High mutagenicity and toxicity of a diol epoxide derived from benzo[a]pyrene

(±)-7β,8α-Dihydroxy-9β,10β-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene (BP 7,8-diol-9,10-epoxide) is a suspected metabolite of benzo[a]pyrene that is highly mutagenic and toxic in several strains of $\text{Salmonella}\text{typhimurium}$ and in cultured Chinese hamster V79 cells. BP 7,8-diol-9,10-epoxide was approximately 5, 10 and 40 times more mutagenic than benzo[a]pyrene 4,5-oxide (BP 4,5-oxide) in strains TA 98 and TA 100 of $\text{S.}\text{typhimurium}$ and in V79 cells, respectively. Both compounds were equally mutagenic to strain TA 1538 and non-mutagenic to strain TA 1535 of $\text{S.}\text{typhimurium}$. The diol epoxide was toxic to the four bacterial strains at 0.5–2.0 nmole/plate, whereas BP 4,5-oxide was nontoxic at these concentrations. In V79 cells, the diol epoxide was about 60-fold more cytotoxic than BP 4,5-oxide.     

Hydrogen bonding requirements for the insulin-sensitive sugar transport system of rat adipocytes

(1) The $\text{t}\text{1}\text{2}$ for 1.3 mM D-allose uptake and efflux in insulin-stimulated adipocytes is 1.7 ± 0.1 min. In the absence of insulin mediated uptake of D-allose is virtually eliminated and the uptake rate ($\text{t}\text{1}\text{2}\text{= 75.8 ± 4.99}\text{min}$) is near that calculated for nonmediated transport. The kinetic parameters for D-allose zero-trans uptake in insulin-treated cells are K_zt^oi = 271.3 ± 34.2 mM, V_zt^oi = 1.15 ± 0.12 mM · s^?1. (2) A kinetic analysis of the single-gate transporter (carrier) model interacting with two substrates (or substrate plus inhibitor) is presented. The analysis shows that the heteroexchange rates for two substrates interacting with the transporter are not unique and can be calculated from the kinetic parameters for each sugar acting alone with the transporter. This means that the equations for substrate analogue inhibition of the transport of a low affinity substrate such as D-allose can be simplified. It is shown that for the single gate transporter the K_i for a substrate analogue inhibitor should equal the equilibrium exchange K_m for this analogue. (3) Analogues substituted at C-1 show a fused pyranose ring is accepted by the transporter. 1-Deoxy-D-glucose is transported but has low affinity for the transporter. High affinity can be restored by replacing a fluorine in the β-position at C-1. The K_i for $\text{d}\text{-glucose}\text{= 8.62}\text{mM}$; the K_i for $\text{β-}\text{fluoro-}\text{d}\text{-glucose}\text{= 6.87}\text{mM}$. Replacing the ring oxygen also results in a marked reduction in affinity. The K_i for $\text{5-}\text{thio-}\text{d}\text{-glucose}\text{= 42.1}\text{mM}$. (4) A hydroxyl in the gluco configuration at C-2 is not required as 2-deoxy-d-galactose (K_i = 20.75 mM) has a slightly higher affinity than d-galactose (K_i = 24.49 mM). A hydroxyl in the manno configuration at C-2 interferes with transport as d-talose (K_i = 35.4 mM) has a lower affinity than d-galactose. (5) d-Allose (K_m = 271.3 mM) and 3-deoxy-d-glucose (K_i = 40.31 mM) have low affinity but high affinity is restored by substituting a fluorine in the gluco configuration at C-3. The K_i for $\text{3-}\text{fluoro-}\text{d}\text{-glucose}\text{= 7.97}\text{mM}$. (6) Analogues modified at C-4 and C-6 do not show large losses in affinity. However, 6-deoxy-d-glucose (K_i = 11.08 mM) has lower affinity than d-glucose and 6-deoxy-d-galactose K_i = 33.97 mM) has lower affinity than d-galactose. Fluorine substitution at C-6 of d-galactose restores high affinity. The K_i for $\text{6-}\text{fluoro-}\text{d}\text{-galactose}\text{= 6.67}\text{mM}$. Removal of the C-5 hydroxymethyl group results in a large affinity loss. The K_i$\text{d}\text{-xylose}\text{= 45.5}\text{mM}$. The K_i for $\text{l}\text{-arabinose}\text{= 49.69}\text{mM}$. (7) These results indicate that the important hydrogen bonding positions involved in sugar interaction with the insulin-stimulated adipocytes transporter are the ring oxygen, C-1 and C-3. There may be a weaker hydrogen bond to C-6. Sugar hydroxyls in non-gluco configurations may sterically hinder transport.     

Developmental and other characteristics of lysine uptake by rat brain synaptosomes

Synaptosomes isolated from adult or newborn rat cerebrum take up l-lysine by two saturable systems, one with a high affinity low capacity and the other with a low affinity high capacity. Initial rate of uptake for low lysine concentrations is more rapid in newborn, but for high concentrations the rate is greater in adult tissue. Analysis of kinetic data indicates that synaptosomes of the newborn have a higher $\text{V}{}_{\mathrm{<mtext>max</mtext>}}$ than those of the adult for high affinity system but adult synaptosomes have a higher $\text{V}{}_{\mathrm{<mtext>max</mtext>}}$ than newborn for low affinity system. At a physiological lysine concentration of 0.5 mM, the calculated contributions of two systems indicate that the adult uptake occurs for about 71% by low affinity system but the newborn utilizes both systems to the same extent. The uptake is sodium independent but pH dependent. Lysine uptake is inhibited by other dibasic amino acids, arginine and ornithine but not cystine. Kinetic analysis indicates that arginine specifically inhibits the high affinity, low $\text{K}{}_{\mathrm{<mtext>m</mtext>}}$ system for lysine uptake.     

Studies on glutathione transport utilizing inside-out vesicle prepared from human erythrocytes

Adenosine triphosphate-dependent glutathione transport was characterized using inside-out vesicles made from human erythrocytes. Kinetic analysis of the glutathione disulfide (GSSG) transport showed a biphasic Line-weaver-Burk plot as a function of GSSG concentration suggesting the operation of two different processes. One phase had a high affinity for GSSG and a low transport velocity. Most active at acidic pH and at 25°C, this transport activity was easily lost during the storage of vesicles at 4°C. The $\text{K}{}_{\mathrm{<mtext>m</mtext>}}$ for Mg-ATP was 0.63 mM; guanosine triphosphate (GTP) substituted for ATP gave a 340% stimulation of transport activity. Neither dithiothreitol nor thiol reagents affected this transport process. The other phase had a low affinity for GSSG and a high transport velocity. Most active at pH 7.2 and 37°C, this transport activity was stable during storage of vesicles at 4°C for several days. The $\text{K}{}_{\mathrm{<mtext>m</mtext>}}$ for Mg-ATP was 1.25 mM; GTP substituted with no change in activity. Dithiothreitol increased the V but did not alter the $\text{K}{}_{\mathrm{<mtext>m</mtext>}}$, and thiol reagents inhibited the transport. These findings suggest that there are two independent transfer processes for GSSG in human erythrocytes.     

A 31P-NMR study of some metabolic and functional effects of the inotropic agents epinephrine and ouabain,and the ionophore R02-2985 (X537A) in the isolated,perfused rat heart

1. Some metabolic effects of increased mechanical activity by the Langendorff-perfused rat heart have been characterized using ³¹P-NMR. Mechanical activity was increased by infusion of ouabain (0.9?7.0·10^?5 M), the ionophore R02-2985 (1·10^?5 M) or epinephrine (5·10^?8 M). 2. Similar metabolic changes accompanied infusion of each of the positive inotropic agents into hearts perfused with buffer containing 11 mM glucose as the substrate. In each case phosphocreatine concentrations decreased. During the period of epinephrine infusion the phosphocreatine began to recover its original concentration, although there were no significant changes in mechanical activity. 3. Comparisons of the metabolic changes accompanying the positive inotropic and chronotropic effects of epinephrine were made between hearts perfused with either glucose (11 mM), acetate (5 mM) or lactate (5 mM). A time-dependent decrease in phosphocreatine concentrations also accompanied infusion of epinephrine into hearts perfused with lactate as the sole exogenous substrate, but no statistically significant metabolite changes were observed after identical epinephrine infusions with acetate as the substrate. 4. Calculation of the concentration of free ADP assuming equilibrium in the creatine phosphokinase reaction allows estimation of the cytosolic phosphate potential ($\text{[}\text{ATP}\text{]}\text{[ADP][P}{}_{\mathrm{<mtext>i</mtext>}}\text{]}$), which appears to be dependent on a number of factors, including the nature of the exogenous substrate and the level of mechanical activity. 5. Thus, we conclude that there is no general correlation between the phosphate potential and the mitochondrial respiratory rate in the perfused rat heart.     

Simultaneous liquid chromatographic analysis for carbamazepine and carbamazepine 10,11-epoxide in plasma and saliva by use of double internal standardization

High-performance liquid chromatography (HPLC) was used for simultaneous quantitation of carbamazepine (CBZ) and carbamazepine 10,11-epoxide (CBZ-EP) in plasma and saliva. Because concentrations of CBZ can greatly exceed those of CBZ-EP after single doses, two internal standards, lorazepam and N-desmethyldiazepam were added to all samples. Following extraction with chloroform, the components are separated on a μBondapak CN column with a mobile phase composed of 30% acetonitrile in water. Total chromatography time is 10 min. Concentrations of CBZ and CBZ-EP as low as 18 and 56 ng/ml, respectively, can be detected using 0.5 ml of plasma or saliva. The maximum within-day and day-to-day coefficients of variation for both compounds are 6.3 and 7.0%, respectively. Specificity of the method was supported by a significant correlation (r = 0.99) between assay results of the present method and those of a previously published HPLC assay. Application of the method to protein binding and salivary measurements in a single-dose CBZ disposition study is demonstrated.     

Leukotriene A4: Enzymatic conversion to leukotriene C4

An unstable epoxide, leukotriene A₄ (5(S)-$\text{trans}$-5,6-oxido-7,9-$\text{trans}$-11,14-$\text{cis}$-eicosatetraenoic acid), was earlier proposed to be an intermediate in the conversion of arachidonic acid into the slow reacting substance (SRS), leukotriene C₄. In the present work synthetic leukotriene A₄ was incubated with human leukocytes or murine mastocytoma cells. A lipoxygenase inhibitor, BW755C, was added in order to prevent leukotriene formation from endogenous substrate. Leukotriene C₄ and 11-$\text{trans}$-leukotriene C₄ were the main products with SRS activity. It was not established whether the 11-$\text{trans}$-compound was formed by isomerization at the leukotriene A₄ or C₄ stage.     

Spatial requirements for insulin-sensitive sugar transport in rat adipocytes

(1) Alkyl sugar inhibition of d-allose uptake into adipocytes has been used to explore the spatial requirements of the external sugar transport site in insulin-treated cells. α-methyl and β-methyl glucosides show low affinity indicating very little space around C-1. The high affinity of d-glucosamine (K_i = 9.05 ± 0.66 mM) is lost by N-acetylation. $\text{N-}\text{Acetyl-}\text{d}\text{-glucosamine}$ shows no detectable affinity, indicating that a bulky group at C-2 is not accepted. Similarly $\text{2,3-}\text{di}\text{-O-}\text{methyl-}\text{d}\text{-glucose}$ (K_i = 42.1 ± 7.5 mM) has lower affinity than $\text{3-O-}\text{methyl-}\text{d}\text{-glucose}$ (K_i = 5.14 ± 0.32 mM) indicating very little space around C-2 but much more around C-3. A reduction in affinity does occur if a propyl group is introduced into the C-3 position. The K_i for $\text{3-O-}\text{propyl-}\text{d}\text{-glucose}$ is 11.26 ± 2.12 mM. $\text{6-O-}\text{Methyl-}\text{d}\text{-galactose}$ (K_i = 87.2 ± 17.9 mM) and $\text{6-O-}\text{propyl-}\text{d}\text{-glucose}$ (K_i = 78.07 ± 12.6 mM) show low affinity compared with d-galactose and d-glucose, indicating steric constraints around C-6. High affinity is restored in $\text{6-O-}\text{pentyl-}\text{d}\text{-galactose}$ (K_i = 4.66 ± 0.23 mM) possibly indicating a hydrophobic binding site around C-6). (2) In insulin treated cells $\text{4,6-O-}\text{ethylidene-}\text{d}\text{-glucose}$ (K_i = 6.11 ± 0.5 mM) and maltose (K_i = 23.5 ± 2.1 mM) are well accommodated by the site but trehalose shows no detectable inhibition. These results indicate that the site requires a specific orientation of the sugar as it approaches the transporter from the external solution. C-1 faces the inside while C-4 faces the external solution. (3) To determine the spatial and hydrogen bonding requirements for basal cells 40 μM $\text{3-O-}\text{methyl-}\text{d}\text{-glucose}$ was used as the substrate. Poor hydrogen bonding analogues and analogues with sterically hindering alkyl groups showed similar K_i values to those determined for insulin-treated cells. These results indicate that insulin does not change the specificity of the adipocyte transport system.     

High-performance liquid chromatographic determination of carbamazepine and metabolites in human hair

To study the use of hair analysis in monitoring drug compliance and historical changes in pharmacokinetics we developed a method for the quantitative determination of the anti-epileptic drug carbamazepine (CBZ) and trans-10,11-dihydro-10,11-dihydroxy-carbamazepine (CBZ-diol) in hair from carbamazepine users. Digestion by 1 M NaOH was found to be the best method for isolating CBZ and CBZ-diol from hair, followed by solid-phase extraction and reversed-phase HPLC with UV detection. Recoveries from spiked hair samples were 76–86%. Within-day precision (C.V.; n=10) for CBZ and CBZ-diol in hair of a CBZ user containing 10.9 μg/g CBZ and 3.2 μg/g CBZ-diol were 1.7 and 5.0%, respectively. Sectional hair analysis of a patient on a constant dosage of CBZ demonstrates an exponential decrease in hair concentrations of CBZ and CBZ-diol with increasing distance from the root, probably caused by shampooing. No CBZ-10,11-epoxide (CBZ-epox) could be detected. However, one component in the chromatogram is probably CBZ-β-hydroxythioether, an adduct of CBZ-epox with cysteine, or acridinethioacetal, its rearrangement product. The concentration of this component does not decrease with increasing distance from the root.     

Activation of the β-galactoside transport system in escherichia coli ML-308 by n-alkanols. Modification of lipid-protein interaction by a change in bilayer fluidity

The net rate of transport of $\text{o-}\text{nitrophenyl}\text{-β-}\text{d}\text{-}\text{galactopyranoside}$ by Escherichia coli ML-308 is increased at temperatures below the apparent phase transition of the lipid bilayer in the presence of n-alkanols. The degree of activation produced is determined both by the concentration and chain length of the n-alkanol used. At low concentrations n-alkanols “activate” transport, but do not cause either cell lysis or denaturation of β-galactosidase.Arrhenius plots of the kinetic constants for transport indicate the K_m shows discontinuity with increasing temperature, while the slope for V changes only gradually. The presence of 10.5 mM n-hexanol increases the value of both K_m and V at low temperature. A comparison of these data to those obtained at a single substrate concentration (1.85 mM o-nitrophenyl-β-d-galactopyranoside) suggests the biphasic behavior of Arrhenius plots at that concentration may be attributed to changes in the K_m for the transport process.     

Kinetics and mathematical model of hydrolysis and transglycosylation catalysed by cellobiase

The kinetics of hydrolysis and transglycosylation reactions catalysed by cellobiase (β-d-glucoside glucohydrolase, EC 3.2.1.21) from Aspergillus foetidus in the cellobiose-d-glucose reaction system have been studied. The formation of transglycosylation products was observed at cellobiose concentrations $\text{>10}{}^{\mathrm{?2}}\text{m}$, whereas at lower substrate concentrations the only reaction product was d-glucose. In the cellobiase-catalysed transglycosylation a (1→6)-β-linkage was formed after the transfer of a d-glucose residue to acceptor molecule. The basic transglycosylation products were isocellotriose and gentiobiose. A small amount of oligosaccharides with a higher degree of polymerization was also formed. The maximum content of transglycosylation products amounted to 25–30% of the total saccharide content in the system at the initial cellobiose concentration (0.1–0.3 m). The processes in the reaction system were inhibited by the substrate and product (d-glucose). A general scheme for cellobiose hydrolysis has been proposed and validated, allowing for the inhibition and transglycosylation effects. Based on this scheme, a mathematical model for cellobiose hydrolysis has been suggested to describe the kinetics of substrate consumption and product (d-glucose) accumulation, as well as the kinetics of formation and consumption of transglycosylation products throughout the course of enzymatic reaction with various initial amounts of cellobiose, starting from low concentrations up to 0.2–0.3 m (7–11% bv weight).     

Active calcium transport in red cell ghosts resealed in dextran solutions

1.Human erythrocytes when lysed and resealed to Ca in the presence of dextran can be readily separated from the suspending medium by low-speed centrifugation. 2. Ghosts trapped Ca and EGTA at the same ratio as present in the haemolytic medium and remained tight to Ca after washing and subsequent incubation for up to 90 min at 37°C. 3. Ca extrusion could be promoted by substrates other than ATP only from ghosts that had been loaded with low free Ca concentrations (1–22 μM). The order of activation by the various substrates employed was $\text{ATP}\text{>}\text{adenine}\text{+}\text{inosine}\text{>}\text{inosine}$. 4. The kinetics of extrusion depended markedly on internal free Ca. The system showed a high affinity state ($\text{K}{}_{\mathrm{<mtext>Ca</mtext>}}\text{about}\text{3 μ}\text{M}$; $\text{V = 0.34 μ}\text{mol Ca}\text{/}\text{ml ghosts per min}$) at low concentrations (1–22 μM) and a low affinity state ($\text{K}{}_{\mathrm{<mtext>Ca</mtext>}}\text{about}\text{250 μ}\text{M}$; $\text{V = 0.17 μ}\text{mol Ca}\text{/}\text{ml ghosts per min}$) at high concentrations (0.2–4.0 mM). 5. Both at low and at high free Ca, La-sensitive ATP hydrolysis was closely correlated with La-dependent Ca efflux, in keeping with an stoichiometry of 1. 6. The rate of extrusion was maximal in the presence of 160 mM KCl and decreased to various extents when K was fully replaced by different cations, following the order $\text{K}\text{>}\text{Na = choline}\text{>}\text{Mg}$. 7. The efflux rate of high-K ghosts, resealed to alkaline cations, was stimulated by external Na, whilst Mg and choline were practically without effect. 8. The results indicate that human red cells possess a powerful Ca extrusion mechanism, the activity of which can be modulated by alkaline cations.     

Inhibition of urea synthesis by pent-4-enoate associated with decrease in N-acetyl-L-glutamate concentration in isolated rat hepatocytes

Pent-4-enoate at 0.1 to 1.0 mM strongly inhibited urea synthesis in isolated rat hepatocytes. Pent-4-enoate at the same concentrations markedly decreased concentrations of $\text{N-}\text{acetyl-}\text{L}\text{-glutamate}$, an essential activator of carbamoyl-phosphate synthase-I (EC 2.7.2.5), and the decrease was well parallel with the inhibition of urea synthesis by pent-4-enoate. This compound also lowered cellular concentrations of acetyl-CoA, a substrate of acetylglutamate synthase (EC 2.3.1.1). Pent-4-enoate in a dose of 1 mM did not significantly affect cellular concentrations of ATP, and had no direct effect on acetylglutamate synthase activity. These results suggest that the inhibition of urea synthesis by pent-4-enoate is due to decrease in $\text{N-}\text{acetyl-}\text{L}\text{-glutamate}$ concentration and that the decrease is probably brought about by decreased rate of its synthesis due to the lowered concentration of cellular acetyl-CoA.     

Mechanism of the sarcoplasmic reticulum calcium pump. Fluorometric study of the phosphorylated intermediates.

After removal of calcium ions bound to the high affinity sites the sarcoplasmic reticulum calcium pump can be phosphorylated by inorganic phosphate. The intrinsic fluorescence of the protein is used to follow conformational changes of the pump and an intensity change can be observed upon addition of phosphate. This effect is activated by internal calcium ($\text{K}\text{1}\text{2}\text{= 10 mM}$) and inhibited by external calcium ($\text{K}\text{1}\text{2}\text{= 0.4 μM}$) and the apparent affinity for phosphate is high (0.2 mM). We conclude that the change observed is linked to the formation of the gradient-dependent phosphorylated intermediate. It is compared with previous results concerning the enzymatic cycle of the pump.     

Inhibitory effects of methylxanthines on the activity of xanthine oxidase

The $\text{in vitro}$ and $\text{in vivo}$ effects of three methylxanthines caffeine, theophylline and theobromine on the activity of the enzyme xanthine oxidase (EC 1.2.3.2.) was investigated with a view to understand their biochemical action. The studies revealed all the three methylxanthines to be inhibitors of the milk xanthine oxidase activity and the inhibition was found to be competitive in nature. The preincubation studies indicated a greater inhibition of the enzyme with the methylxanthines. Excessive amount of the substrate (2.5 × 10^?4M) resulted in progressive inhibition of the enzyme activity. Low concentrations of methylxanthines exerted a definite inhibitory effect on the xanthine oxidase activity at lower substrate concentrations. At higher concentrations of the substrate, the inhibitory effect due to the same concentration of methylxanthines did not produce any added inhibition of the enzyme activity to that produced by the substrate alone. However, added inhibition by high concentrations of methylxanthines was detectable even when the enzyme activity was markedly inhibited by higher concentrations of the substrate. The $\text{in vivo}$ administration of methylxanthines caused a significant inhibition of the xanthine oxidase activity in lungs, kidneys, heart and brain of rats. Consequently, the level of uric acid in the tissues of the drug treated animals was also found to be reduced.     

Progesterone-induced inactivation of nuclear estrogen receptor in the hamster uterus is mediated by acid phosphatase

Inactivation of hamster uterine estrogen receptor was assayed in nuclear KCl extracts (30 min, 37°C, pH 7.5) after progesterone treatment $\text{in}\text{vivo}$ for 2h. At very low concentrations ($\text{>}$0.05 mM), molybdate and vanadate blocked the progesterone-induced increase in receptor inactivation. In contrast, only high concentrations ($\text{>}$10 mM) of the inhibitors blocked receptor inactivation in extracts from untreated hamsters. Gel electrophoresis and inhibition curves for phosphatases in nuclear extract demonstrated that acid, rather than alkaline, phosphatase activity is most likely responsible for these effects. These data suggest that progesterone antagonizes estrogen action in the hamster uterus by promoting estrogen receptor dephosphorylation leading to inactivation.     

Ethanol reduces hepatic estrogen-2-hydroxylase activity in the male rat

Brief exposure to intoxicating levels of ethanol in the male rat produced a marked reduction in a major hepatic enzyme responsible for estrogen metabolism (estrogen-2-hydroxylase). After 4 days of ethanol administration the specific activity of this enzyme decreased by 70% and remained decreased for 6 days following alcohol withdrawal. Enzyme activity returned to control levels by two weeks. However, if animals were retreated with ethanol for one day each week the enzyme activity remained low. Kinetic analysis of the enzymatic activity from ethanol-treated rats showed a decrease in specific activity (Vmax) with no alteration in substrate affinity (apparent Km). The decrease in enzyme activity persisted long after ethanol disappeared from the blood and concentrations of ethanol from 20–100 mM had no effect on enzyme activity when added $\text{in vitro}$. A similar effect of ethanol on hepatic estrogen metabolism in humans may partially explain the elevated serum estrogen levels and the signs of hyperestrogenization observed in male alcoholic patients.     

Glutamate transport in pig heart mitochondria. Binding and structural properties of high-glutamate affinity proteolipid: Reconstitution studies

Previously, a proteolipid that can bind glutamate with high affinity has been isolated from pig heart mitochondrial membranes. A final affinity chromatography on γ-methylglutamate-albumin coreticulated on glass fiber was necessary. This procedure includes long dialysis steps which tend to denature the high-glutamate affinity proteolipid.Here is described a new method of isolation which avoids long dialysis steps and yields greater amounts of the high-glutamate affinity proteolipid.The binding of glutamate or aspartate on high-glutamate affinity proteolipid has been studied by gel filtration, by equilibrium dialysis or by a new procedure of rapid centrifugation based on the insolubility of high-glutamate affinity proteolipid in water. The latter method permits the detection of low and high affinity sites for glutamate with a $\text{K}{}_{\mathrm{<mtext>d</mtext>}}$ 60 mM and 55 μM, respectively. Among a series of analogues, aspartate appeared to be the best competitor: $\text{K}{}_{\mathrm{<mtext>d</mtext>}}\text{= 30 μ}\text{M}$ and two $\text{K}{}_{\mathrm{<mtext>i</mtext>}}$ values, 0.37 mM (at high glutamate concentration) and 3.8 μM (at low glutamate concentration). High-glutamate affinity proteolipid binds 0.4 nmol of glutamate but only 0.1 nmol of aspartate per mg protein. The sites for glutamate and aspartate appear to be different but interdependent.In the presence of high-glutamate affinity proteolipid, externally added glutamate stimulated the efflux of aspartate from preloaded liposomes.High-glutamate affinity proteolipid contains cardiolipin, phosphatidyl choline and phosphatidyl ethanolamine the distribution of which is different from that of the inner membrane.The effects of various phospholipases, trypsin, and thiol reagents were studied on the binding of glutamate. High-glutamate affinity proteolipid binds 9 nmol $\text{N-}\text{ethylmaleimide}$ per mg protein but only 6.1 nmol in the presence of glutamate. The dissociation of high-glutamate affinity proteolipid caused by thiol reagents yielded a soluble protein fraction with higher affinity for glutamate.Electrophoresis and an immunological approach allowed the detection and titration of the glutamate dehydrogenase and aspartate aminotransferase present in high-glutamate affinity proteolipid in inhibited forms, the latter being 26-fold more concentrated than the former.     

Solubilization of the semliki forest virus membrane with sodium deoxycholate

The effects of increasing concentrations of sodium deoxycholate on Semliki Forest virus have been studied. Sodium deoxycholate begins to bind to the virus at less than 0.1 mM free equilibrium concentration and causes lysis of the viral membrane at $\text{0.9 ± 0.1}\text{mM}$ free equilibrium concentration when $\text{2.2 ± 0.2 ß 10}{}^3\text{mol}$ of sodium deoxycholate are bound per mol of virus. Liberation of proteins from the membrane begins at $\text{1.5 ± 0.1}\text{mM}$ sodium deoxycholate and the proteins released are virtually free from phospholipid above 2.0 mM sodium deoxycholate. The overall mechanism of sodium deoxycholate solubilization of the viral membrane resembles that of Triton X-100 and sodium dodecyl sulphate except that with sodium deoxycholate the various stages of membrane disruption occur at about 10-fold higher equilibrium free detergent concentrations. At sodium deoxycholate concentrations higher than 2.3 mM the viral spike glycoproteins can be separated by sucrose gradient centrifugation or gel filtration into constituent polypeptides E1, E2 and E3. E1 carries the haemagglutinating activity of the virus.     

Differential effects of dopamine antagonists on prolactin secretion from cultured rat pituitary cells.

Various dopamine antagonists, including two novel non-neuroleptic drugs domperidone and halopemide, stimulated apomorphine-suppressed prolactin secretion from cultured rat pituitary cells. The potency of these drugs closely paralleled their rank-order in displacing $\text{in vitro}$ H³-haloperidol binding in rat striatum reported by others (10). Concentration-effect curves were parallel except those of pimozide and clopimozide which were biphasic : prolactin secretion was stimulated at low concentrations but depressed at concentrations above 25nM. When added alone, pimozide and clopimozide, but none of the other drugs tested, also depressed prolactin secretion. The present findings indicate that prolactin secretion from cultured pituitary cells may provide an $\text{in vitro}$ test system suitable to differentiate antagonists of dopamine receptors and possibly to distinguish pure from partial antagonists.