Serotonergic platelet variables in unmedicated patients suffering from major depression and healthy subjects: relationship between 5HT content and 5HT uptake

The dependence of platelet-5HT content on apparent kinetic parameters of 5HT uptake was analyzed in 56 healthy subjects and 47 depressed patients, who had not been taking psychotropic medication for several months. There were no significant relationships between apparent Vmax or Km and platelet-5HT content in both groups. However, the ratio of Vmax to Km, as a measure of apparent 5HT uptake efficiency, significantly correlated with the platelet-5HT concentration in healthy subjects (r=0.627 p<0.001). Female controls showed a higher correlation coefficient (r=0.723) than male controls (r=0.457). A marked deviation from the linear relationship between 5HT content and the ratio Vmax/K was observed in female depressed patients (r=0.250 n.s.). In male depressed patients the correlation coefficient (r=0.485 p<0.05) was similar to male healthy subjects, but the regression equations differed significantly in slope and intercept. Dividing controls and patients in subgroups with low, median and high net uptake rates, it was found that the frequencies of these uptake rate classes were 24.6%, 33.3%, 42.1% in controls and 38.3%, 44.7%, 17.0% in patients respectively. Patients and controls with low net uptake rate showed very similar uptake kinetics and uptake efficiencies, but the lack of a significant correlation between 5HT content and the ratio Vmax/Km differentiated patients from controls. The status of the serotonergic system, expressed as relationship between 5HT content and uptake efficiency, was very similar in patients and controls in the range of medium net uptake rate. A trend toward higher values of uptake efficiency was apparent in patients with high net uptake rate but the platelet-5HT content was similar to corresponding controls. Mean scores on the HAMD scale (total score and psychic anxiety item) were significantly higher in the low net uptake rate group of patients than in those with a high net uptake rate.     

Mutual Inhibition Kinetic Analysis of γ-Aminobutyric Acid, Taurine, and β-Alanine High-Affinity Transport into Neurons and Astrocytes: Evidence for Similarity Between the Taurine and β-Alanine Carriers in Both Cell Types

The transport kinetics of gamma-aminobutyric acid (GABA), taurine, and beta-alanine in addition to the mutual inhibition patterns of these compounds were investigated in cultures of neurons and astrocytes derived from mouse cerebral cortex. A high-affinity uptake system for each amino acid was demonstrated both in neurons (Km GABA = 24.9 +/- 1.7 microM; Km Tau = 20.0 +/- 3.3 microM; Km beta-Ala = 73.0 +/- 3.6 microM) and astrocytes (Km GABA = 31.4 +/- 2.9 microM, Km Tau = 24.7 +/- 1.3 microM; Km beta-Ala = 70.8 +/- 3.6 microM). The maximal uptake rates (Vmax) determined were such that, in neurons, Vmax GABA greater than Vmax beta-Ala = Vmax Tau, whereas in astrocytes, Vmax beta-Ala greater than Vmax Tau = Vmax GABA. Taurine was found to inhibit beta-alanine uptake into neurons and astrocytes in a competitive manner, with Ki values of 217 microM in neurons and 24 microM in astrocytes. beta-Alanine was shown to inhibit taurine uptake in neurons and astrocytes, also in a competitive manner, with Ki values of 72 microM in neurons and 71 microM in astrocytes. However, beta-alanine was found to be a weak noncompetitive inhibitor of neuronal and astrocytic GABA uptake, whereas in reverse experiments, GABA displayed weak noncompetitive inhibition of neuronal and astrocytic uptake of beta-alanine. Likewise, taurine was a weak noncompetitive inhibitor of GABA uptake in neurons and similarly, GABA was a weak noncompetitive inhibitor of taurine uptake into neurons.(ABSTRACT TRUNCATED AT 250 WORDS)     

Evolvement of systems of serotonin uptake in rat hypothalamus during its development]

Kinetics of 3H serotonin accumulation into slices from hypothalamus have been compared in adult, puppy and foetus rat. In 15 days-old, as in adult rat, there are two components of 5 HT accumulation corresponding to the low and high affinity transport systems. For this latter, Km and Vmax values are much higher in adult than in 15 days old rat (in adult, Km=1,3 X 10(-7) and Vmax=0,33 X 10(-10); in 15 days old rat, Km=0,5 X 10(-7) and Vmax=0,125 X 10(-10)). On the opposite, in the 7 days old rat and in the 21 days old foetus, it is only possible to arbitrarely define one uptake system corresponding to the following apparent values: in the 7 days old rat, Km= 5 X 10(-7) and Vmax=2 X 10(-10), in the foetus, Km=0,2 X 10(-7) and Vmax=0,15 X 10(-10). These results showed important developmental differences in affinity of 3H serotonin to hypothalamus. The low and high affinity uptake systems existing in adult are only individualized in the 15 days old little rat.     

Selective effect of phorbol ester on serotonin removal and ACE activity in rabbit lungs

The effect of phorbol myristate acetate (PMA) on pulmonary removal of [14C]serotonin (5-[14C]HT) and metabolism of [3H]benzoyl-phenylalanyl-alanyl-proline (BPAP), a synthetic substrate for angiotensin-converting enzyme (ACE), was evaluated in isolated rabbit lungs perfused in situ with Krebs-albumin. Metabolic functions were assessed before, during, and after perfusion with 80 nM PMA (n = 11), or PMA plus 133 microM papaverine (n = 10) or PMA diluent (dimethyl sulfoxide, n = 11). Organ kinetic parameters (apparent Vmax, Km) were calculated by use of indicator-dilution techniques and by a mathematical model of whole-organ metabolism. PMA treatment resulted in a significant decline in Vmax for BPAP metabolism (from 52 +/- 4 to 30 +/- 4 nmol/s) and 5-HT removal (from 2.1 +/- 0.2 to 1.1 +/- 0.1 nmol/s). Km for BPAP was not significantly altered, whereas Km for 5-HT removal was higher after treatment (before treatment, 1.1 +/- 0.1 microM; after treatment, 2.3 +/- 0.6 microM). Coperfusion with papaverine, which attenuated the pressor response to PMA, abolished PMA-induced changes in Vmax for BPAP metabolism and in Km for 5-HT removal but left PMA-induced changes in Vmax for 5-HT removal intact. We conclude that PMA alters endothelial metabolic function by both hemodynamic and biochemical mechanisms that are independent of circulating blood cells. Pulmonary capacity for BPAP metabolism may largely reflect perfused surface area, and capacity for 5-HT removal may be more sensitive to frank endothelial cell dysfunction in this model.     

The uptake and metabolism of 5-hydroxytryptamine by tissue slices of the cestode Hymenolepis diminuta

The in vitro uptake of [3H]5HT was investigated in tissue slices of the cestode Hymenolepis diminuta. A concentrative, sodium sensitive, high affinity uptake mechanism (Km 1.43 X 10(-6) M; Vmax 222 fmoles/mg wet wt/min), together with a sodium insensitive component (linear up to 5 X 10(-6) M) were present. In the presence of 2-nitroimipramine the sodium sensitive component was significantly suppressed (Vmax 33 fmoles/mg/wet wt/min) although the Km (1.37 X 10(-6) M) was not affected. Nitroimipramine showed an IC50 of approximately 2 X 10(-6) M. The sodium insensitive component was not affected by nitroimipramine. Biogenic amines and related indoleamines were weak inhibitors of the sodium sensitive and sodium insensitive components of 5HT uptake. The tricyclic antidepressants and fluoxetine were effective inhibitors of the sodium sensitive component of 5-HT uptake; receptor ligands were weak inhibitors or without effect. The metabolism of [3H]5HT in tissue slices of H. diminuta was examined by HPLC. The role of the sodium sensitive uptake and metabolism of 5HT in terms of inactivation and recycling of neurally released 5HT and the possible importance of exogenous recruitment of 5HT are discussed.     

Characterization of two independent modes of action of ATP on human erythrocyte sugar transport

Intracellular ATP has been reported either to stimulate [Jacquez, J.A. (1983) Biochim. Biophys. Acta 727, 367-378] or to inhibit [Hebert, D. N., & Carruthers, A. (1986) J. Biol. Chem. 261, 10093-10099] human erythrocyte sugar transport. This current study provides a rational explanation for these divergent findings. Protein-mediated 3-O-methyl-alpha-D-glucopyranoside (3OMG) uptake by intact human red blood cells (lacking intracellular sugar) at ice temperature in isotonic KCl containing 2 mM MgCl2, 2 mM EGTA, and 5 mM Tris-HCl, pH 7.4 (KCl medium), is characterized by a Km(app) of 0.4 +/- 0.1 mM and a Vmax of 114 +/- 20 mumol L-1 min-1. Lysis of red cells in 40 volumes of EGTA-containing hypotonic medium and resealing in 10 volumes of KCl medium increase the Km(app) and Vmax for uptake to 7.1 +/- 1.8 mM and 841 +/- 191 mumol L-1 min-1, respectively. Addition of ATP (4 mM) to the resealing medium restores Michaelis and velocity constants for zero-trans 3OMG uptake to 0.42 +/- 0.11 mM and 110 +/- 15 mumol L-1 min-1, respectively. Addition of CaCl2 to extracellular KCl medium (calculated [Ca2+]o = 101 microM) reduces the Vmax for zero-trans 3OMG uptake in intact cells and ATP-containing ghosts by 79 +/- 4% and 61 +/- 9%, respectively. Intracellular Ca2+ (15 microM) reduces the Vmax for 3OMG uptake by ATP-containing ghosts by 38 +/- 12%. In nominally ATP-free ghosts, extracellular (101 microM) and intracellular (11 microM) Ca2+ reduce the Vmax for 3OMG uptake by 96 and 94%, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of halothane on transport of 5-hydroxytryptamine by platelet membranes.

Na+-dependent uptake of 5-HT (5-hydroxytryptamine) into plasma membrane vesicles derived from bovine blood platelets and ATP-dependent 5-HT uptake into storage vesicles in platelet lysates were measured. Na+-dependent uptake was temperature-dependent, inhibited by imipramine and exhibited Michaelis-Menten kinetics (apparent Km, 0.12 +/- 0.02 microM; Vmax. 559 +/- 54 pmol/min per mg of protein. Halothane had no effect on Na+-dependent transport of 5-HT in plasma-membrane vesicles. ATP-dependent 5-HT transport into storage granules also exhibited Michaelis-Menten kinetics (apparent Km 0.34 +/- 0.03 microM; Vmax. 34.3 +/- 1.7 pmol/min per mg of protein) and was inhibited by noradrenaline (norepinephrine), but not by imipramine. Exposure of the granules to halothane resulted in a progressive decrease in Vmax. The results demonstrate a possible site for disruption of platelet function by anaesthetics.     

Selective effect of microembolization on pulmonary removal of biogenic amines

Pulmonary amine extraction (E) was measured by triple-indicator dilution techniques from bolus injections of trace amounts of 5-hydroxy[14C]tryptamine ([14C]HT)m [3H]norepinephrine ([3H]NE), indocyanine green dye before and after glass-bead embolization in 23 anesthetized dogs. Control E(5-[14C]-HT) was 89.7 +/- 1.7%; 10 min after embolization (which approximately doubled pulmonary artery pressure and pulmonary vascular resistance), E(5-[14C]HT) was significantly reduced to 65.9 +/- 3.0% (kappa +/- SE; n = 10) (P less than 0.01). Control E([3H]NE) (40.1 +/- 4.5%) was unaffected by embolization. Imipramine (8 mg/kg) depressed control E(5-[14C]HT) to 38.7 +/- 1.5% and control E([3H]NE)d to 35.0 +/- 3.9% (P less than 0.05; n = 4). In these animals, pulmonary hemodynamic changes secondary to embolization were comparable to those in non-drug-treated dogs, but E(5-[14C]HT) and E([3H]NE) were not further depressed. Progressive pulmonary lobar artery ligation (n = 5) did not affect amine extraction until perfusion was limited to one lobe. The selectivity of the effect of embolization on E(5-[14C]HT), the lack of an effect on imipramine-insensitive E(5-[14C]HT) extraction, and the much smaller changes after progressive lobar ligation indicate that, although derecruitment of vascular surface area secondary to mechanical obstruction may contribute to postembolization depression of E(5-[14C]HT), additional mechanisms such as local saturation of 5-HT uptake or selective damage to endothelial cell transport of 5-HT may underlie these observations.     

Human placental 3 beta-hydroxy-5-ene-steroid dehydrogenase and steroid 5----4-ene-isomerase: purification from mitochondria and kinetic profiles, biophysical characterization of the purified mitochondrial and microsomal enzymes

In human placenta, 3 beta-hydroxy-5-ene-steroid dehydrogenase and steroid 5----4-ene-isomerase, an enzyme complex found in microsomes and mitochondria, synthesizes progesterone from pregnenolone and androstenedione from fetal dehydroepiandrosterone sulfate. The dehydrogenase and isomerase activities of the mitochondrial enzyme were copurified (733-fold) using sequential cholate solubilization, ion exchange chromatography (DEAE-Toyopearl 650S), and hydroxylapatite chromatography (Bio-Gel HT). Enzyme homogeneity was demonstrated by a single protein band in SDS-polyacrylamide gel electrophoresis (monomeric Mr = 41,000), gel filtration at constant specific enzyme activity (Mr = 77,000), and a single NH2-terminal sequence. Kinetic constants were determined for the oxidation of pregnenolone (Km = 1.6 microM, Vmax = 48.6 nmol/min/mg) and dehydroepiandrosterone (Km = 2.4 microM, Vmax = 48.5 nmol/min/mg) and for the isomerization of 5-pregnene-3,20-dione (Km = 9.3 microM, Vmax = 914.2 nmol/min/mg) and 5-androstene-3,17-dione (Km = 27.6 microM, Vmax = 888.4 nmol/min/mg. Mixed substrate studies showed that the dehydrogenase and isomerase activities utilize their respective pregnene and androstene substrates competitively. Dixon analysis demonstrated that the product steroids, progesterone and androstenedione, are competitive inhibitors of the C-21 and C-19 dehydrogenase activities. Enzyme purified from mitochondria and microsomes had similar kinetic profiles with respect to substrate utilization, product inhibition, and cofactor (NAD+) reduction (mean Km +/- SD using C-19 and C-21 dehydrogenase substrates = 26.4 +/- 0.8 microM, mean Vmax = 73.2 +/- 1.3 nmol/min/mg). Pure enzyme from both organelles exhibited identical biophysical properties in terms of molecular weight and subunit composition, pH optima (pH 9.8, dehydrogenase; pH 7.5, isomerase), temperature optimum (37 degrees C), stability in storage and solution, effects of divalent cations, and the single NH2-terminal sequence of 27 amino acids. These results suggest that the mitochondrial and microsomal enzymes are the same protein localized in different organelles.     

Effects of cadmium treatment in vitro on the uptake and release of [3H]serotonin by human blood platelets

Effects of cadmium treatment on human platelets were studied with respect to uptake and release of 5-[3H]hydroxytryptamine (5-HT). The uptake of 5-[3H]HT in the presence of varying concentrations of CdCl2 (0.001-10 mM) was inhibited significantly with respect to control platelets and the inhibition was maximum at 1 mM CdCl2 concentration. From studies on the kinetics of 5-[3H]HT uptake a higher Km and significantly lower Vmax for CdCl2-treated platelets were observed. CdCl2 stimulated spontaneous release but inhibited thrombin-induced release of 5-[3H]HT. Spontaneous release of 5-[3H]HT induced by CdCl2 was not significantly altered in the presence of externally available CaCl2 (1 mM).     

Inhibition of insulin metabolism by hydroxychloroquine and its enantiomers in cytosolic fraction of liver homogenates from healthy and diabetic rats

To elucidate the mechanism by which hydroxychloroquine (HCQ) affects glucose metabolism, the effect of this drug and its enantiomers on insulin metabolism was studied using the cytosolic fraction of liver homogenates from healthy and diabetic rats. Eadie-Hofstee plots were monophasic suggesting that only a one-component enzyme system is involved in insulin degradation in the fraction used. Reaction velocity (V) vs substrate concentration plots were consistent with a Vmax model. HCQ caused a significant reduction in Vmax and Vmax/Km values in both healthy (Vmax, 3.63 +/- 0.46 vs 1.97 +/- 0.13, ng/min/mg; protein P < 0.001; and Vmax/Km 0.265 +/- 0.015 vs 0.112 +/- 0.004, ml/min/g protein) and diabetic rats (Vmax, 0.718 +/- 0.06 vs 0.360 +/- 0.024, ng/min/mg protein; and Vmax/Km, 0.05 +/- 0.002 vs 0.023 +/- 0.001, ml/min/g protein). Significant reduction in the V was observed in the presence of racemic (rac)-, R-, or S-HCQ. Ranking of the inhibitory potency was HCQ > S = R except at highest examined concentration (20 mg/mL) which was HCQ > S > R. In conclusion, the effect of HCQ on insulin degradation appears to be, in part, through inhibition of cytosolic insulin metabolizing enzyme. The effect is not stereoselective except at high concentrations. The R- and S-HCQ may have synergistic effects on inhibition of insulin degradation.     

High affinity [3H]imipramine binding and serotonin uptake to platelets of adolescent females suffering from anorexia nervosa

High affinity [3H]imipramine binding and [3H]serotonin uptake to platelets were investigated in 17 anorexic females aged 15-18 years as compared to 15 healthy females of similar ages. A significant decrease in the density of [3H]imipramine binding sites was observed in anorexics as compared to controls (368 +/- 40 vs 517 +/- 38 fmoles/mg protein, p less than 0.01). No alteration in Kd values or in the kinetic parameters of serotonin uptake (Vmax, Km) were noted. The fact that the decrease in imipramine binding is not accompanied by a parallel reduction in serotonin uptake might indicate that anorexia nervosa is not ultimately related to major depression and that the imipramine binding site is not identical to the serotonin uptake site.     

Distinction between the two basic mechanisms of cation transport in the cardiac Na(+)-Ca2+ exchange system

In order to distinguish between the Ping-Pong and sequential mechanisms of cation transport in the cardiac Na(+)-Ca2+ exchange system, the initial rates of the Nai-dependent 45Ca uptake (t = 1 s) were measured in reconstituted proteoliposomes, loaded with a Ca chelator. Under "zero-trans" conditions ([Na]o = [Ca]i = 0) at a fixed [Na]i = 10-160 mM with varying [45Ca]o = 2.5-122 microM for each [Na]i, the Km and Vmax values increased from 7.7 to 33.5 microM and from 2.3 to 9.0 nmol.mg-1.s-1, respectively. The Vmax/Km values show a +/- 2-10% deviation from the average value of 0.274 nmol.mg-1.s-1.microM-1 over the whole range of [Na]i. These deviations are within the standard error of Vmax (+/- 3-7%), Km (+/- 11-17%), and Vmax/Km (+/- 11-19%). This suggests that, under conditions in which Vmax and Km are [Na]i dependent and vary 4-5-fold, the Vmax/Km values are constant within the experimental error. In the presence of K(+)-valinomycin the Vmax/Km values are 0.85 +/- 0.17 and 1.08 +/- 0.18 nmol.mg-1.s-1.microM-1 at [Na]i = 20 and 160 mM, respectively, suggesting that under conditions of "short circuit" of the membrane potential the Vmax/Km values still exhibit the [Na]i independence. At a very low fixed [45Ca]o = 1.1 microM with varying [Na]i = 10-160 mM, the initial rates were found to be [Na]i independent. At a high fixed [45Ca]o = 92 microM the initial rates show a sigmoidal dependence on the [Na]i with Vmax = 13.8 nmol.mg-1.s-1, KmNa = 21 mM, and Hill coefficient nH = 1.5. The presented data support a Ping-Pong (consecutive) mechanism of cation transport in the Na(+)-Ca2+ exchanger.     

Evidence that activation of 2-deoxy-D-glucose transport in rat thymocyte suspensions results from enhanced coupling between transport and hexokinase activity.

1. Suspensions of rat thymocytes accumulate free 2-deoxy-D-glucose (2-dGlc) within the cytosol to a concentration approx. 25-fold above the external concentration. This active accumulation was enhanced by 40 nM-phorbol 12-myristate 13-acetate (phorbol). 2. The Km for zero-trans uptake in control cells was 2.3 +/- 0.14 mM and Vmax. was 0.41 +/- 0.08 mumol/min per 10(10) cells (n = 6). In cells treated with phorbol (40 nM) the Km for zero-trans uptake was 1.2 +/- 0.13 mM and Vmax. 0.46 +/- 0.03 mumol/min per 10(10) cells (n = 6). The Km was decreased significantly by phorbol (P less than 0.01). 3. Phorbol-dependent activation of thymocytes delayed exit of free 2-dGlc into sugar-free solution and prevented exchange exit. Activation had no effect on 3-O-methyl D-glucoside (3-OMG) exit. 4. Coupling of 2-dGlc transport to hexokinase activity was determined by observing the effects of various concentrations of unlabelled cytosolic 2-dGlc on influx of labelled 2-dGlc into the hexose phosphate pool. In control cells this coupling was 0.81 +/- 0.02 and in phorbol-activated cells it was 0.92 +/- 0.01 (P less than 0.01). 5. The high-affinity inhibitor of hexokinase, mannoheptulose, inhibited uptake of 2-dGlc in both control and phorbol-treated cells. These data are consistent with a model for activation of sugar transport in which hexokinase activity is integrated with the sugar transporter at the endofacial surface. The results suggest that phorbol increases the degree of coupling transport with hexokinase activity, thereby leading to an increase in the rate of uptake of 2-dGlc, a decrease in exit of free 2-dGlc from the cytosol and an increase in free 2-dGlc accumulation.     

Increased serotonin2 (5-HT2) receptor binding as measured by 3H-lysergic acid diethylamide (3H-LSD) in the blood platelets of depressed patients

3H-Lysergic acid diethylamide (3H-LSD) binding, a putative measure of 5-HT2 receptor binding, was studied in the blood platelets of 29 depressed patients and 24 normal controls. The Bmax (maximum number of 3H-LSD binding sites) in the blood platelets of depressed patients was significantly greater than that of normal volunteers. This increase in Bmax was due to an increase in female depressed patients only. Bmax was significantly lower in female compared to male normal controls but there was no difference between male and female depressed patients. There was also no difference in Kd (an inverse measure of affinity of 3H-LSD binding to its sites) between normal controls and depressed patients. The correlations between Bmax of 3H-LSD binding and the Bmax of the 3H-imipramine binding site or the Vmax of 5-HT uptake sites were not significant. The role of serotonergic processes in the psychobiology of depression is discussed.     

Inward fluxes of adenosine in erythrocytes and cultured cells measured by a quenched-flow method.

Dilazep, a vasodilator previously recognized as an inhibitor of adenosine permeation, very rapidly blocked the uptake of adenosine by cultured L5178Y cells, and accordingly was used as a quencher in a simple quenched-flow system for measuring cellular uptake of nucleosides during very short intervals. Time courses of cellular uptake of adenosine, assayed during intervals between 0.05 and 0.5s with the quenched-flow system, were linear and defined initial rates of adenosine uptake. The latter are rates of inward transport of adenosine. Kinetic constants for that process in cultured S49 cells determined with the quenched-flow procedure were similar to those determined with an assay dependent on manual timing. In studies of adenosine uptake kinetics in human erythrocytes at 22 degrees C and 37 degrees C in which the quenched-flow procedure was used, time courses of adenosine uptake were linear at both temperatures and defined initial uptake rates; kinetic constants (means +/- S.E.M.) at 22 degrees C (n = 8) were Km 25 +/- 14 microM and Vmax. 15 +/- 5 pmol/s per microliter of cell water and at 37 degrees C (n = 3) were Km 98 +/- 17 microM and Vmax. 80 +/- 9 pmol/s per microliter of cell water.     

A sensitive capillary GC assay for the determination of sparteine oxidation products in microsomal fractions of human liver

A sensitive method for the assay of sparteine oxidase activity in vitro by microsomal fractions of human liver is described. The activity of sparteine oxidase was assessed by the formation of 2- and 5-dehydrosparteines, which were estimated by capillary gas chromatography with N2-FID detection. The limit of detection of the two metabolites, 2- and 5-dehydrosparteine, was 10 pmol (2.3 ng) per sample. Sparteine oxidase activity was linear with microsomal protein concentration ranging from 25 to 200 ug and with incubation times between 5 and 60 minutes. Omission of NADPH on incubation under an atmosphere of carbon monoxide inhibited formation of both metabolites, thus indicating that aforementioned metabolites arise in reaction catalyzed by cytochrome P-450. In three liver samples from humans classified as extensive (EM) metabolizers the formation of 2- and 5-dehydrosparteines was observed, 2-dehydrosparteine being the major metabolite. In these samples sparteine oxidase activity was characterised by Vmax = 136 +/- 53 pmol/min/mg and Km = 44 +/- 12 microM for 2-dehydrosparteine formation. For 5-dehydrosparteine formation the following values were obtained: Vmax = 57 +/- 18 pmol/min/mg and Km = 42 +/- 26 microM. In a liver sample from a poor metabolizer (PM) only the formation of 2-dehydrosparteine was detected with the method of analysis used. In this sample a great increase in Km (Km PM = 3033 microM) was noted, while Vmax was very similar to those obtained for 2-dehydrosparteine formation in EM subjects (Vmax PM = 147 pmol min/mg).     

Skeletal muscle glycogen phosphorylase a kinetics: effects of adenine nucleotides and caffeine.

This study aimed to determine physiologically relevant kinetic and allosteric effects of P(i), AMP, ADP, and caffeine on isolated skeletal muscle glycogen phosphorylase a (Phos a). In the absence of effectors, Phos a had Vmax = 221 +/- 2 U/mg and Km = 5.6 +/- 0.3 mM P(i) at 30 degrees C. AMP and ADP each increased Phos a Vmax and decreased Km in a dose-dependent manner. AMP was more effective than ADP (e.g., 1 microM AMP vs. ADP: Vmax = 354 +/- 2 vs. 209 +/- 8 U/mg, and Km = 2.3 +/- 0.1 vs. 4.1 +/- 0.3 mM). Both nucleotides were relatively more effective at lower P(i) levels. Experiments simulating a range of contraction (exercise) conditions in which P(i), AMP, and ADP were used at appropriate physiological concentrations demonstrated that each agent singly and in combination influences Phos a activity. Caffeine (50-100 microM) inhibited Phos a (Km approximately 8-14 mM, approximately 40-50% reduction in activity at 2-10 mM P(i)). The present in vitro data support a possible contribution of substrate (P(i)) and allosteric effects to Phos a regulation in many physiological states, independent of covalent modulation of the percentage of total Phos in the Phos a form and suggest that caffeine inhibition of Phos a activity may contribute to the glycogen-sparing effect of caffeine.     

Influence of vasoconstriction, temperature, and flow on the kinetics of serotonin uptake in rabbit lungs

In the process of estimating the kinetic parameters of the pulmonary endothelial serotonin (5-HT) uptake, it is critically important to distinguish the effects of hemodynamic changes from endothelial injury. Therefore, the effects of changes in flow rate (1.7-5.0 ml/s), hemodynamics (vasoconstriction by norepinephrine), and temperature (39 vs. 33 degrees C) were investigated in isolated rabbit lungs. Indicator-dilution data were expressed in terms of the Michaelis-Menten equation for the two 5-HT uptake pathways in the preparation. The maximum uptake velocity (Vmax1) and the 5-HT concentration at half-maximum velocity (Km1) of the first pathway as well as the first-order constant (Vmax2/Km2) of the linear part of the second pathway were determined. Neither vasoconstriction nor flow variations had any effect on Km1, whereas increasing the flow rate caused extensive recruitment, with a concomitant increase in Vmax1 and Vmax2/Km2. Furthermore, all the kinetic parameters were significantly decreased at the lower temperature. We conclude that Km1 is independent of organ hemodynamics (vasoconstriction and flow) but susceptible to changes in 5-HT uptake capacity caused by a change in temperature. Vmax1 and Vmax2/Km2 respond to alterations in 5-HT uptake capacity and perfused organ volume. These are prerequisites to apply kinetic modeling as a method for the investigation of pulmonary endothelial function and integrity.     

Leucine transport in membrane vesicles from Chironomus riparius larvae displays a mélange of crown-group features

Leucine uptake into membrane vesicles from larvae of the midge Chironomus riparius was studied. The membrane preparation was highly enriched in typical brush border membrane enzymes and depleted of other membrane contaminants. In the absence of cations, there was a stereospecific uptake of l-leucine, which exhibited saturation kinetics. Parameters were determined both at neutral (Km 33 +/- 5 microM and Vmax 22.6 +/- 6.8 pmol/7s/mg protein) and alkaline (Km 46 +/- 5 microM and Vmax 15.5 +/- 2.5 pmol/7s/mg protein) pH values. At alkaline pH, external sodium increased the affinity for leucine (Km 17 +/- 1 microM) and the maximal uptake rate (Vmax 74.0 +/- 12.5 pmol/7s/mg protein). Stimulation of leucine uptake by external alkaline pH agreed with lumen pH measurements in vivo. Competition experiments indicated that at alkaline pH, the transport system readily accepts most L-amino acids, including branched, unbranched, and alpha-methylated amino acids, histidine and lysine, but has a low affinity for phenylalanine, beta-amino acids, and N-methylated amino acids. At neutral pH, the transport has a decreased affinity for lysine, glycine, and alpha-methylleucine. Taken together, these data are consistent with the presence in midges of two distinct leucine transport systems, which combine characters of the lepidopteran amino acid transport system and of the sodium-dependent system from lower neopterans.