Changes in Concentration of Calcium Ions and the Rhythm of Protein Synthesis in the Culture of Hepatocytes

We studied the effects of the chelating agents of extra- and intracellular calcium ions, EGTA and BAPTA-AM, and of the inhibitor of Ca²⁺release from the reticulum, TMB-8, in the kinetics of protein synthesis in hepatocyte cultures. We also studied dense cultures capable of self-synchronization of protein synthesis oscillations and diluted cultures, in which synchronization is induced by phenylephrine or gangliosides (standard preparation of total gangliosides from the bovine brain). Preincubation of the diluted or dense cultures in the presence of 2 mM EGTA for 1–2 h with subsequent protein assay in a medium with EGTA did not affect the kinetics of protein synthesis: no rhythm was found in the diluted cultures, while it was preserved in the dense cultures. When the diluted cultures preincubated in the presence of EGTA were placed in a medium with EGTA and 2 M phenylephrine for 2 min, the rhythm was visualized. The treatment of diluted cultures with 100 M TMB-8 for 5 or 10 min with subsequent washing and incubation in a medium with 3 M gangliosides led to visualization of the protein synthesis rhythm, i.e., to the synchronization of oscillations, while no rhythm was found in the standard cultures. Preincubation of the diluted cultures in a medium with 10, 15, or 20 M BAPTA-AM for 1 h did not affect the kinetics of protein synthesis. When, after such preincubation, the diluted cultures were placed in the medium with gangliosides, the rhythm was visualized. In the dense cultures, normally capable of self-synchronization, no rhythm of protein synthesis was found after their treatment with 10–20 M BAPTA-AM for 1 h. The transfer of such cultures in the medium with gangliosides led to visualization of the rhythm. Thus, calcium affects the kinetics of protein synthesis: after the rise of Ca²⁺in the cytoplasm was blocked, the rhythm of protein synthesis was not visualized due, supposedly, to disturbed mechanisms of medium conditioning. However, exogenous gangliosides in the dense or diluted cultures preincubated in the presence of BAPTA-AM ore TMB-8 allowed the rhythm visualization, i.e., synchronization may not depend on changes in the intracellular calcium concentration.     

Brief fasting decreases protein synthesis in the brain of adult rats

The influence of starvation on protein synthesis in the adult rat brain was studied in vivo by an intravenous injection of a flooding dose of unlabeled valine including a tracer dose ofL-[3,4(n)-³H]valine. Brief starvation (24 hours) induced a 20% decline in fractional and absolute rates of brain protein synthesis. This decline resulted from a 20% decrease in the efficiency of protein synthesis (g protein synthesized per day per g RNA) whereas the capacity for protein synthesis (g RNA per mg protein) was maintained. Prolonged starvation (5 days) was marked by no further significant changes in the fractional rate, absolute rate and efficiency of protein synthesis, whereas the capacity for protein synthesis cecreased slightly. The relative contribution of brain to wholebody body protein synthesis increased during fasting, and neither the protein nor the RNA brain content did change during the experiment. These results clearly indicate that brain proteins are spared in response to brief and prolonged food deprivation, and that brain protein synthesis is very sensitive to short-term fasting.     

Formation of [13C]- and [14C]zearalenone by Fusarium graminearum DSM 4529

Summary To raise the yields for the production of ¹⁴C-labelled zearalenone in Fusarium cultures the influence of growth conditions and known effectors or precursors of toxin biosynthesis was studied. Benzoic acid and 2,4-dihydroxybenzoic acid used as precursors decreased toxin formation; in the presence of different pesticides such as 2,4-dichlorophenoxyacetic acid, however, toxin production increased up to 140%. The known pathway of zearalenone biosynthesis could be confirmed from the relative extents of ¹³C-incorporation into the zearalenone molecule by incubating Fusarium graminearum DSM 4529 with d-(+)-[1-¹³C]glucose as carbon source. When grown in the presence of d-[U-¹⁴C]glucose or [2-¹⁴C]malonic acid the strain produced [¹⁴C]zearalenone with specific activities of 0.07 and 0.09 Ci/mg, the ¹⁴C-incorporation rates being 0.34% and 0.48%, respectively.     

Measurement of local rates of brain protein synthesis by quantitative autoradiography: Validation with L-[3H]valine

Following the injection of 4-day old rats with 150 mMl-[3,4-³H]valine (10mol/g, IP) the incorporation of³H into protein was linear 2 hours. Valine specific activity in the brain acid-soluble fraction was constant between 30 and 120 min after injection with a mean value of 82.3% of the injectate. Significant amounts of tritated metabolites accumulated in the brain acid-soluble fraction (41.4% of radioactivity at 120 min) but do not prove an impediment to measuring rates of protein synthesis. The rate of protein synthesis in cerebral cortex of the 4-day old rat was measured by quantitative autoradiography using [³H]valine and³H-sensitive film. The measured rate shows excellent agreement with that found previously usingl-[1-¹⁴C]valine. Our results suggest that [³H]valine can be a useful precursor to measure local rates of brain protein synthesis by quantitative autoradiography.     

Regeneration of resistance and ion transport in rabbit corneal epithelium after induced surface cell exfoliation

Summary Exposure of the rabbit corneal surface to a 20-m digitonin-0.9% NaCl solution leads to permeabilization of the most superficial cells of the stratified epithelium. The devitalized cells exfoliate spontaneously from the corneal surface. Detergent exposure limited to 4–8 min leads to permeabilization and rapid exfoliation of a monolayer of surface cells. Consistent with the presence of the epithelial paracellular permeability barrier in this cell layer, their permeabilization results in complete loss of transepithelial resistance (R _t ). Within minutes after detergent removal an initial recovery ofR _t can be noticed indicating generation of a new paracellular permeability barrier by the viable subsurface cells. This recovery proceeds rapidly andR _t reaches within 70 min a maximum equal to > 90% of the preexfoliation values (=2.43 k·cm²,n=22). TheR _t recovery is fully blocked in a reversible manner by 10 m dihydrocytochalasin B. The recovery is not affected by inhibition of protein synthesis with 5 m cycloheximide. When the ocular surface is treated again with digitonin the permeabilization and exfoliation of a monolayer of cells and loss ofR _t are repeated. After the second detergent exposure an initial recovery ofR _t occurs as before within minutes. However, the pace ofR _t recovery is much slower: 4–5 hr are required to reach a stable maximalR _t values amounting to about 73% of initial control. This recovery can be fully blocked by 5 m cycloheximide indicating that protein synthesis is required for generation of tight junctions by the second subcellular layer. With only a fraction ofR _t recovered, short-circuit currents amounting to, at least, 50% of control values and attributable in part to cell-to-tear movement of Cl^– through the apical surface can be measured. This suggests that apical-type Cl^– channels are either present in the apically facing membrane of subsurface cells or that they are rapidly inserted in it from preexisting intracellular pools immediately following the devitalization of the surface cells by digitonin.     

Long term regulation of nucleoside transport by thyroid hormone (T3) in cultured chromaffin cells

The adenosine transport in cultured chromaffin cells was increased by the presence of triiodo-l-thyronine (T₃) throughout the prolonged period studied. The V_max values of this transport obtained in absence and presence of 1 M T₃ were 36.21±2.1 and 44.17±3.5 (means±SD) pmol/10⁶cells/min respectively for 26 hours incubation-time with the hormone. The K_m values were not significantly modified. The number of adenosine transporters in cultured chromaffin cells, measured by [³H]nitrobenzylthioinosine (NBTI) binding, was increased by 1 M T₃ for 26 hours incubation-time. The values of binding sites per cell were 33,500±3,000 and 40,153±3,700 in absence and presence of T₃ respectively, without changing the K_d constant. When the transport studies were carried out in presence of cycloheximide, an inhibitor of protein synthesis, the adenosine transport capacity decreased with a half-life values of 23.9±2.8 and 24.3±2.1 hours both in the presence or absence of T₃ respectively. When cells were incubated in the presence of both T₃ and cycloheximide, not only the activatory effect of T₃ was completely abolished but also adenosine transport was decreased to the same extent as with cycloheximide alone. These results indicated that T₃ activation of adenosine transport in chromaffin cells required the protein-synthesizing mechanism.     

The toxin helothermine affects potassium currents in newborn rat cerebellar granule cells

Helothermine, a recently isolated toxin from the venom of the Mexican beaded lizard Heloderma horridum horridum was tested on K⁺ currents of newborn rat cerebellar granule cells. In whole-cell voltageclamp experiments, cerebellar granule neurons exhibited at least two different K⁺ current components: a first transient component which is similar to an I _A-type current, is characterized by fast activating and inactivating kinetics and blocked by 4-aminopyridine; a second component which is characterized by noninactivating kinetics, is blocked by tetraetylammonium ions and resembles the classical delayed-rectifier current. When added to the standard external solution at concentrations ranging between 0.1 and 2 m helothermine reduced the pharmacologically isolated I _A-type current component in a voltage- and dose-dependent way, with a half-maximal inhibitory concentration (IC₅₀) of 0.52 m. A comparison between control and nelothermine-modified peak transient currents shows a slowdown of activation and inactivation kinetics. The delayed-rectifier component inhibition was concentration dependent (IC₅₀ = 0.86 m) but not voltage dependent. No frequency-or use-dependent block was observed on both K⁺ current types. Perfusing the cells with control solution resulted in quite a complete current recovery. We conclude that helothermine acts with different affinities on two types of K⁺ current present in central nervous system neurons.     

Production of anti-rubratoxin antibody and its use in a radioimmunoassay for rubratoxin B

Rubratoxin B was coupled to ovalbumin using l-ethyl-3-(3-dimethyaminopropyl) carbodiimide HCl (ECDI) in high concentration at pH 8.O. Under these conditions it was possible to couple 13 moles of rubratoxin B per mole of ovalbumin. The conjugate was used for immunization of rabbits, and anti-rubratoxin antibody was produced. A radioimmunoassay for rubratoxin B was developed which could detect 0.1 g 10 g of toxin using 0.21 g of [¹⁴C] rubratoxin (0.47 Ci/mole, 2.0×10⁹ dpm/g) and 0.125 ml of anti-rubratoxin antibody.Rubratoxicosis was first described in 1957 by Burnside et al. (3) after finding that corn infected with Penicillium rubrum Stoll caused death in swine. Wilson and Wilson (20, 21) reported the isolation of the toxic substance from cultures of P. rubrum in 1962, and the structure of rubratoxin B, shown in Fig. 1, was subsequently determined by Moss (12, 13).Although the gross and histopathological lesions induced by rubratoxin B have been described (3, 19, 22), there are no clinical, pathological or biochemical changes which are specific for the diagnosis of rubratoxicosis (15). It is therefore necessary to isolate the toxin to show its presence. This is only possible with feed samples when there is a large quantity available for extraction, because the 0.5 g sensitivity of the current technique (8) is not sufficient to detect residue from a lethal dose of ingested rubratoxin in animal tissue.It was the purpose of this study to investigate the possibility of adapting the more sensitive radioimmunoassay to the detection of rubratoxin B.Presented in partial fulfillment of the requirements for the degree Master of Science at Iowa State University, Ames, IA 50010.     

Biochemical correlates of progesterone-induced plasma membrane depolarization during the first meiotic division inRana oocytes

Summary Changes in protein synthesis, protein phosphorylation and lipid phosphorylation in the amphibian oocyte plasma membrane have been correlated with electrical changes following steroid induction of the completion of the first meiotic division. The oocyte first depolarizes from about –60 mV (inside negative) to about –25 mV 1 to 2 hr before breakdown of the large nucleus followed by a further depolarization beginning 3 to 6 hr after nuclear breakdown. The initial depolarization is associated with appearance of previously described cycloheximide-sensitive cytoplasmic factor(s) which induce both nuclear breakdown and plasma membrane depolarization. We found a similar ED₅₀ (0.4 m) for cycloheximide inhibition of nuclear breakdown, membrane depolarization, and [³H]-leucine incorporation. Emetine (1nm to 1mm) was inactive. The period of cycloheximide sensitivity (first 5 hr) is essentially the same for plasma membrane depolarization phase following nuclear breakdown is associated with a marked increase in the rate of [³H]-leucine and [³²PO₄] incorporation into membrane protein and lipid. Polyacrylamide gel electrophoresis of membrane protein and lipoprotein indicated that a major newly synthesized membrane component is proteolipid. An increase in [³²PO₄] incorporation into membrane phosphatidylserine and phosphatidylethanolamine (with a decrease in phosphatidylcholine [³²PO₄] begins during the second depolarization phase and coincides with the appearance of excitability in the oocyte plasma membrane. In toto, the bulk of the biochemical changes (proteins, phosphoproteins, proteolipids, phospholipids) appear to be associated with plasma membrane components and coincide with stepwise changes in membrane permeability to specific ions (e.g. Cl^–).     

Purification,characterization and regulation of a monomeric l-phenylalanine dehydrogenase from the facultative methylotroph Nocardia sp. 239

In Nocardia sp. 239 d-phenylalanine is converted into l-phenylalanine by an inducible amino acid racemase. The further catabolism of this amino acid involves an NAD-dependent l-phenylalanine dehydrogenase. This enzyme was detected only in cells grown on l- or d-phenylalanine and in batch cultures highest activities were obtained at relatively low amino acid concentrations in the medium. The presence of additional carbon- or nitrogen sources invariably resulted in decreased enzyme levels. From experiments with phenylalanine-limited continuous cultures it appeared that the rate of synthesis of the enzyme increased with increasing growth rates. The regulation of phenylalanine dehydrogenase synthesis was studied in more detail during growth of the organism on mixtures of methanol and l-phenylalanine. Highest rates of l-phenylalanine dehydrogenase production were observed with increasing ratios of l-phenylalanine/methanol in the feed of chemostat cultures. Characteristic properties of the enzyme were investigated following its (partial) purification from l- and d-phenylalanine-grown cells. This resulted in the isolation of enzymes with identical properties. The native enzyme had a molecular weight of 42 000 and consisted of a single subunit; it showed activity with l-phenylalanine, phenylpyruvate, 4-hydroxyphenyl-pyruvate, indole-3-pyruvate and -ketoisocaproate, but not with imidazolepyruvate, d-phenylalanine and other l-amino acids tested. Maximum activities with phenylpyruvate (310 mol min^-1 mg^-1 of purified protein) were observed at pH 10 and 53°C. Sorbitol and glycerol stabilized the enzyme.Abbreviations RuMP ribulose monophosphate - HPS hexulose-6-phosphate synthase - HPT hexulose-6-phosphate isomerase - FPLC fast protein liquid chromatography     

Transport of monoamine and amino acid neurotransmitters by primary astroglial cultures

The transport of [³H]l-glutamate, [³H]l-aspartate, [³H]-aminobutyric acid ([³H]GABA), [³H]dopamine, [³H]norepinephrine and [³H]5-hydroxytryptamine (³H-5-HT) was measured in primary astroglial cultures from newborn rat cerebral hemispheres. There was a high-affinity uptake with aK _m of 69.0 M for L-glutamate, 12.3 M forl-aspartate and 3.1 M for GABA. The uptake showed properties of high capacity with aV _max of 17.0 nmol·mg prot^–1·min^–1 forl-glutamate, 1.1 nmol·mg prot^–1·min^–1 forl-aspartate and 0.04 nmol·mg prot^–1·min^–1 for GABA. No high-affinity high capacity transport system was found for the monoamines studies. Autoradiographic examination demonstrated a heavy deposit of grains suggesting a prominent accumulation of [³H]l-glutamate and [³H]l-aspartate in the astroglial-like cells of the cultures, while the [³H]GABA accumulation was less intense. On the other hand, there was only a weak accumulation of grains after incubating the cultures with [³H]dopamine, [³H]norepinephrine or [³H]5-HT. Thus, astroglial cells in culture accumulate amino acid neurotransmitters and monoamines in different ways with a high-affinity high-capacity uptake of glutamate, aspartate and GABA and a diffusion-uptake of dopamine, norepinephrine and 5-HT.     

Amino acid and monoamine transport in primary astroglial cultures from defined brain regions

The uptake ofl-[³H]glutamate,l-[³H]aspartate, -[³H]aminobutric acid (GABA), [³H]dopamine,dl-[³H]norepinephrine and [³H]5-hydroxytryptamine (5-HT) was studied in astrocytes cultured from the cerebral cortex, striatum and brain stem of newborn rat and grown for 2 weeks in primary cultures. The astrocytes exhibited a high-affinityl-glutamate uptake withK _m values ranging from 11 to 110 M.V _max values were 4.5 in cerebral cortex, 39.1 in striatum, and 0.4 in brain stem, nmol per mg cell protein per min. There was a less prominent high-affinity uptake ofl-aspartate withK _m values from 88 to 187 M.V _max values were 7.4 in cerebral cortex, 37.1 in striatum, and 3.1 in brain stem, nmol per mg cell protein per min. The high-affinity GABA uptake exhibitedK _m values ranging from 5 to 17 M andV _max values were 0.01 for cerebral cortex, 0.04 for striatum, and 0.1 for brain stem, nmol per mg cell protein per min. No high-affinity, high-capacity uptake was found for the monoamines. The results demonstrate a heterogeneity among the astroglial cells cultivated from the different brain regions concerning the uptake capacity of amino acid neurotransmitters. Furthermore, amino acid transmitters and monoamines are taken up by the cells in different ways.     

L-lysine is a barbiturate-like anticonvulsant and modulator of the benzodiazepine receptor

Our earlier observations showed thatl-lysine enhanced the activity of diazepam against seizures induced by pentylenetetrazol (PTZ), and increased the affinity of benzodiazepine receptor binding in a manner additive to that caused by -aminobutyric acid (GABA). The present paper provides additional evidence to show thatl-lysine has central nervous system depressant-like characteristics.l-lysine enhanced [³H]flunitrazepam (FTZ) binding in brain membranes was dose-dependent and stimulated by chloride, bromide and iodide, but not fluoride. Enhancement of [³H]FTZ binding byl-lysine at a fixed concentration was increased by GABA but inhibited by pentobarbital between 10^–7 to 10^–3M. While GABA enhancement of [³H]FTZ binding was inhibited by the GABA mimetics imidazole acetic acid and tetrahydroisoxazol pyridinol, the enhancement by pentobarbital andl-lysine of [³H]FTZ binding was dose-dependently increased by these two GABA mimetics. The above results suggest thatl-lysine and pentobarbital acted at the same site of the GABA/benzodiazepine receptor complex which was different from the GABA binding site. The benzodiazepine receptor antagonist imidazodiazepine Ro15-1788 blocked the antiseizure activity of diazepam against PTZ. Similar to pentobarbital, the anti-PTZ effect ofl-lysine was not blocked by Ro15-1788. Picrotoxinin and the GABA, receptor antagonist bicuculline partially inhibitedl-lysine's enhancement of [³H]FTZ binding with the IC₅₀s of 2 M and 0.1 M, respectively. The convulsant benzodiazepine Ro5-3663 dose-dependently inhibited the enhancement of [³H]FTZ binding byl-lysine. This article shows the basic amino acidl-lysine to have a central nervous system depressant characteristics with an anti-PTZ seizure activity and an enhancement of [³H]FTZ binding similar to that of barbiturates but different from GABA.     

Evidence for two modes of Ca2+ entry following muscarinic stimulation of a human salivary epithelial cell line

Summary We have investigated muscarinic receptor-operated Ca²⁺ mobilization in a salivary epithelial cell line, HSG-PA, using an experimental approach which allows independent evaluation of intracellular Ca²⁺ release and extracellular Ca²⁺ entry. The carbachol (Cch) dose response of intracellular Ca²⁺ release indicates the involvement of a single, relatively low-affinity, muscarinic receptor site (K _0.510 or 30 m, depending on the method for [Ca²⁺] _i determination). However, similar data for Ca²⁺ entry indicate the involvement of two Cch sites, one consistent with that associated with Ca²⁺ release and a second higher affinity site withK _0.52.5 m. In addition, the Ca²⁺ entry response observed at lower concentrations of Cch (2.5 m) was completely inhibited by membrane depolarization induced with high K⁺ (>55mm) or gramicidin D (1 m), while membrane depolarization had little or no effect on Ca²⁺ entry induced by 100 m Cch. Another muscarinic agonist, oxotremorine-M (100 m; Oxo-M), like Cch, also induced an increase in the [Ca²⁺] _i of HSG-PA cells (from 72±2 to 104±5nm). This response was profoundly blocked (75%) by the inorganic Ca²⁺ channel blocker La³⁺ (25–50 m) suggesting that Oxo-M primarily mobilizes Ca²⁺ in these cells by increasing Ca²⁺ entry. Organic Ca²⁺ channel blockers (verapamil or diltiazem at 10 m, nifedipine at 1 m), had no effect on this response. The Oxo-M induced Ca²⁺ mobilization response, like that observed at lower doses of Cch, was markedly inhibited (70–90%) by membrane depolarization (high K⁺ or gramicidin D). At 100 m Cch the formation of inositol trisphosphate (IP₃) was increased 55% above basal levels. A low concentration of carbachol (1 m) elicited a smaller change in IP₃ formation (25%), similar to that seen with 100 m Oxo-M (20%). Taken together, these results suggest that there are two modes of muscarinic receptor-induced Ca²⁺ entry in HSG-PA cells. One is associated with IP₃ formation and intracellular Ca²⁺ release and is independent of membrane potential; the other is less dependent on IP₃ formation and intracellular Ca²⁺ release and is modulated by membrane potential. This latter pathway may exhibit voltage-dependent gating.     

Recovery from photoinhibition: effect of light and inhibition of protein synthesis of 32-kD chloroplast protein

Recovery from photoinhibition of photosynthesis in intact Lemna gibba was studied in presence of the protein synthesis inhibitors chloramphenicol and cycloheximide. Exposure to an irradiance of 1000 mol m^-2s^-1 in N₂ for 90 min induced 80% photoinhibition. The plants recovered photosynthesis when transfered to normal irradiances (210 mol m^-2s^-1) and air. Chloramphenicol added to the medium was taken up by the plant and reduced photosynthesis slightly. Recovery from photoinhibition was more inhibited than photosynthesis. Cycloheximide was also taken up by the plants and reduced synthesis of light harvesting chlorophyll protein: however, neither photosynthesis nor recovery were much affected. Synthesis of 32-kD chloroplast protein during recovery was inhibited by chloramphenicol, but not by cycloheximide. Synthesis of 32-kD protein was enhanced by 20–210 mol m^-2s^-1 light. The results support the hypothesis that synthesis of 32-kD protein is important for recovery of photosynthesis after photoinhibition.     

Chloride conductive and cotransport mechanisms in cultures of canine tracheal epithelial cells measured by an entrapped fluorescent indicator

Summary To study Cl conductive and cotransport mechanisms, primary cultures of canine tracheal cells were grown to confluency on thin glass cover slips and on porous filters. Transepithelial resistance was >100 ·cm², and short circuit current (I _sc=2–20 A/cm²), representing active secretion of Cl, increased >threefold with addition of 10 m isoproterenol to the serosal solution. Cells made transiently permeable in hypotonic solution were loaded with the Cl-sensitive fluorophore 6-methoxy-N-(3-sulfopropyl) quinolinium (SPQ) (5mm, 4 min, 150 mOsm). The electrical properties of the cell monolayers were not altered by the loading procedure. Intracellular SPQ fluorescence was monitored continuously by epifluorescence microscopy (excitation 360±5 nm, emission>410 nm). SPQ leakage from the cells was <10% in 60 min at 37°C. Intracellular calibration of SPQ fluorescencevs. [Cl] (0–90mm) was carried out using high-K buffers containing the ionophores nigericin (5 m) and tributyltin (10 m); SPQ fluorescence was quenched with a Stern-Volmer constant of 13m ^–1. Intracellular Cl activity was 43±4mm. Cl flux was measured in response to addition and removal of 114mm Cl from the bathing solution. Addition of 10 m isoproterenol increased Cl efflux from 0.10 to 0.27mm/sec. The increase was inhibited by the Cl-channel blocker diphenylamine-2-carboxylic acid (1mm). In the absence of isoproterenol, removal of external Na or addition of 0.5mm furosemide, reduced Cl influx by >fourfold. In ouabain-treated monolayers, removal of external K in the presence of 5mm barium diminished Cl influx by >twofold, suggesting that Cl entry is in part K dependent. These results establish an accurate optical method for the realtime measurement of intracellular Cl activity in tracheal cells that does not require an electrically tight cell monolayer. The data demonstrate the presence of an isoproterenol-regulated Cl channel and a furosemide-sensitive cation-coupled transport mechanism.     

Effects of insulin,pertussis toxin and cholera toxin on protein synthesis and diacylglycerol production in 3T3 fibroblasts: Evidence for a G-protein mediated activation of phospholipase C in the insulin signal mechanism

The rapid increase in protein synthesis that occurs on addition of insulin (1 mU/ml) to stepped-down 3T3 cells was blocked by pre-incubation of the cells with pertussis toxin. Cholera toxin on the other hand stimulated protein synthesis and this effect was insensitive to actinomycin D and inhibited by pro-treatment of the cells with phorbol dibutyrate to deplete cell protein kinase C. Insulin was found to cause a rapid and transient increase in diacylglycerol (DAG) synthesis. The insulin-induced increase in diacylglycerol was blocked by pertussis toxin. Exogenous DAG (10 M) stimulated protein synthesis within 1 hour. The results suggest that insuIin stimulates ribosomal activity through a signal mechanism that involves a G-protein mediated activation of phospholipase C to increase DAG levels.     

Diaminobutyric acid: A tool for discriminating between carrier-mediated and non-carrier-mediated release of GABA from synaptosomes?

The carrier-mediated transport of GABA in rat brain synaptosomes was strongly and permanently inhibited byl-2,4-diaminobutyric acid (DAB). In order to discriminate between carrier-mediated and non-carrier-mediated release of [³H]GABA, synaptosomes prelabeled with 0.5 M [³H]GABA in the presence of 100 M DAB, or with 0.2 M [³H]GABA without DAB, were superfused in conditions stimulating the release of [³H]GABA. Only the release elicited by unlabeled GABA or DAB (by homo- and heteroexchange, respectively) was strongly inhibited in DAB-pretreated synaptosomes. The spontaneous release and the release induced by 56 mM KCl in the presence of CaCl₂, by the ionophore A23187, by ouabain, by lack of K⁺, or by purified black widow spider toxin were unaffected or only barely decreased in DAB-treated synaptosomes, and therefore do not seem to be mediated by the DAB-blocked GABA carrier.     

Purification and characterization of flavone-specific β-glucuronidase from callus cultures of Scutellaria baicalensis Georgi

-Glucuronidase from callus cultures of Scutellaria baicalensis Georgi was purified to apparent homogeneity by fractionated ammonium-sulfate precipitation and chromatography on diethylaminoethyl-cellulose, hydroxylapatite and baicalin-conjugated Sepharose 6B. A 650-fold purification was obtained by this purification system. When subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis the purified protein migrated as a single band with a molecular mass of 55 kDa. We determined that the native enzyme has a molecular mass of 230 kDa using gel-filtration chromatography. These results suggested that the enzyme exists as a homotetramer composed of four identical 55-kDa subunits. The enzyme showed a broad pH optimum between 7.0 and 8.0. The K _m values were 9 M, 10 M, 30 M and 40 M for luteolin 3 -O--d-glucuronide, baicalin, wogonin 7-O--d-glucoronide and oroxlin 7-O--d-glucuronide, respectively. The enzyme was most active with flavone 7-O--d-glucuronides.Abbreviations BA N⁶-benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - pI isoelectric point - R _t retention time     

Reversible activation of the ATP-dependent potassium current with dialysis of frog atrial cells by micromolar concentrations of GDP

Summary We studied the effects of internal and external solutions on potassium currents in frog atrial cells. Experiments were carried out in whole cell recording in the presence of tetrodotoxin and cobalt in the bath to suppress the inward currents. In the absence of pyruvate and glucose in the external solution, a time-independent current increased progressively in a few minutes till the death of the cell. This current had the properties of the ATP-sensitive potassium current IK(ATP) in mammalian cells. In the presence of pyruvate and glucose in the external solution, the membrane current stayed low for 30 min. Addition of guanosine monophosphate (GMP, 40 m), guanosine triphosphate (GTP, 40 to 1000 m), adenosine diphosphate (ADP, 40 m) or adenosine triphosphate (ATP, 3000 m) to the internal solution had no major effect on the current amplitude. In contrast, addition of GDP (20 or 40 m) produced a loss of rectification in a few minutes. The current activated by GDP was time independent as was the current observed in the absence of glucose and pyruvate. It was sensitive to cesium and barium, it was blocked when ATP was added to GDP in the internal solution, and it was suppressed by the sulphonylurea glibenclamide (1 m). We suggest that GDP produced a local depletion of ATP, by displacement of the equilibrium between ATP, GDP, ADP and GTP. This hypothesis is supported by the fact that the current activated by GDP was rapidly suppressed when adding GTP in excess to the internal solution.