Acute influences on the two GDP-binding sites in brown-adipose-tissue mitochondria

Scatchard analysis of³H-guanosine diphosphate (GDP) binding to rat brown-adipose-tissue mitochondria demonstrated that binding to the high- and low-affinity sites (K_d=0.05 and 2.0 M) was abolished by denaturation at 100°C but non-specific binding remained constant (0.2% of free-GDP). Prior incubation of mitochondria at 37°C reduced binding to the high-affinity site, but this could be reversed by incubating samples at 0°C. Addition of palmitic acid (5–40 nmole/mg of mitochondrial protein) did not affect GDP-binding, but similar concentrations of palmitoyl CoA caused a slight reduction in the number of high-affinity sites and a significant decrease in the number of lower-affinity sites. Acute treatments known to stimulate thermogenesis in vivo (a single meal, cold exposure, or noradrenaline injection 40–80 min before sacrifice) all increased binding to both binding sites, and tended to raise the dissociation constants, whereas injection of 2-deoxy-D-glucose, which depresses metabolic rate in the rat, decreased dissociation constants of both sites and the maximum number of high-affinity sites. These data indicate that both GDP-binding sites respond rapidly to acute thermogenic stimuli, possibly due to conformational changes in the mitochondrial inner membrane, and that palmitoyl CoA may influence mitochondrial proton conductance via an association with purine nucleotide binding sites.     

A high-affinity folate binding protein in human amniotic fluid. Radioligand binding characteristics,immunological properties and molecular size

The presence of a folate binding protein of high-affinity type (affinity constant 5 · 10⁹M^–1, maximum folate binding 3 nM) in human amniotic fluid was demonstrated in equilibrium dialysis experiments (37°C, pH 7.4) with the radioligand³H-folate. Dissociation of³H-folate from the binding protein was slow at pH 7.4 but rapid at pH 3.5. By use of rabbit antibodies against low molecular weight folate binding protein from human milk we determined the concentration of folate binding protein in 5 amniotic fluids (range 1.5–2.3 nM) in an Enzyme-Linked Immunosorbent Assay (ELISA). ultrogel AcA 44 chromatography of amniotic fluid showed that immunoreactive and radioligand bound folate binding protein coeluted in two peaks: a major one (M _r 25 000) and a minor one (M _r 100 000).     

Parameters of binding and transport of oligodeoxynucleotide, which includes BCL2 mRNA translation start, to the K562 cells

Interaction of oligodeoxynucleotides (ODN), 18-mer, which included sequence of BCL2 mRNA translation start, with K562 cells has been studied. The kinetic curves of interaction showed that oligonucleotide total binding with the cells at 37 degrees C and low oligonucleotide concentration (< or = 30 nM), as well as under lipofection, were composed of two processes: 18-mer surface binding with cell membranes and its non-proportional internalization into the cells. The last, in turn, consisted of three consequent steps. The enhanced extent and rate of oligonucleotide internalization was diminished after first hour incubation and later they were increased again. This reflected rising additional binding sites that provided internalization. At chosen time-points the internalization of ODN into cells, been proceeded at 37 degrees C, were at most abruptly abrogated by cooling down. ODN to K562 cell membrane binding constants and specific number of binding sites have been determined. Time-intervals, providing equilibrium for each successive stage of multistep ODN bound/free determination, were maintained. It was established that receptor binding with increased binding constant (more than 2 x 10(9) M(-1)) promoted ODN internalization. Oligonucleotide binding and internalization with prolonged incubation were also up-regulated due to priming new binding sites of higher affinity. Lipofection enhanced ODN binding to cell membrane but conserved the main features of ligand-receptor interaction. During lipofection constants and ODN binding site numbers increased without changing the overall time-pattern of the process, observed for ODN without liposomes. Extent and rate of internalization of ODN in liposomal formulation did not differ substantially from ODN in solution.     

H<Subscript>2</Subscript>-Producing bacterial communities from a heat-treated soil inoculum

Hydrogen gas (60% H₂) was produced in a continuous flow bioreactor inoculated with heat-treated soil, and fed synthetic wastewater containing glucose (9.5 g l^–1). The pH in the bioreactor was maintained at 5.5 to inhibit consumption of H₂ by methanogens. The objective of this study was to characterize bacterial communities in the reactor operated under two different hydraulic retention times (HRTs of 30-h and 10-h) and temperatures (30°C and 37°C). At 30-h HRT, the H₂ production rate was 80 ml h^–1 and yield was 0.91 mol H₂/mol glucose. At 10-h HRT, the H₂ production rate was more than 5 times higher at 436 ml h^–1, and yield was 1.61 mol H₂/mol glucose. Samples were removed from the reactor under steady-state conditions for PCR-based detection of bacterial populations by ribosomal intergenic spacer analysis (RISA). Populations detected at 30-h HRT were more diverse than at 10-h HRT and included representatives of Bacillaceae, Clostridiaceae, and Enterobacteriaceae. At 10-h HRT, only Clostridiaceae were detected. When the temperature of the 10-h HRT reactor was increased from 30°C to 37°C, the steady-state H₂ production rate increased slightly to 463 ml h^–1 and yield was 1.8 mol H₂/mol glucose. Compared to 30°C, RISA fingerprints at 37°C from the 10-h HRT bioreactor exhibited a clear shift from populations related to Clostridium acidisoli (subcluster Ic) to populations related to Clostridium acetobutylicum (subcluster Ib).     

A high-affinity folate binding protein in human semen

The presence of a folate binding protein of high-affinity type (affinity constant 3.10¹⁰M^–1, maximum folate binding 1.4 nM) in human semen was demonstrated in equilibrium dialysis experiments (37°C, pH 7.4) with the radioligand³H-folate. Radioligand dissociation from the binding protein was slow at pH 7.4, but rapid at pH 3.5. By use of rabbit antibodies against 25 kDa human milk folate binding protein we determined the concentration of folate binding protein in 16 speciments of human semen in an enzyme-linked immunosorbent assay. The concentration of immunoreactive folate binding protein was independent of the number of spermatozoa in individual specimens. Gel filtration showed that immunoreactive and radioligand bound folate binding protein coeluted in two peaks: a major one of 100 kDa and a minor one of 25 kDa.     

Endogenous inhibitors of Na+-independent [3H]GABA binding to crude synaptic membranes

The characteristics of the Na⁺-independent high-affinity binding of [³H]GABA to various types of crude synaptic membranes (CSM) prepared from rat brain cortex were studied. In freshly prepared CSM the content of GABA was so high that the high-affinity [³H]GABA binding could not be determined. In contrast when the frozen-thawed CSM were incubated at 37° for 30 min with or without Triton X-100 or phospholipase C and then washed repeatedly, there was a virtual disappearance of GABA from the supernatant extracts and the binding constants of [³H]GABA to CSM could be determined. Two apparent populations of [³H]GABA binding sites, one with a low- and the other with a high-affinity constant, were detected. The ratio of the number of high- to low-affinity binding sites varies with the method used to prepare the membranes. The lowest value of this ratio was observed with membranes incubated at 37° for 30 min. However, when frozen-thawed CSM were treated with 0.05% Triton X-100 repeatedly, the ratio of the number of high- to low-affinity binding sites increased progressively. This increase in ratio is due to a selective increase in the number of the high-affinity sites without significant changes in the number of the low-affinity sites. The extent of the increase in the number of sites that bind [³H]GABA with high affinity after repeated Triton X-100 treatments was paralleled by a decrease of an endogenous protein which inhibits GABA binding. The reapplication of this endogenous material to membranes repeatedly treated with Triton X-100 reduces the number of high-affinity binding sites for [³H]GABA to values similar to those measured in membranes that were not treated with Triton X-100. The inhibitory preparation extracted from CSM incubated with Triton X-100 was shown to be free of GABA or phospholipids. The gel filtration chromatography reveals the presence of two molecular forms of the inhibitor; of these, the high-molecular-weight material fails to bind GABA, whereas the low-molecular-weight material appears to bind GABA. The high-molecular-weight endogenous inhibitor has been termed GABA modulin.     

The external anion binding site of the human erythrocyte anion transporter: DNDS binding and competition with chloride

Summary The interaction between chloride and the anion transport inhibitor DNDS (4,4-dinitro stilbene-2,2-disulfonate) at the external anion binding site of the human erythrocyte anion transporter was examined by two techniques: a) chloride tracer flux experiments in the presence of varying concentrations of DNDS, and b) DNDS equilibrium binding experiments in the presence of varying concentrations of intracellular and extracellular chloride, Cl _i and Cl _o . DNDS inhibited competitively the Cl _o -stimulated chloride efflux from intact red cells at 0°C and pH 7.8 with an inhibitor constant of 90nm. Under the same conditions DNDS bound reversibly to one class of binding sites on intact cells with a capacity of 8.5×10⁵ molecules/cell. Cl _o competitively inhibited DNDS binding with an inhibitor constant of 6mm. In the absence of Cl _o the DNDS binding constant was 84mm. The competition between chloride and DNDS was also tested in nystatintreated cells in which Cl _o always equaled Cl _i . Under these conditions the values of the DNDS binding constant and the chloride inhibitor constant were significantly larger. All these data were in quantitative agreement with a single-site, alternating access kinetic scheme with ping-pong-type kinetics that we have previously developed for modeling chloride exchange transport. The data also served to rule out special cases of an alternative two-sited sequential-type kinetic scheme. DNDS binding experiments were also performed at 10 and 20°C. We found that neither the DNDS binding constant nor the Cl _o inhibitor constant were significantly changed compared to 0°C.     

Thermal stability and thermodynamic analysis of native and methoxypolyethylene glycol modified trypsin

Four methoxypolyethylene glycols (MPEG, molecular masses 350, 750, 2000 and 5000 Da), each activated by nitrophenyl chloroformate, were used to modify trypsin. Compared with the native trypsin, the MPEG-modified trypsin was more stable against temperature between 30°C and 70°C, longer chain of MPEG moiety corresponding to higher thermal stability. The T for the native and the modified trypsin (0.4 mg ml^–1) was increased from 47°C to 66°C. The stabilization effect caused by MPEG modification was the result of decreasing in both the autolysis rate and the thermal denaturation rate. The thermodynamic analysis of the thermal denaturation process showed that the activation free energy (G^*) of the native and the modified trypsin at 60°C was increased from 102.9 to 109.3 kJ mol^–1; the activation enthalpy (H^*) was increased from 57.4 to 86.9 kJ mol^–1; the activation entropy (S^*) was increased from –136 to –67 J molK^–1. A possible explanation for the decreased thermal denaturation rate caused by MPEG modification was also discussed.     

Cytochemical detection of mannose-specific receptors for glycoproteins with horseradish peroxidase as a ligand

Summary Horseradish peroxidase (HRP), a glycoprotein rich in mannose groups, was used as a ligand to detect receptors for glycoproteins in formalinfixed, frozen sections of rat liver. Specific binding of HRP occurred to surface membranes of sinusoidal cells but not to those of parenchymal cells. The binding sites were visualized after the peroxidatic reaction in erythrocytes had been suppressed by methanol-H₂O₂ and phenylhydrazine, the latter reagent also decreasing the nonspecific background adsorption of HRP. Several factors influencing the reaction were studied systematically. The specific binding of HRP to sinusoidal cells was greatly decreased or abolished when tissue blocks were fixed for longer than 1–2 h in a cold 4% formaldehyde solution and the frozen sections subsequently treated for 30 min in cold methanol. The specific binding of HRP increased when the concentration of HRP in the medium was increased from 10 g/ml to 40 g/ml, when the time of incubation with HRP was increased from 1 h to 4 h, or when the temperature of incubation with HRP was increased from 4°C to 22°C, or from 22°C to 37°C. The specific binding of HRP also increased when the pH of the incubation medium was increased from 7.0 to 10.0. Little or no specific binding of HRP was observed in the absence of added Ca⁺⁺. The binding of HRP was suppressed by 10 mM mannose or 0.004% mannan whereas the suppression of the binding reaction by galactose or galactan required 30–40 times higher concentrations.This work was supported by the Morris A. Kaplan Fund     

Neurochemical,pharmacological, and developmental studies on cerebellar receptors for dicarboxylic amino acids

Specific binding ofl-[³H]glutamate ([³H]Glu) andl-[³H]asparate ([³H]Asp) to cerebellar membranes represented a time-, temperature- pH- and protein-dependent interaction which was both saturable and reversible. Binding sites for both radioligands appeared maximally enriched in synaptosomal fractions isolated by gradient centrifugation. Kinetically derived dissociation constant (K _off/K _on=K _d) for [³H]Glu binding to this fraction indicated high-affinity (443 nM). Competition experiments employing analogs of excitatory amino acids, including new antagonists, helped identify binding sites for [³H]Glu and [³H]Asp as receptors with differential pharmacological, specificities. Membrane freezing reduced numbers of both receptor types, but binding activity could be recovered partially by incubation at 37°C. Glu receptors exhibited a pronounced deleterious sensitivity to thiol modifying reagents andl-Glu (50–1000 M) provided protection, against these compounds during co-incubation with cerebellar membranes. It is suggested that cold storage may induce partially reversible receptor inactivation by promoting sulfhydryl group/bond modification. Rat cerebellar glutamatergic function (endogenous Glu content, Glu uptake and receptor sites) exhibited an apparent ontogenetic peak between days 8–12 postpartum with a plateauing profile from day 30 to adulthood. The accelerated development (days 8–12) coincides with the first demonstrable Glu release and kainic acid neurotoxicity, as described previously.     

Contribution of methanol to the production of methane and its <Superscript>13</Superscript>C-isotopic signature in anoxic rice field soil

Conversion of methanol to CH₄ has a large isotope effect so that a small contribution of methanol-dependent CH₄ production may decrease the ¹³CH₄ of total CH₄ production. Therefore, we investigated the role of methanol for CH₄ production. Methanol was not detectable above 10 M in anoxic methanogenic rice field soil. Nevertheless, addition of ¹³C-labeled methanol (99% enriched) resulted in immediate accumulation of ¹³CH₄. Addition of 0.1 M ¹³C-methanol resulted in increase of the ¹³CH₄ from –47 to –6 within 2 h, followed by a slow decrease. Addition of 1 M ¹³C-methanol increased ¹³CH₄ to +500 within 4 h, whereas 10 M increased ¹³CH₄ to +2500 and continued to increase. These results indicate that the methanol concentrations in situ, which diluted the ¹³C-methanol added, were 0.1 M and that the turnover of methanol contributed only about 2% to total CH₄ production at 0.1 M. However, contribution increased up to 5 and 17% when 1 and 10 M methanol were added, respectively. Anoxic rice soil that was incubated at different temperatures between 10 and 37 °C exhibited maximally 2–6% methanol-dependent methanogenesis about 1–2 h after addition of 1 M ¹³C-methanol. Only at 50 °C, contribution of methanol to CH₄ production reached a maximum of 10%. After longer (7–10 h) incubation, however, contribution generally was only 2–4%. Methanol accumulated in the soil when CH₄ production was inhibited by chloroform. However, the accumulated methanol accounted for only up to 0.7 and 1.2% of total CH₄ production at 37 and 50 °C, respectively. Collectively, our results show that methanol-dependent methanogenesis was operating in anoxic rice field soil but contributed only marginally to total CH₄ production and the isotope effect observed at both low and high temperature.     

Binding Features of BCL2‐Targeted Oligodeoxynucleotides with K562 Cells

Delivery of various oligodeoxynucleotides into cells is mediated by binding to certain surface proteins followed by receptor‐mediated endocytosis. Moreover, oligonucleotides are able to provoke perturbation of cell surface proteins and growth factor receptors among them. Here we described binding sense BCL2 oligodeoxynucleotide targeted to translation start of BCL2 mRNA (ODN) with K562 cells. At low concentration ODN bound efficiently with K562 and penetrated into the cells via binding cell surface with rather high affinity and priming new binding sites. The loose binding constant at 4°C was 1.8 × 10⁹ M^? 1 both for binding ODN in solution and ODN‐associated liposome. The number of loose binding sites under both treatments was rather high: 4.6 to 6.6 pmoles per 10⁶ cells. The extent of ODN penetration into the cells showed higher potential site numbers than initially seen and reached 8.6 pmoles per 10⁶ cells for four hours incubation at 37°C.     

Interaction of [3H]dipyridamole with the nucleoside transporters of human erythrocytes and cultured animal cells

Summary Equilibrium binding of [³H]dipyridamole identified high-affinity (K _i 10nm) binding sites on human erythrocytes (5×10⁵ sites/cell) and on HeLa cells (5×10⁶ sites/cell). The equilibration of dipyridamole with these sites on human erythrocytes was compatible with a second-order process which proceeded at 22°C with a rate constant of about 6×10⁶ m ^–1 sec^–1. Binding of dipyridamole to these sites correlated kinetically with the inhibition of the equilibrium exchange of 500 m uridine in these cells and was inhibited in a concentration-dependent manner by nucleosides and other inhibitors of nucleoside transport, such as nitrobenzylthioinosine, dilazep and lidoflazine, but not by hypoxanthine, which is not a substrate for the nucleoside transporter of human erythrocytes. The results indicate that the substrate binding site of the transporter is part of the high-affinity dipyridamole binding site. Bound [³H]dipyridamole became displaced from these sites on human erythrocytes by incubation with an excess of unlabeled dipyridamole or high concentrations of nucleosides and inhibitors of nucleoside transport, but neither by hypoxanthine nor sugars. Dissociation of [³H]dipyridamole behaved as a simple first-order process, but the rate constant was about one order of magnitude lower (about 3×10^–3 sec^–1) than anticipated for typical ligand-protein binding on the basis of the measured association rate and equilibrium constants. The reason for this discrepancy has not been resolved. No high-affinity dipyridamole binding sites were detected on Novikoff rat hepatoma cells, P388, L1210 and S49 mouse leukemia cells or Chinese hamster ovary cells, and their absence correlated with a greater resistance of nucleoside transport in these cells to inhibition by dipyridamole. All cells expressed considerable low affinity (K _d>0.5 m) and nonspecific binding of dipyridamole.     

Beta-adrenergic ([3H]CGP-12177) binding to brain slices and single intact pineal glands

We have characterized and quantified the binding of [³H]CGP-12177 to -adrenergic receptor sites in slices (300 microns) of rat cerebral cortex. The receptors are stereospecific, saturable and of high affinity. Binding of [³H]CGP is readily reversible and demonstrates appropriated drug specificty. This assay method allows the demonstration of isoproterenol-induced down-regulation (internalization) of -adrenoreceptors. Receptor recycling is observed at 37°C in the absence of -agonist but can be blocked by low temperature (0°C) or by monensin. -Adrenoreceptors can also be labeled and quantified in intact, single pineal glands of rat, mouse and hamster. Rat pineals contain approximately 10 times more binding sites than do hamster or mouse pineals and up to 8 times more sites than found in rat cerebral cortex. Rat pineal [³H]CGP binding can be up- and down-regulated but not to the same degree as seen in brain slices. This assay method is simple, rapid and provides new opportunities for the study of other receptor types in intact tissue.     

Characterization of the interaction between fibronectin andTreponema pallidum

The interaction betweenTreponema pallidum and rabbit plasma fibronectin was characterized. Fibronectin was isolated from rabbit plasma and radioiodinated by the lactoperoxidase method. Fibronectin bound to the surface ofT. pallidum, reaching saturation at approximately 54 g/ml. The association affinity constant was 2.85×10⁷ M ^–1, much lower than that ofStaphylococcus aureus (5.6×10⁹ M ^–1) Fibronectin binding plateaued within 15 min at 20° and 37°C, with some reelution at 37°C by 30 min. Little fibronectin, bound toT. pallidum at 4°C. The greatest amount of fibronectin was bound at the lowest pH tested (pH 6.0); the poorest binding was at pH 7.5. Approximately 90% of the binding was reversible in the presence of excess unlabeled fibronectin. The data indicate a more dynamic and weaker interaction betweenT. pallidum and fibronectin than that seen withS. aureus.     

Kainate receptor modification in the fetal guinea pig brain during hypoxia

The present study tests the hypothesis that hypoxia alters the high-affinity kainate receptors in fetal guinea pig brain. Experiments were conducted in normoxic and hypoxic guinea pig fetus at preterm (45 days of gestation) and term (60 days of gestation). Hypoxia in the guinea pig fetus was induced by exposure to maternal hypoxia (FiO₂=7%) for 60 min. Brain tissue hypoxia in the fetus was documented biochemically by decreased levels of ATP and phosphorreatine. [³H]-Kainate binding characteristics (Bmax=number of receptors, Kd=dissociation constant) were used as indices of kainate receptor modification. P₂ membrane fractions were prepared from the cortex of normoxic and hypoxic fetuses and were washed six times prior to performing the binding assays. [³H]kainate binding was performed at 0°C for 30 min in a 500 l medium containing 50 mM Tris-HCl buffer, 0.1 mM EDTA (pH 7.4), 300 g protein and varying concentrations of radiolabelled kainate ranging from 1 to 200 nM. Non-specific binding was determined in the presence of 1.0 mM glutamate. During brain development from 45 to 60 days gestation, Bmax value increased from 330±16 to 417±10 fmoles/mg protein; however, the Kd was unchanged (8.2±0.4 vs 8.8±0.5 nM, respectively). During hypoxia at 60 days, the Kd value significantly increased as compared to normoxic control (15.5±0.7 vs 8.8±0.5 nM, respectively), whereas the Bmax was not affected (435±12 vs 417±10 fmol/mg protein, respectively). At 45 days, hypoxia also increased the Kd (11.9±0.6 vs 8.2±0.4 nM) without affecting the Bmax (290±15 vs 330±16 fmol/mg protein, respectively). The results show that the number of kainate receptors increase during gestation without change in affinity and demonstrate that hypoxia modifies the high-affinity kainate receptor sites at both ages; however the effect is much stronger at 60 days (term). The decreased affinity of the site could decrease the kainate receptor-mediated fast kinetics of desensitization and provide a longer period for increased Na⁺-influx, leading to increased accumulation of intracellular Ca²⁺ by reversal of the Na⁺–Ca²⁺ exchange mechanism. In addition, Kd values for kainate-type glutamate receptor sites are 30–40 fold lower (i.e. higher affinity) than those for NMDA-displaceable glutamate sites. The higher affinity suggests that the activation of the kainate-type glutamate receptor during hypoxia could precede initiation of NMDA receptormediated excitotoxic mechanisms. We propose that hypoxia-induced modification of the high affinity kainate receptor in the fetus is a potential mechanism of neuroexcitotoxicity.     

Heat Resistance and Thermal Acclimation Rate in Tropical Tetra <Emphasis Type="Italic">Astyanax bimaculatus</Emphasis> of Venezuela

Venezuelan river tetra, Astyanax bimaculatus juveniles of 34.1–36.7mm standard length and 0.83–1.0g wet weight were acclimated for four weeks to 24–33°C, which are approximate average minimum and maximum river temperatures throughout the year. The fish acclimated to 24, 27, 30, and 33°C were exposed for 10000 minutes at 35, 36, 37, 38, and 39°C to determine individual heat resistance times. To determine acclimation rates, the juveniles acclimated to 24 and 30°C were tested for individual heat resistance times at 39°C by changing acclimation temperatures. The individual heat resistance times were increased in accordance with an increase in acclimation temperature and a decrease in test temperature, indicating that acclimation level has a great influence on thermal resistance of the fish tested. As the fish were transferred from 24 to 30°C (upward acclimation), they completed their acclimation level in a few days, while those transferred from 30 to 24°C (downward acclimation) required about 14 days. It has reaffirmed the following general behavior: the rate of gain in thermal resistance is fast and the loss in heat tolerance is very slow. This physiological phenomenon is very important for tropical fish, which acclimates rapidly in rising temperature during the hot day and does not lose this level in decreasing temperature during the cool night. Consequently, a tropical fish can maintain its maximum resistance level, adapt well in thermally fluctuating tropical waters, and survive in lethally high temperatures caused by a sudden increase in temperature during hot day.     

Cloning,expression, and biochemical characterization of 3-deoxy-<Emphasis Type="SmallCaps">d</Emphasis>-<Emphasis Type="Italic">manno</Emphasis>-2-octulosonate-8-phosphate (KDO8P) synthase from the hyperthermophilic bacterium<Emphasis Type="Italic"> Aquifex pyrophilus</Emphasis>

3-Deoxy-d-manno-2-octulosonate-8-phosphate (KDO8P) synthase, catalyzes the aldol-type condensation between phosphoenolpyruvate (PEP) and d-arabinose-5-phosphate (A5P) to produce the unusual 8-carbon sugar KDO8P, and inorganic phosphate. A 15.5-kb segment containing the kdsA gene from the hyperthermophilic bacterium Aquifex pyrophilus was cloned from a genomic library and sequenced. The native kdsA gene lacks a typical ribosome binding site, but contains a conserved U,A-rich sequence upstream to the start codon. The purified kdsA gene product catalyzes the formation of KDO8P from its natural substrates, PEP and A5P, as determined by ¹H NMR analysis. KDO8P synthase showed maximum activity at 80 °C and pH 5.5–6.0 at 10-min reaction assay. At temperatures of 70, 80, and 90 °C, the enzyme exhibited half-lives of 8.0, 2.25, and 0.5 h, respectively. The kinetic constants at 60 °C were K_m^A5P=70 M, K_m^PEP=290 M, and k_cat=4 s^–1. The isolated enzyme contained 0.19 and 0.26 mol iron and zinc, respectively, per mole of enzyme subunit. Treatment with metal chelators eliminated enzyme activity, and by the addition of several divalent metal ions, the activity was restored and even exceeded the original activity. These results indicate that A. pyrophilus KDO8P synthase is a metal-dependent enzyme. A C11A mutant of KDO8P synthase from A. pyrophulis retained less than 1% of the wild-type activity and was shown to be incapable of metal binding.Communicated by G. Antranikian     

Cold activation of Na influx through the Na-H exchange pathway in guinea pig red cells

Summary Previous work showed that amiloride partially inhibits the net gain of Na in cold-stored red cells of guinea pig and that the proportion of unidirectional Na influx sensitive to amiloride increases dramatically with cooling. This study shows that at 37°C amiloride-sensitive (AS) Na influx in guinea pig red blood cells is activated by cytoplasmic H⁺, hypertonic incubation, phorbol ester in the presence of extracellular Cat²⁺ and is correlated with cation-dependent H⁺ loss from acidified cells. Cytoplasmic acidification increases AS Na efflux into Na-free medium. These properties are consistent with the presence of a Na-H exchanger with a H⁺ regulatory site. Elevation of cytoplasmic free Mg^2– above 3 mm greatly increases AS Na influx: this correlates with a Na-dependent loss of Mg^2–, indicating the presence of a Na-Mg exchanger.At 20°C activators of Na-H exchange have little or no further stimulatory effect on the already elevated AS Na influx. AS Na influx is much larger than either Na-dependent H⁺ loss or AS Na efflux at 20°C. The affinity of the AS Na influx for cytoplasmic H⁺ is greater at 20°C than at 37°C. Depletion of cytoplasmic Mg²⁺ does not abolish the high AS Na influx at 20°C.Thus, elevation of AS Na influx with cooling appears to be due to increased activity of a Na-H exchanger (operating in a slippage mode) caused by greater sensitivity to H⁺ at a regulatory site.     

Thermo-osmoregulation of Heat-Labile Enterotoxin Expression by <Emphasis Type="Italic">Escherichia coli</Emphasis>

Abstract:Enterotoxigenic Escherichia coli causes diarrhea by producing several virulence factors including heat-labile enterotoxin (LT). LT is maximally expressed at 37°C. The histone-like nucleoid structuring protein (H-NS) appears to inhibit LT expression by binding to a downstream regulatory element (DRE) at low temperatures. An hns⁺ E. coli strain, X7026, carrying an LT–beta-galactosidase translational fusion plasmid (pLT-lac) was shown to be responsive to varying amounts of sodium chloride (NaCl) as well as sucrose or lithium chloride. Maximal responsiveness to the various osmolytes was obtained with cells grown at 37°C under microaerophilic conditions. Temperature-osmotic upshift experiments demonstrate LT expression is thermo-osmoregulated. pLT-lac was tested in an hns strain or its congenic hns⁺ strain for its response to NaCl. LT expression is elevated in the hns strain regardless of NaCl concentration and retains its osmoresponsiveness. The response of the DRE deletion plasmid (pLT-lacNC) to NaCl is similar to that of the undeleted plasmid.