator, may be formed intracellularly in the CNS from degradation of AMP and then exit via bi-directional nucleoside transporters, or extracellularly by the metabolism of released nucleotides. This study reports the enzymatic properties of an ecto-5'-nucleotidase activity in brain membranes of zebrafish (Danio rerio). This enzyme was cation-dependent, with a maximal rate for AMP hydrolysis in a pH range of 7.0-7.5 in the presence of Mg(2+). The enzyme presented a maximal activity for AMP hydrolysis at 37 degrees C. The apparent K(m) and V(max) values for Mg(2+)-AMP were 135.3+/-16 microM and 29+/-4.2 nmol Pi.min(-1).mg(-1) protein, respectively. The enzyme was able to hydrolyze both purine and pyrimidine monophosphate nucleotides, such as UMP, GMP and CMP. Levamisole and tetramisole (1 mM), specific inhibitors of alkaline phosphatases, did not alter the enzymatic activity. However, a significant inhibition of AMP hydrolysis (42%) was observed in the presence of 100 microM alpha,beta-methylene-ADP, a known inhibitor of ecto-5'-nucleotidase. Since 5'-nucleotidase represents the major enzyme responsible for the formation of extracellular adenosine, the enzymatic characterization is important to understand its role in purinergic systems and the involvement of adenosine in the regulation of neurotransmitter release.     

Purification of 5'-nucleotidase from human placenta after release from plasma membranes by phosphatidylinositol-specific phospholipase C

5'-Nucleotidase was purified greater than 1000-fold from human placenta by treatment of plasma membranes with S. aureus phosphatidylinositol-specific phospholipase C and affinity chromatography on Con A Sepharose and AMP-Sepharose. The resulting enzyme had a specific activity of greater than 5000 mumol/hr/mg protein and a subunit molecular weight of 73,000. Goat antibodies against 5'-nucleotidase inhibited enzyme activity and detected 5'-nucleotidase after Western blotting. These antibodies also recognized a soluble form of 5'-nucleotidase and residual membrane-bound 5'-nucleotidase which could not be released by phosphatidylinositol-specific phospholipase C treatment, suggesting that the three forms of the enzyme are structurally related. The soluble 5'-nucleotidase may be derived from the membrane-bound form by the action of an endogenous phospholipase C. The structural basis for the inability of some of the membrane-bound 5'-nucleotidase to be released by phosphatidylinositol-specific phospholipase C is unknown.