In vitro effects of synthetic antioxidants and vitamin E on arachidonic acid metabolism and thromboxane formation in human platelets and on platelet aggregation

The “in vitro” effects of α-tocopherol, butylhydroxytoluene (BHT) and butylhydroxyanisole (BHA) were studied on aggregation of human platelets induced by collagen and arachidonic acid (AA), on the metabolic conversion of ¹⁴C AA through the cyclooxygenase and lipoxygenase pathways and on the formation of thromboxane B₂ (TXB₂) in washed platelets after stimulation with collagen.Vitamin E completely inhibited AA induced platelet aggregation only at high concentration (mM) and after 10 minutes of preincubation, with limited effects on AA metabolism in platelets and no effect on TXB₂ formation from endogenous substrate. BHA completely inhibited platelet aggregation in the 10⁻⁶M range, gave 50% inhibition of AA metabolism in the 10⁻⁵M range and almost complete inhibition of thromboxane formation in the 10⁻⁴M range. BHT was about 100 times less active on platelet aggregation and AA metabolism. The lipoxygenase and cyclooxygenase pathways were differentially affected at low concentrations of BHA and only at concentrations greater than 5×10⁻⁵M were both pathways depressed.     

Modulation of red cell K transport by membrane lipids

Alterations in the state of the membrane lipids affect human red cell K⁺ transport. Depletion of membrane cholesterol by 29–34% significantly inhibited both total K⁺ influx and ouabain-sensitive K⁺ influx. Addition of the hydrophobic anesthetic, chlorpromazine, in concentration from 2 · 10⁻⁵ to 2 · 10⁻⁴ M increased both total K⁺ influx and ouabain-sensitive K⁺ influx. In each case the effect on both processes was almost identical which indicates a linkage between K⁺ “pump” and “leak”. Further, these results demonstrate that red cell K⁺ transport can be modulated by local conditions in the micro-environment of the transport system.     

Induction of cytoplasmic petite in yeast by guanidine hydrochloride: Combined treatment with other inducing agents

We have studied the induction of ?^? mutants by guanidine hydrochloride (GuHCl) in combination with other known inducers: ethidium bromide (EB), berenil and ultraviolet light. Competition was observed when cells were simultaneously treated with optimal concentrations of EB and GuHCl; on the other hand, treatment of cells with EB in the presence of non-inducing concentrations of GuHCl resulted in the stimulation of ?^? induction by EB. Furthermore, using a strain which upon treatment with high EB concentrations shows recovery of respiratory competence, the presence of GuHCl did not interfere either with the early phase of induction or with the recovery phase, but it did interfere in a competitive fashion with the final irreversible phase of EB induction. In the case of berenil, a synergistic effect was seen when cells were pretreated with GuHCl. A synergistic induction was also observed when cells were submitted to UV prior to GuHCl treatment. These results suggest that GuHCl, EB and berenil act via some common step in their ?^? induction pathways. Moreover, GuHCl may somehow be decreasing the efficiency of dark repair of ultraviolet lesions on mitochondrial DNA.     

Optical Properties and Light Climate in Lake Verevi

The optical properties and light climate during the ice-free period in the highly stratified Lake Verevi (Estonia) have been studied together with other lakes in same region since 1994. The upper water layer above the thermocline belongs to class “moderate” by optical classification of Estonian lakes but can turn “turbid” (concentration of chlorophyll a up to 73 mg m⁻³ and total suspended matter up to 13.2 g m⁻³) during late summer blooms. In the blue part of the spectrum, light is mainly attenuated by dissolved organic matter and in red part notably scattering but also absorption by phytoplanktonic pigments effect the spectral distribution of underwater light. Consequently, the underwater light is of greenish-yellow color (550–650 nm). Rapid change in optical properties occurs with an increase of all optically active substances close to thermocline (2.5–6 m). Optical measurements are often hampered beneath this layer so that modeling of the depth distribution of the diffuse attenuation coefficient is an useful compliment to field measurements. K_d,PAR ranges from 0.8 to 2.9 m⁻¹ in the surface layer, and model results suggest that it may be up to 5.8 m⁻¹ in the optically dense layer. This forms a barrier for light penetration into the hypolimnion.     

Chloride self exchange in Ehrlich ascites cells. Inhibition by furosemide and 4-acetamido-4′-isothiocyanostilbene-2-2′-disulfonic acid

The effects of furosemide and 4-acetamido-4′-isothiocyanostilbene-2,2′-disulfonic acid (SITS) on steady-state Cl⁻ flux were studied in Ehrlich mouse ascites cells. At 10 mM, furosemide inhibited isotopically-determined Cl⁻ flux by 86% without changing cell Cl⁻ content, indicating that influx and efflux were depressed by the same amount. These results suggest that at least 86% of the steady-state Cl⁻ flux may occur as a one for one exchange. Half of the inhibitory effect was not reversed by vigorous washing with albumin-Ringer. A smaller portion of steady-state Cl⁻ flux was inhibited by SITS. The maximum effect of SITS was reached near 0.6 mM; at this concentration Cl⁻ flux was reduced by 37% without an alteration in cell Cl⁻ content. Possible competition of environment Cl⁻ and SITS was investigated by replacing environment Cl⁻ with acetate or NO₃. These anions reduced the efficacy of SITS because they depressed cell Cl⁻ turnover themselves, apparently acting on the same exchange process.     

Transposition of Saccharomyces cerevisiae Ty1 retrotransposon is activated by improper cryopreservation

Ty1 is a retrotransposon of the yeast Saccharomyces cerevisiae whose transposition at new locations in the host genome is activated by stress conditions, such as exposure to UV light, X-rays, nitrogen starvation. In this communication, we supply evidence that cooling for 2 h at +4 °C followed by freezing for 1 h at −10 °C and 16 h at −20 °C also increased Ty1 transposition. The mobility of Ty1 was induced by cooling at slow rates (3 °C/min) and the accumulation of trehalose inside cells or the cooling at high rates (100 °C/min) inhibited significantly the induction of the transposition. The freeze-induced Ty1 transposition did not occur in mitochondrial mutants (rho⁻) and in cells with disrupted SCO1 gene (Δsco1 cells) evidencing that the Ty1 transposition induced by cooling depends on the mitochondrial oxidative phosphorylation. We also found that the freeze induced Ty1 transposition is associated with increased synthesis and accumulation of superoxide anions (O⁻₂) into the cells. Accumulation of O⁻₂ and activation of Ty1 transposition were not observed after cooling of cells with compromised mitochondrial functions (rho⁻, Δsco1), or in cells pretreated with O⁻₂ scavengers. It is concluded that (i) elevated levels of reactive oxygen species (ROS) have a key role in activation the transposition of Ty1 retrotransposon in yeast cells undergoing freezing and (ii) given the deleterious effect of increased ROS levels on cells, special precautions should be taken to avoid ROS production and accumulation during cryopreservation procedures.     

Characteristics of fed-batch cultures of recombinant <Emphasis Type="Italic">Escherichia coli</Emphasis> containing human-like collagen cDNA at different specific growth rates

Fed-batch cultures of recombinant Escherichia coli BL21 for producing human-like collagen were performed at different specific growth rates (0.1~0.25 h⁻¹) before induction and at a constant value of 0.05 h⁻¹ after induction by the method of pseudo-exponential feeding. Although the final biomass (around 69 g l⁻¹) was almost the same in all fed-batch cultures, the highest product concentration (13.6 g l⁻¹) was achieved at the specific growth rate of 0.15 h⁻¹ and the lowest (9.6 g l⁻¹) at 0.25 h⁻¹. The mean productivity of human-like collagen was the highest at 0.15 h⁻¹ (0.57 g l⁻¹ h⁻¹) and the lowest at 0.1 h⁻¹ (0.35 g l⁻¹ h⁻¹). In the phase before induction, the cell yield coefficient (Y_X/S) decreased when the specific growth rate increased, while the formation of acetic acid increased upto 2.5 g l⁻¹ at 0.25 h⁻¹. The mean product yield coefficient (Y_P/S) also decreased with specific growth rate increasing. The respiration quotient (RQ) increased slightly with specific growth rate increasing before induction, and the mean value of RQ was around 72%. The optimum growth rate for human-like collagen production was 0.15~0.2 h⁻¹.     

Inhibition of sodium-plus-potassium-stimulated adenosine triphosphatase (Na-K-ATPase) by protein kinase C activators in the gills of Atlantic cod (Gadus morhua)

Exogenous (phorbol ester) and endogenous (diacylglycerol) activators of protein kinase C (PKC) inhibited sodium efflux across the gills of Atlantic cod Gadus morhua and inhibited sodium-plus-potassium-stimulated adenosine triphosphatase (Na⁺-K⁺-ATPase) in isolated chloride cells. The branchial sodium efflux measured in a perfused whole-body preparation was inhibited by 47% on administration of 10⁻⁶ mol.L⁻¹ phorbol 12, 13-dibutyrate (PDB). The branchial perfusion pressure was increased by 46% by 10⁻⁶ mol.L⁻¹ PDB. In contrast the synthetic diacylglycerol, 1-oleoyl-2-acetyl gycerol (OAG) did not alter significantly perfusion pressure but did reduce sodium efflux by 13% at a concentration of 4 × 10⁻⁶ mol.L⁻¹. The effects of these agents on Na⁺-K⁺-ATPase activity were determined in isolated chloride cells with a control activity of 30.9 ± 1.9 μmol Pi mg protein⁻¹ hour⁻¹. PDB and OAG both inhibited enzyme activity in a dose-dependent manner, with 10⁻⁵ mol.L⁻¹ causing 45% and 26% inhibition, respectively. These results suggest that PKC is involved in regulating sodium efflux in the gills of cod by modulating Na⁺-K⁺ATPase activity.     

Dual effect of adrenalin on sugar transport in rat diaphragm muscle

The effect of adrenalin on the membrane transport of the non-metabolized sugar, 3-methylglucose, was studied in isolated “intact” rat hemidiaphragms and related to simultaneously occurring changes in the internal levels of Na⁺, ATP, glucose-6-P, glycerol formation and ⁴⁵Ca uptake and loss. Basal sugar transport was inhibited by low (10⁻⁸−10⁻⁵ M) concentrations of adrenalin; this was antagonized by propranolol and practolol. High concentrations (10⁻⁴−10⁻³ M) stimulated sugar transport, and this was blocked by propranolol and butoxamine and was dependent on external Ca²⁺. These results suggest interaction with two different classes of adrenergic receptors, possibly of β₁ and β₂ types. Both low and high concentrations increased Na⁺ and K⁺ gradients by a practolol-sensitive effect. Isoproterenol behaved identically but phenylephrine had only the two practolol-sensitive effects on sugar and ion transport. Insulin did not interfere with inhibition of sugar transport and decrease in internal Na⁺ but prevented stimulation of sugar transport. Under anoxia adrenalin had no effect on sugar transport but led to greater Na⁺ gain by tissue. Addition of 3.0 mM palmitate decreased inhibition of sugar transport without changing receptor specificity. ATP was decreased and lipolysis enchanged by high adrenalin but glucose-6-P was increased by the low concentration as well. Influx of ⁴⁵Ca was decreased by low and increased by high adrenalin; ⁴⁵Ca efflux was also differentially affected. The results indicate that inhibition and stimulation of sugar transport depend on different receptors and that the latter response may override the former. The data are consistent with the earlier postulated regulatory role of sarcoplasmic Ca²⁺ on sugar transport in muscle, with adrenalin affecting Ca²⁺ fluxes and distribution both directly and indirectly.     

Accumulation of cyclic AMP in neurohypophyses in response to angiotensin

Angiotensin II (10⁻¹⁰ to 10⁻⁸ M) increases cyclic AMP content in isolated rat neurohypophyses but only when incubated in the presence of theophylline (10⁻² M). The stimulatory effect of 10⁻⁹ M angiotensin II is inhibited by 8-Gly-angiotensin II (10⁻⁷ M) a specific inhibitor of the peripheral effects of the natural octapeptide. The angiotensin antagonist alone did not exhibit any intrinsic effect on cyclic AMP accumulation at the dose used.     

The acetylcholine receptor: Isolation of a brain nicotinic receptor and its preliminary characterization in lipid bilayer membranes

The technique of affinity chromatography with the curarizing neurotoxins of Naja naja venom has been employed to extract nicotinic acetylcholine receptors from the brain tissues of mouse and hog. Both carbochol and hexamethonium were used as linear or step gradients to elute the receptor and its properties were investigated in lipid bilayer membranes. Of particular interest is the observation that discrete quanta of conductance could be observed across an NaCl gradient of 1.0:0.1 M. By switching the voltage-clamp across the bilayer between a positive and negative 80 mV, the separate Na⁺ and Cl⁻ conductances of these quanta could be estimated and the following conductances of the smallest discrete quanta were observed: 3.7 · 10⁻¹¹ Ω⁻¹ (Na⁺) and 5.9 · 10⁻¹¹ Ω⁻¹ (Cl⁻) for mouse brain receptors; 3.8 · 10⁻¹¹ Ω⁻¹ (Na⁺) and 4.7 · 10⁻¹¹ Ω⁻¹ (Cl⁻) for hog brain receptors. Large aggregates of receptors appeared to activate and deactivate as multiples of a basic conductance size, although there is evidence that they may not represent the actual gating of ion channels. A “background noise” that is not within the temporal capability of the recording system is also present at an intensity that seems to parallel the number of activated receptors, and in view of recent electrophysiological evidence that the relaxation lifetime of the open channel state is of a millisecond duration, it may be that this “noise” actually represent the channel gating.     

Specificity of the stimulatory effect of prostaglandins on hormone release in rat anterior pituitary cells in culture

Specificity of the effect of prostaglandins (PGs) on hormone release by the anterior pituitary gland was studied using cells in primary culture. Growth hormone (GH) release is stimulated by all eight PGs studied, PGE₁ and E₂ being 1000-fold more potent than the corresponding PGFs. The release of luteinizing hormone (LH), follicle-stimulating hormone (FSH), and prolactin (PRL) remains unchanged upon addition of PGEs. While the basal release of thyrotropin (TSH) is only slightly stimulated by concentrations of PGEs above 10⁻⁶M, an important potentiation of the stimulatory effect of thyrotropin-releasing hormone on TSH release is observed. The release of GH, TSH and LH is stimulated equally well by PGAs and PGBs at concentrations higher than 10⁻⁶M, 3 × 10⁻⁶M, and 10⁻⁵M, respectively. PGFs do not affect the release of any of the measured pituitary hormones at concentrations below 10⁻⁴M. The stimulation of GH release by PGE₂ can be inhibited by the PG antagonist 7-oxa-13-prostynoic acid, a half-maximal inhibition being found at a concentration of 4 × 10⁻⁵M of the antagonist in the presence of 10⁻⁶M PGE₂. In the presence of somatostatin (10⁻⁸M), the inhibition of GH release cannot be reversed by PGE₂ at concentrations up to 10⁻⁴M. 8-bromo-cyclic AMP-induced GH release is additive with that produced by PGE₂.The present data show that 1) of the five pituitary hormones measured, only GH release is stimulated by prostaglandins at relatively low concentrations, 2) the PGE-induced GH release can be competitively inhibited by 7-oxa-13-prostynoic acid, 3) the inhibition of GH release by somatostatin cannot be reversed by PGE₂ and 4) the PGEs increase the responsiveness of the thyrotrophs to TRH.     

Comparison of the hydrolysis of Zn-PPi and the MgPPi as substrates and the effect of free cations upon membrane-bound pyrophosphatase of Rhodospirillum rubrum

The hydrolytic activity of chromatophore membrane-bound pyrophosphatase with Zn-PPi²⁻ as substrate was studied and compared with Mg-PPi²⁻ hydrolysis. The pH profile of Zn-PPi²⁻ hydrolysis is a bell shaped curve with an optimum at 5.25. This behavior is different from the sigmoidal profile obtained for Mg-PPi²⁻ hydrolysis, which has a plateau from pH 6.5 to 9.0. Zn-PPi²⁻ hydrolytic activity is inhibited by 1-butanol and methylene-diphosphate but not by NaF. The enzyme has no activity when free Zn²⁺ concentration is lower than 7.5 pM (at 0.9–1.2 mm Zn-PPi²⁻ and therefore free Zn²⁺ is an essential activator of Zn-PPi²⁻ hydrolytic activity. Free Mg²⁺, on the contrary, acts as an inhibitor of Zn-PPi²⁻ hydrolysis. The dependence of the reaction rate on the Zn-PPi²⁻ concentration is sigmoidal.     

Photosynthetic characteristics of the economic brown seaweed <Emphasis Type="BoldItalic">Hizikia fusiforme</Emphasis> (Sargassaceae,Phaeophyta), with special reference to its “leaf” and receptacle

Photosynthetic responses to irradiance and temperature of “leaves” and receptacles were compared in February (vegetative stage) and May (reproductive stage) in the seaweed, Hizikia fusiforme (Harvey) Okamura (Sargassaceae, Phaeophyta) from Nanao Island, Shantou, China. Irradiance-saturated photosynthesis (P_max) was significantly higher in receptacles than in “leaves” on a fresh weight basis, and that of “leaves” was greater in May than in February at ambient seawater temperatures. The optimum temperature for P_max was 30^∘C for both “leaves” and receptacles, being 5–10^∘C higher than the ambient seawater temperature. The apparent photosynthetic efficiencies were greater in receptacles than in “leaves” within the tested temperature range of 10–40^∘C. The irradiance for saturating photosynthesis for both “leaves” and receptacles was temperature-dependent, with the highest values (about 200μmolphotonsm⁻²s⁻¹) at 30^∘C.     

Induction of ϱ− mutants in Saccharomyces cerevisiae by guanidine hydrochloride: I. Genetic analysis

Guanidine hydrochloride (GuHCl) induced in Saccharomyces cerevisiae cytoplasmic petite mutants (ϱ⁻) of the suppressive type. However, it was unable to induce the neutral type, even after prolonged incubation or increased drug concentration. No correlation was found between the degree of suppressiveness and the time of incubation of yeast cells with guanidine hydrochloride. The suppressiveness of ϱ⁻ induced was not altered by further treatment with GuHCl, whereas it was reduced upon treatment with ethidium bromide (EtBr). Some mitochondrial genetic information was lacking in the ϱ⁻ mutants induced by GuHCl, as demonstrated by the loss of the gene for erythromycin resistance and by reduced buoyant density of mitochondrial DNA of some ϱ⁻. There was no correlation between the degree of suppressiveness of the ϱ⁻ induced by GuHCl and the bouyant density of the mutant mitochondrial DNA.     

Antibiotic treatment enhances C2 toxin production by Alexandrium tamarense in batch cultures

The effects of a mixture of penicillin G and streptomycin on the growth and C2 toxin production of a marine dinoflagellate, Alexandrium tamarense CI01, were investigated to determine if antibiotic treatment would increase the toxin yield of the cultured algae in batch cultures. Algal growth and toxin production were both enhanced markedly when the culture was supplemented with the antibiotics, each at an initial concentration of 100 unit ml⁻¹ in medium,² but were severely inhibited when the concentration was 500 unit ml⁻¹ or higher. Short-term pretreatment of algal inocula with the antibiotics at 100, 500, and 1000 unit ml⁻¹ all produced the enhancing effects on the algal cultures in an autoclaved medium. A prolonged antibiotic pretreatment of the algal culture followed by repeated sterile cultivation resulted in an algal culture free of cultivable bacteria. This “drug-treated” culture became more resistant to the toxicity and more responsive to the enhancing effects of the antibiotics. Our results indicated that the antibiotics can enhance growth and C2 toxin productivity not only through their inhibition of the growth of bacteria that compete for nutrients with the coexisting algae, but also through their direct effects on the physiology of the algae. Supplementation of the two antibiotics therefore is an efficient way to increase the yield of C2 toxin in the production cultures of A. tamarense CI01.     

The mechanism of enhancement by fatty acid hydroperoxides of anaphylactic mediator release

Fragments of chopped lung from indomethacin treated guinea-pigs had an anti-aggregating effect when added to human platelet rich plasma (PRP), probably due to the production of prostacyclin (PGI₂) since the effect was inhibited by 15-hydroperoxy arachidonic acid (15-HPAA, 10 μg ml⁻¹). Both 15-HPAA (1–20 μg ml⁻¹ min⁻¹) and 13-hydroperoxy linoleic acid (13-HPLA, 20 μg ml⁻¹ min⁻¹) caused a marked enhancement of the anaphylactic release of histamine, slow-reacting substance of anaphylaxis (SRS-A) and rabbit aorta contracting substance (RCS) from guinea-pig isolated perfused lungs. This enhancement was not reversed by the concomitant infusion of either PGI₂ (5 μg ml⁻¹ min⁻¹) or 6-oxo-prostaglandin F_1α (6-oxo-PGF_1α, 5 μg ml⁻¹ min⁻¹). Anaphylactic release of histamine and SRS-A from guinea-pig perfused lungs was not inhibited by PGI₂ (10 ng - 10 μg ml⁻¹ min⁻¹) but was inhibited by PGE₂ (5 and 10 μg ml⁻¹ min⁻¹). Antiserum raised to 5,6-dihydro prostacyclin (PGI₁) in rabbits, which also binds PGI₂, had no effect on the release of anaphylactic mediators. The fatty acid hydroperoxides may enhance mediator release either indirectly by augmenting thromboxane production or by a direct effect on sensitized cells. Further experiments to distinguish between these alternatives are described in the accompanying paper (27).     

Effect of dexamethasone and cytochrome P 450 inhibitors on the formation of 7α-hydroxydehydroepiandrosterone by human adipose stromal cells

7α-Hydroxydehydroepiandrosterone (7α-OHDHA) is a major metabolite of dehydroepiandrosterone (DHA) using adipose stromal cells. To gain a better understanding of the factors regulating DHA metabolism, we examined the effect of dexamethasone and cytochrome P 450 inhibitors on the formation of 7α-OHDHA. Dexamethasone (10⁻⁹ to 10⁻⁷ M) stimulated 7α-OHDHA formation in a dose-dependent manner with a 2- to 5-fold stimulation at 10⁻⁷ M. The dexamethasone stimulated 7α-OHDHA formation was inhibited by RU486 in a dose-dependent manner with suppression to basal levels at 10⁻⁶ M. Progesterone (10⁻⁷ M) had no effect on 7α-OHDHA formation suggesting that the dexamethasone stimulation was acting through the glucocorticoid receptor. Conversion of DHA to 7α-OHDHA was inhibited by ketoconazole and metyrapone. An inhibition of 70–80% was obtained with ketoconazole and 25–60% with metyrapone at concentrations of 10⁻⁵ M. Aminoglutethimide phosphate was less effective than either ketoconazole or metyrapone in inhibiting 7α-OHDHA formation with <30% inhibition at 10⁻⁵ M. These studies indicate that 7-hydroxylation provides an alternative pathway for the metabolism of DHA in peripheral tissues. This pathway, which is regulated by glucocorticoids, may influence the amount of DHA available for conversion to androstenedione and its subsequent aromatization to estrone. The biological role of the 7-oxygenated metabolites and their effects on other steroidogenic pathways have not been established.     

Cells of <Emphasis Type="BoldItalic">Candida utilis</Emphasis> for <Emphasis Type="BoldItalic">in vitro</Emphasis> (<Emphasis Type="BoldItalic">R</Emphasis>)-phenylacetylcarbinol production in an aqueous/octanol two-phase reactor

(R)-Phenylacetylcarbinol (PAC), a pharmaceutical precursor, was produced from benzaldehyde and pyruvate by pyruvate decarboxylase (PDC) of Candida utilis in an aqueous/organic two-phase emulsion reactor. When the partially purified enzyme in this previously established in vitro process was replaced with C. utilis cells and the temperature was increased from 4 to 21 °C, a screen of several 1-alcohols (C4–C9) confirmed the suitability of 1-octanol as the organic phase. Benzyl alcohol, the major by-product in the commercial in vivo conversion of benzaldehyde and sugar to PAC by Saccharomyces cerevisiae, was not formed. With a phase volume ratio of 1:1 and 5.6 g C. utilis l⁻¹ (PDC activity 2.5 U ml⁻¹), PAC levels of 103 g l⁻¹ in the octanol phase and 12.8 g l⁻¹ in the aqueous phase were produced in 15 h at 21 °C. In comparison to our previously published process with partially purified PDC in an aqueous/octanol emulsion at 4 °C, PAC was produced at a 4-times increased specific rate (1.54 versus 0.39 mg U⁻¹ h⁻¹) with simplified catalyst production and reduced cooling cost. Compared to traditional in vivo whole cell PAC production, the yield on benzaldehyde was 26% higher, the product concentration increased 3.9-fold (or 6.9-fold based on the organic phase), the productivity improved 3.1-fold (3.9 g l⁻¹ h⁻¹) and the catalyst was 6.9-fold more efficient (PAC/dry cell mass 10.3 g g⁻¹).*Dedicated with gratitude to Prof. Dr. Franz Lingens – “Theo”.     

Asymmetric inhibition by phlorizin of halide movements across the red blood cell membrane

Using human red cell ghosts, it was shown that external phlorizin inhibits Cl⁻ and I⁻ equilibrium exchange. Internal phlorizin has little effect on I⁻ exchange and no detectable effect on Cl⁻ exchange. This asymmetry is similar to that observed with the much more slowly exchanging SO₄²⁻ and different from that of sugars like l-arabinose or d-xylose which are inhibited by phlorizin from either surface.