The permeability of the epidermal cell plasma membrane of barley leaves to abscisic acid

Uptake of ³H-labelled (±)-abscisic acid (ABA) into isolated barley (Hordeum vulgare L.) epidermal cell protoplasts (ECP) was followed over a range of pH values and ABA concentrations. The present results show that ABA uptake is not always linearly correlated with the external concentration of undissociated ABA (ABAH). At pH 7.25, ABA uptake exhibited saturation kinetics with an apparent K _m value of 75 mmol·m^–3 to tal ABA. This saturable transport component was inhibited by pretreating the protoplasts with 1 mol·m^–3 p-chloromercuribenzenesulfonic acid at pH 8.0, conditions that minimized the uptake of this acid sulfhydryl reagent. Moreover, the rate of (±)-[^3]HABA uptake was reduced by addition of 0.1 mol·m^–3 (±)-ABA to 41%, whereas the same concentration of (±)-ABA was approximately half as effective (46% of the inhibitory effect). Thus, it was concluded that only (±)-ABA competes for an ABA carrier that is located in the epidermal cell plasma membrane. The permeability of the epidermal cell plasma membrane was studied by performing a Collander analysis. At pH 6 the overall plasma-membrane permeability of epidermal cells was similar to that of guard cells but was about two times higher than that of mesophyll cells.Abbreviations ABA abscisic acid - ABA^– anion of ABA - ABAH undissociated ABA - 2,4-D 2,4-dichlorophenoxyacetic acid - DMO 5,5-dimethyloxazolidine-2,4-dione - ECP deepidermal cell protoplast - K_r partition coefficient - M_r relative molecular mass - NEM N-ethylmaleimide - PCMBS p-chloromercuriben zenesulfonic acid - P_s permeability coefficient We are grateful to Barbara Dierich for expert technical assistance, to Prof. H. Gimmler (Lehrstuhl für Botanik I, Universität Würzburg, FRG) for helpful discussions and to the Deutsche Forschungsgemeinschaft (SFB 251, TP 3) for financial support.     

Reconstitution into liposomes of the B°-like glutamine-neutral amino acid transporter from renal cell plasma membrane

Na⁺ dependent [³H]glutamine uptake was found in liposomes reconstituted with solubilized rat kidney brush border in the presence of intraliposomal K⁺. The reconstituted system was optimised with respect to the critical parameters of the cyclic detergent removal procedure, i.e., the detergent used for the solubilization, the protein concentration, the detergent/phospholipid ratio and the number of passages through a single Amberlite column. Time dependent [³H]glutamine accumulation in proteoliposomes occurred only in the presence of external Na⁺and internal K⁺. The transporter showed low if there is any tolerance towards the substitution of Na⁺ or K⁺ for other cations. Valinomycin strongly stimulated the transport indicating that it is electrogenic. Intraliposomal glutamine had no effect. From the dependence of the transport rate on the Na⁺ concentration cooperativity index close to 1 was derived, indicating that 1 Na⁺ should be involved in the cotransport with glutamine. The electrogenicity of the transport originated from the Na⁺ transport. Optimal rate of 0.1 mM [³H]glutamine uptake was found in the presence of 50 mM intraliposomal K-gluconate. At higher K-gluconate concentrations the transport rate decreased. The activity of the reconstituted transporter was pH dependent with optimal function in the range pH 6.5-7.0. [³H]glutamine (and [³H]leucine) uptake was inhibited by all the neutral but not by the positively or negatively charged amino acids. The sulfhydryl reagents HgCl₂, mersalyl, p-hydroxymercuribenzoate and the substrate analogue 2-aminobicyclo[2,2,1]heptane-2-carboxylate strongly inhibited the transporter, whereas the amino acid analogue α-(methylamino)isobutyrate had no effect. The inhibition by mersalyl was protected by the presence of the substrate. On the basis of the Na⁺ dependence, the electrogenic transport mode and the specificity towards the amino acids, the reconstituted transporter was classified as B°-like.     

ABA Uptake in Source and Sink Tissues of Sugar Beet

The mode of abscisic acid (ABA) uptake was studied in excised leaf and root tissue discs of sugar beet (Beta vulgaris L.). Discs were incubated in buffered medium that contained 1 mm CaCl₂ and [¹⁴C]ABA. The sensitivity of ABA uptake to metabolic inhibitors and temperature indicated that the ABA transport system had an energy-dependent component. Energy-dependent uptake was greater in leaf than in root tissue (70% and 50%, respectively). Energy-dependent uptake by both tissues and passive uptake by root tissues were highly pH dependent. Maximal uptake was observed at pH 5.5. Leaf tissue incubated in the dark showed a 50% reduction of uptake as compared with tissue under light. The decrease was due to reduced passive uptake.     

Abscisic acid and apical dominance in Phaseolus coccineus L.

Abscisic acid (ABA) in lanolin, applied to the internode of decapitated runner bean plants enhances the outgrowth of lateral buds. The optimum concentration of the paste is 10^-5 M. The effect of ABA is counteracted by indoleacetic acid (IAA) but not by gibberellic acid (GA₃). There is no effect when ABA is applied to the apical bud or lateral buds of intact plants. However, 13.2 ng given to the lateral buds of decapitated plants stimulate their growth, whereas higher concentrations are inhibitory. Consequently, ABA enhances growth of lateral buds directly, but only when apical dominance is already weakened. The growth of the decapitated 2^nd internode was not affected by ABA. Radioactivity from [2-¹⁴C] ABA, applied to nonelongating 2^nd internode stumps of decapitated runner bean plants moves to the lateral buds, whereas [1-¹⁴C]IAA-and [³H]GA₁-translocation is much weaker. ABA transport is inhibited if IAA or [³H]GA₁ is applied simultaneously. In elongating internodes [¹⁴C]ABA is almost completely immobile. [¹⁴C]IAA-and [³H]GA₁-translocation is not affected by ABA. The amount of radioactivity from labelled ABA, translocated to the lateral buds, is highest during the early stages of bud outgrowth.Abbreviations ABA 2,4-cis, trans-(+)-abscisic acid - GA gibberellic acid - IAA indoleacetic acid - p.l. plain lanolin     

Effects of Chilling and ABA on [H]Gibberellin A(4) Metabolism in Somatic Embryos of Grape (Vitis vinifera L. x V. rupestris Scheele)

Previous work has indicated that changes in gibberellin (GA) metabolism may be involved in chilling-induced release from dormancy in somatic embryos of grape (Vitis vinifera L. × V. rupestris Scheele). We have chilled somatic embryos of grape for 2, 4, or 8 weeks, then incubated them with [³H]GA₄ (of high specific activity, 4.81 × 10¹⁰ becquerel per millimole) for 48 hours at 26°C. Chilling had little effect on the total amount of free [³H]GA-like metabolites formed during incubation at 26°C, but did change the relative proportions of individual metabolites. The amount of highly water-soluble [³H] metabolites formed at 26°C decreased in embryos chilled for 4 or 8 weeks. The concentration of endogenous GA precursors (e.g., GA₁₂ aldehyde-, kaurene-, and kaurenoic acid-like substances) increased in embryos chilled for 4 or 8 weeks. Treatment with abscisic acid (ABA) (known to inhibit germination in grape embryos) concurrent with [³H]GA₄ treatment at 26°C, reduced the uptake of [³H] GA₄ but had little effect on the qualitative spectrum of metabolites. However, in the embryos chilled for 8 weeks and then treated with ABA for 48 hours at 26°C, there was a higher concentration of GA precursors than in untreated control embryos. Chilled embryos thus have an enhanced potential for an increase in free GAs through synthesis from increased amounts of GA precursors, or through a reduced ability to form highly water-soluble GA metabolites (i.e., GA conjugates or polyhydroxylated free GAs).     

The uptake of cyclic AMP by human erythrocytes and its effect on membrane phosphorylation.

The effects of time and cyclic AMP concentration on cyclic AMP uptake and membrane phosphorylation were studied using intact human erythrocytes. The rate of uptake of cyclic [³H]AMP was nearly linear with respect to cyclic AMP concentration. The amount taken up was small compared to the extracellular cyclic AMP concentration, but was sufficient to significantly increase the intracellular cyclic AMP concentration. Incubation with cyclic AMP resulted in increased incorporation of ³²P_i into several phosphorylated membrane peptides of the intact erythrocytes. Although cyclic AMP altered the distribution of radioactivity among the membrane components, the total amount of incorporation was not increased. The effect of cyclic AMP on phosphorylation of membrane peptides was observed with extracellular cyclic AMP concentrations as low as 1 μm and was most pronounced in incubations of 1 to 4 h. These results indicate that cyclic AMP can enter erythrocytes in sufficient amounts to alter the activity of cyclic AMP-dependent protein kinases, or to alter the rate of turnover of certain phosphorylated membrane peptides.     

A comparative analysis of noradrenaline and adrenaline uptake in photophores of the midshipman fish,Porichthys notatus: Kinetics and pharmacology

l. A kinetic analysis of [³H]noradrenaline ([³H]NA) and [³H]adrenaline ([³H]A) uptake in the photophores of Porichthys notatus revealed high (uptake,) and low affinity (uptake₂) components for both [³H]catecholamines at molarities of incubation between 10⁻⁸ and 10⁻⁵M.2. Uptake₁ for [³H]NA displayed a greater capacity than that for [³H]A. With [³H]NA, the contribution of uptake₂ to the overall uptake was small or insignificant at all but the highest concentration in the medium, whereas uptake₂ of [³H]A was relatively more substantial.3. Uptake, for either [³H]NA or [³H]A was temperature-, ouabain- and dinitrophenol-sensitive, as well as highly sodium- and potassium-dependent. Uptake₁ for [³h]a was significantly more affected by calcium omission than that for [³H]NA.4. Uptake, for both [³H]NA and [³h]a was comparably reduced by DMI, imipramine, dopamine and the converse, non-radioactive catecholamine. Serotonin reduced the accumulation of the two catecholamines to an extent that was directly ([³h]na) or inversely ([³h]a) proportional to its concentration. The adrenergic antagonists propranolol and phentolamine showed selectivity against uptake₁ for [³H]NA and [³h]a, respectively.5. These and previous radioautographic results indicate that there are functionally distinct, differentially distributed, carrier-mediated, high-affinity transport systems for NA and A in the photophores of Porichthys.     

Measurements of Diel Rates of Bacterial Secondary Production in Aquatic Environments

Measurements of bacterial secondary production were carried out during 13 diel studies at one coastal marine station and in five lakes differing with respect to nutrient concentration and primary production. Bacterial secondary production was measured in situ every 3 to 5 h by [³H]thymidine incorporation into DNA. In some of the diel studies, these results were compared with results obtained from dark ¹⁴CO₂ uptake and frequency of dividing cells. Only minor diel changes were observed. The rate of [³H]thymidine incorporation into DNA and the frequency of dividing cells varied from 23 to 194% of the diel mean. The dark CO₂ uptake rate varied from 12 to 259% of the diel mean. An analysis of variance demonstrated that no specific time periods during 24 h showed significantly different production rates, supporting the idea that bacterial activities in natural assemblages are controlled by a variety of events. The best correction (r² = 0.74) was obtained between the [³H]thymidine incorporation and frequency of dividing cells procedures from the lake water samples. The actual production rates calculated by [³H]thymidine incorporation into DNA were appreciably lower than those obtained by the frequency of dividing cells and the dark CO₂ uptake techniques. Diel rates of bacterial production are discussed in relation to sampling frequency, statistical errors, and choice of method.     

Abscisic Acid and its relationship to seed filling in soybeans

The effect of exogenous abscisic acid (ABA) on the rate of sucrose uptake by soybean (Glycine max L. Merr.) embryos was evaluated in an in vitro system. In addition, the concentrations of endogenous ABA in seeds of three soybean Plant Introduction (PI) lines, differing in seed size, were commpared to their seed growth rates. ABA (10⁻⁷ molar) stimulated in vitro sucrose uptake in soybean (cv `Clay') embryos removed from plants grown in a controlled environment chamber, but not in embryos removed from field-grown plants of the three PI lines. However, the concentration of ABA in seeds of the three field-grown PI lines correlated well with their in situ seed growth rates and in vitro [¹⁴C] sucrose uptake rates.

Across genotypes, the concentration of ABA in seeds peaked at 8.5 micrograms per gram fresh weight, corresponding to the time of most rapid seed growth rate, and declined to 1.2 micrograms per gram at physiological maturity. Seeds of the large-seeded genotype maintained an ABA concentration at least 50% greater than that of the small-seeded genotype throughout the latter half of seed filling. A higher concentration of ABA was found in seed coats and cotyledons than in embryonic axes. Seed coats of the large-seeded genotype always had a higher concentration of ABA than seed coats of the small-seeded line. It is suggested that this higher concentration of ABA in seed coats of the large-seeded genotype stimulates sucrose unloading into the seed coat apoplast and that ABA in cotyledons may enhance sucrose uptake by the cotyledons.

     

Studies on the action of abscisic acid on IAA-induced rapid growth of Avena coleoptile segments

Summary A linear displacement transducer has been used to monitor the growth of a column of Avena coleoptile segments in flowing solution. IAA at 10^-5M in phosphate buffer of pH7 promotes growth after a latent period of 10.9 min, the initial maximum growth rate occurring after 25 min. Simultaneous treatment with 10^-5 M ABA does not affect either the latent period or the initial maximum growth rate in response to the IAA treatment, but subsequently gives rise to an inhibition of growth detectable after 30 min. In contrast, pretreatment with ABA for 100 min increases the duration of the latent period and reduces the initial maximum growth rate. Removal of the ABA rapidly relieves the inhibition of IAA-induced growth but a growth rate comparable to that of material treated only with IAA is never attained. Studies using 2-[¹⁴C]ABA and 1-[¹⁴C]IAA suggest that the latent period before ABA inhibition of growth is detectable is not due to a lag in ABA uptake, and that ABA is not acting by reducing IAA uptake.     

Putrescine uptake in saintpaulia petals

Putrescine uptake and the kinetics of this uptake were studied in petals of Saintpaulia ionantha Wendl. Uptake experiments of [³H] or [¹⁴C] putrescine were done on single petals at room temperature at various pH values. The results show that putrescine uptake occurs against a concentration gradient at low external putrescine concentration (0.5-100 micromolar) and follows a concentration gradient at higher external putrescine concentrations (100 micromolar to 100 millimolar). 2,4-Dinitrophenol and carbonylcyanide-m-chlorophenylhydrazone, two uncouplers, had no effect on putrescine uptake. Uptake rates were constant for 2 hours, reaching a maximum after 3 to 4 hours. Putrescine uptake depended markedly on the external pH and two maxima were observed: at low external concentrations of putrescine, the optimum was at pH 5 to 5.5; at higher concentrations the optimum was at pH 8.     

Human sodium/inositol cotransporter 2 (SMIT2) transports inositols but not glucose in L6 cells

To characterize the function of the sodium/inositol symporter SMIT2 in skeletal muscle, human SMIT2 cDNA was transfected into L6 myoblasts using pcDNA3.1 expression vector. Compared with the pcDNA3.1 vector only transfection, this overexpression increased the uptake of [³H]d-chiro-inositol (DCI) by 159-fold. [³H]myo-Inositol uptake increased by 37-fold. In contrast, [¹⁴C]d-glucose, [¹⁴C]2-deoxy-d-glucose, or [¹⁴C]3-O-methyl-d-glucose uptake remained unchanged in the presence of either 0, 5.5, or 25 mM unlabeled glucose. The K_m of DCI and myo-inositol for DCI uptake was 111.0 and 158.0 μM, respectively, whereas glucose competed for DCI uptake with a K_i of 6.1 mM. Insulin treatment of non-transfected L6 cells (2 μM for 24 h) increased [³H]DCI specific uptake 18-fold. DCI transport is up regulated by insulin and competitively inhibited by millimolar levels of glucose. Therefore, expression and/or function of SMIT2, a high affinity transporter specific for DCI and myo-inositol, may be reduced in diabetes mellitus, insulin resistance and polycystic ovary syndrome causing the abnormal DCI metabolism observed in these conditions.     

Glucose transport and metabolism in the perfused hindquarters of lean and obese-hyperglecemic (db/db) mice effects of insulin and electrical stimulation

Changes in glucose transport and metabolism in skeletal muscles of the obese-diabetic mice (db/db) was characterized using the perfused mouse hindquarter preparation. Metabolism of [5-³H]glucose, uptake of 3-O-[methyl-³H]glucose (methylglucose) and [2-¹⁴C]deoxyglucose (deoxyglucose) was studied under resting, electrically stimulated contracting, and insulin-stimulated conditions. Basal rate of methylglucose uptake was 255 ± 18 and 180 ± 9 μl/15 min per ml intracellular fluid space for lean and db/db mice, respectively. The V_? of methylglucose transport was decreased with no change in K_m in the db/db mice. Both electrical stimulation and insulin (1/mU/ml) increased methylglucose uptake rate 2-fold in both lean and obese mice. We observed no significant change in insulin sensitivity in the db/db mice in stimulating methylglucose uptake which was subnormal under all conditions. Similar results were obtained using deoxyglucose. Likewise, uptake of glucose and ³H₂O production from [5-³H]glucose were significantly reduced, both at rest and during electrically stimulated contraction in the db/db mouse. However, lactate production in the electrically stimulated db/db mouse preparations was not significantly different from that in the lean mice. These data suggest a major contribution from an impaired glucose transport activity to the reduction in glucose metabolism in the db/db mouse skeletal muscle.     

Effect of Photoperiod on Metabolism of [H] Gibberellins A(1), 3-epi-A(1), and A(20) in Agrostemma githago L

To determine whether daylength influences the rate of metabolism of gibberellins (GAs) in the long-day (LD) rosette plant Agrostemma githago L., [³H]GA₂₀ and [³H]GA₁ were applied under short day (SD) and LD. Both were metabolized faster under LD than under SD. [³H]GA₂₀ was metabolized to a compound chromatographically identical to 3-epi-GA₁. [³H]GA₁ was metabolized to two acidic compounds, the major metabolite having chromatographic properties similar to, but not identical with GA₈. [³H]3-epi-GA₁ applied to plants under LD was metabolized much more slowly than was [³H]GA₁, and formed a very polar metabolite which did not partition into ethyl acetate at pH 2.5. Very polar metabolites were also formed after the feeds of [³H]GA₂₀ and [³H]GA₁. It was not possible to characterize these very polar compounds further because of their apparent instability. The results obtained suggest that in Agrostemma GA₂₀ is the precursor of 3-epi-GA₁, but there is at present no evidence indicating the precursor of GA₁.     

Uptake and distribution of abscisic acid in Commelina leaf epidermis

Closure of stomata by abscisic acid (ABA) was studied by floating leaf epidermal strips of Commelina communis L. in PIPES buffer (pH 6.8) containing a range of KCl concentrations. Control apertures were greatest at high concentrations of the salt, and the effects of ABA, in terms of closure, were most pronounced below 100 mol m^-3 KCl. Stomata opened on strips floated on buffer plus 50 mol m^-3 KCl and closed within 10 min when transferred to the same medium plus 0.1 mol m^-3 ABA. [2-¹⁴C]ABA was used to study uptake and distribution of the hormone by the epidermal strips. It was calculated that no more than 6 fmol ABA were present per stomatal complex at the time of closure, although uptake continued thereafter. Microautoradiography indicated that radioactivity from [2-¹⁴C]ABA accumulated in the stomatal complex at or near the guard cells within 20 min. TLC was used to examine the state of the label after 1 h incubation. Efflux of label from preincubated tissue appeared to occur in three phases (t_1/2=7.2 s, 4.0 min, 35.2 min). Efflux was correlated with stomatal re-opening. The results confirm that ABA can accumulate in the epidermis of C. communis.Abbreviation ABA Abscisic acid     

The uptake of gibberellin A1 by suspension-cultured Spinacia oleracea cells has a carrier-mediated component

The kinetics of the uptake of [³H]gibberellin A₁ (GA₁) by light- and dark-grown suspension-cultured cells of Spinacia oleracea (spinach) have been studied. Use of nonradioactive GA₁ and gibberellic acid (GA₃) show that the uptake has a saturable and a nonsaturable component. The nonsaturable component increases as the pH is lowered at a fixed concentration of [³H]GA₁ and is probably caused by non-mediated diffusion of the uncharged protonated species of GA₁. The saturable component is not the result of metabolic transformation or to GA₁ binding to the cell wall and is suggested to represent the operation of a transport carrier for which GA₁ and GA₃ are substrates. Auxin, abscisic acid and a cytokinin did not alter the GA₁ uptake. The K_m is approx. 0.3 mol dm^-3 at pH 4.4 in light- and dark-grown cells. The V_max of the carrier is higher in the light-grown cells. The optimum pH for the carrier at a physiological GA₁ concentration (3 nmol dm^-3) was pH 4.0, with no activity detectable at pH 7.0. Both saturable and nonsaturable components were decreased by protonophores indicating that the pH gradient between the cells and the medium may be a component of the driving forces for both types of transport. Both the permeability coefficient for the undissociated GA₁ and the ratio V _max/K _m for the carrier are lower than the corresponding values for the indole-3-acetic acid and abscisic acid carriers studied in other species.Abbreviations and symbols ABA abscisic acid - DMO 5,5-dimethyloxazolidine-2,4-dione - GA gibberellin - GA₃ gibberellic acid - IAA indole-3-acetic acid - P permeability coefficient     

Ammonia (C-Methylamine) Transport across the Bacteroid and Peribacteroid Membranes of Soybean Root Nodules

[¹⁴C]Methylamine (MA; an analog of ammonia) was used to investigate ammonia transport across the bacteroid and peribacteroid membranes (PBM) from soybean (Glycine max) root nodules. Free-living Bradyrhizobium japonicum USDA110 grown under nitrogen-limited conditions showed rapid MA uptake with saturation kinetics at neutral pH, indicative of a carrier. Exchange of accumulated MA for added ammonia occurred, showing that the carrier recognized both NH₄⁺ and CH₃NH₃⁺. MA uptake by isolated bacteroids, on the other hand, was very slow at low concentrations of MA and increased linearly with increasing MA concentration up to 1 millimolar. Ammonia did not inhibit MA by isolated bacteroids and did not cause efflux of accumulated MA. PBM-enclosed bacteroids (peribacteroid units [PBUs]) were qualitatively similar to free bacteroids with respect to MA transport. The rates of uptake and efflux of MA by PBUs were linearly dependent on the imposed concentration gradient and unaffected by NH₄Cl. MA uptake by PBUs increased exponentially with increasing pH, confirming that the rate increased linearly with increasing CH₃NH₂ concentration. The results are consistent with other evidence that transfer of ammonia from the nitrogen-fixing bacteroid to the host cytosol in soybean root nodules occurs solely by simple diffusion of NH₃ across both the bacteroid and peribacteroid membranes.     

Abscisic Acid localization and metabolism in barley aleurone layers

Aleurone layers of Hordeum vulgare, cv. `Himalaya' took up [¹⁴C]-abscisic acid (ABA) when incubated for various times. Radioactivity accumulated with time in a low speed, DNA-containing pellet accounting for 1.6 to 2.3% of the radioactivity recovered in subcellular fractions at 18 hours. Thin layer chromatography of ethanolic or methanolic extracts of the cytosol, which contained greater than 95% of the radioactivity taken up by layers, revealed that labeled ABA was metabolized to phaseic acid (PA) and 4′-dihydrophaseic acid (DPA) and three polar metabolites Mx₁, Mx₂, and Mx₃. ABA was not metabolized by endosperm, incubated under conditions used for layers, indicating that metabolism was tissue-specific. Layers metabolized [³H]DPA to Mx₁ and Mx₂. ABA, PA, and DPA-methyl ester and epi-DPA-methyl ester inhibited synthesis of α-amylase by layers incubated for either 37 or 48 hours. These layers converted the methyl DPA and epi-methyl-DPA esters to their respective acids. DPA did not inhibit Lactuca sativa germination or root and coleoptile elongation of germinating Hordeum vulgare seeds, or coleoptile elongation of germinating Zea mays seeds.     

Reserpine-induced reduction in norepinephrine transporter function requires catecholamine storage vesicles

Treatment of rats with reserpine, an inhibitor of the vesicular monoamine transporter (VMAT), depletes norepinephrine (NE) and regulates NE transporter (NET) expression. The present study examined the molecular mechanisms involved in regulation of the NET by reserpine using cultured cells. Exposure of rat PC12 cells to reserpine for a period as short as 5 min decreased [³H]NE uptake capacity, an effect characterized by a robust decrease in the V_max of the transport of [³H]NE. As expected, reserpine did not displace the binding of [³H]nisoxetine from the NET in membrane homogenates. The potency of reserpine for reducing [³H]NE uptake was dramatically lower in SK-N-SH cells that have reduced storage capacity for catecholamines. Reserpine had no effect on [³H]NE uptake in HEK-293 cells transfected with the rat NET (293-hNET), cells that lack catecholamine storage vesicles. NET regulation by reserpine was independent of trafficking of the NET from the cell surface. Pre-exposure of cells to inhibitors of several intracellular signaling cascades known to regulate the NET, including Ca²⁺/Ca²⁺–calmodulin dependent kinase and protein kinases A, C and G, did not affect the ability of reserpine to reduce [³H]NE uptake. Treatment of PC12 cells with the catecholamine depleting agent, α-methyl-p-tyrosine, increased [³H]NE uptake and eliminated the inhibitory effects of reserpine on [³H]NE uptake. Reserpine non-competitively inhibits NET activity through a Ca²⁺-independent process that requires catecholamine storage vesicles, revealing a novel pharmacological method to modify NET function. Further characterization of the molecular nature of reserpine's action could lead to the development of alternative therapeutic strategies for treating disorders known to be benefitted by treatment with traditional competitive NET inhibitors.     

An Hg-sensitive channel mediates the diffusional component of glucose transport in olive cells

In several organisms solute transport is mediated by the simultaneous operation of saturable and non-saturable (diffusion-like) uptake, but often the nature of the diffusive component remains elusive. The present work investigates the nature of the diffusive glucose transport in Olea europaea cell cultures. In this system, glucose uptake is mediated by a glucose-repressible, H⁺-dependent active saturable transport system that is superimposed on a diffusional component. The latter represents the major mode of uptake when high external glucose concentrations are provided. In glucose-sufficient cells, initial velocities of d- and l-[U-¹⁴C]glucose uptake were equal and obeyed linear concentration dependence up to 100 mM sugar. In sugar starved cells, where glucose transport is mediated by the saturable system, countertransport of the sugar pairs 3-O-methyl-d-glucose/d-[U-¹⁴C]glucose and 3-O-methyl-d-glucose/3-O-methyl-d-[U-¹⁴C]glucose was demonstrated. This countertransport was completely absent in glucose-sufficient cells, indicating that linear glucose uptake is not mediated by a typical sugar permease. The endocytic inhibitors wortmannin-A and NH₄Cl inhibited neither the linear component of d- and l-glucose uptake nor the absorption of the nonmetabolizable glucose analog 3-O-methyl-d-[U-¹⁴C]glucose, thus excluding the involvement of endocytic mediated glucose uptake. Furthermore, the formation of endocytic vesicles assessed with the marker FM1-43 proceeded at a very slow rate. Activation energies for glucose transport in glucose sufficient cells and plasma membrane vesicles were 7 and 4 kcal mol^− 1, respectively, lower than the value estimated for diffusion of glucose through the lipid bilayer of phosphatidylethanolamine liposomes (12 kcal mol^− 1). Mercury chloride inhibited both the linear component of sugar uptake in sugar sufficient cells and plasma membrane vesicles, and the incorporation of the fluorescent glucose analog 2-NBDG, suggesting protein-mediated transport. Diffusive uptake of glucose was inhibited by a drop in cytosolic pH and stimulated by the protein kinase inhibitor staurosporine. The data demonstrate that the low-affinity, high-capacity, diffusional component of glucose uptake occurs through a channel-like structure whose transport capacity may be regulated by intracellular protonation and phosphorylation/dephosphorylation.