The interaction of resealed reticulocyte ghosts with Fe3+-transferrin-CO3(2-)

The present studies were designed to investigate the interaction of Fe3+transferrin-CO3(2-) with the transferrin receptors of the resealed reticulocyte ghost and to assess the degree to which the iron release reaction can be reconstituted in resealed ghosts supplemented with entrapped cytoplasmic components. Reticulocyte, but not erythrocyte, ghosts displayed an intact Fe3+transferrin-CO3(2-) binding capability. When ATP, NADH and ferritin were included during the resealing process, some iron release to the ghosts was observed.     

The effects of Ca2+ and guanylnucleotides on isoprenaline-stimulated cyclic AMP formation in rat reticulocyte ghosts

We have studied beta-adrenergic stimulation of cyclic AMP formation in fragmented membranes and in unsealed or resealed ghosts prepared from rat reticulocytes. The maximal rate of isoprenaline-stimulated cyclic AMP formation with saturating MgATP concentrations and in the presence of the phosphodiesterase inhibitor isobutylmethylxanthine was 5-8 nmol/min per ml ghosts and remained constant for at least 15 min. Transition from resealed ghosts to fragmented membranes was associated with a shift of the activation constant (Ka) for (+/-)-isoprenaline from 0.1 to 0.6 microM. THe apparent dissociation constant for propranolol (0.01 microM) remained unchanged. The Ka values for isoprenaline in native reticulocytes and in resealed ghosts were identical. The stimulating effect of NaF on cyclic AMP formation in resealed ghosts reached 15% of maximal beta-adrenergic stimulation. Cyclic AMP formation, both in fragmented membranes and in ghosts, was half-maximally inhibited with Ca2+ concentrations ranging between 0.1 and 1 microM. GTP stimulated isoprenaline-dependent cyclic AMP formation in unsealed ghosts and in fragmented reticulocyte membranes by a factor of 3-5 but did not change the Ka value for isoprenaline. Ka values for the guanylnucleotides in different experiments varied between 0.3 and 2 microM. Ca2+ concentrations up to 4.6 microM reduced the maximal activation by GTP and Gpp(NH)p but did not affect their Ka values. Compared to GTP, maximal activation by Gpp(NH)p was higher in fragmented membranes, but much lower in ghosts. Our results suggest that the native beta-receptor adenylate cyclase system of reticulocytes is more closely approximated in the ghost model than in fragmented membrane preparations. Membrane properties seem to modulate the actions of guanylnucleotides on isoprenaline-dependent cyclic AMP formation in ghosts. Some of these effects are not observed in isolated membranes.     

Inhibition by calcium ions of adenosine cyclic monophosphate formation in sealed pigeon erythrocyte ''ghosts''. A study using the photoprotein obelin.

1. Sealed pigeon erythrocyte 'ghosts' were prepared containing ATP and the Ca2+-activated photoprotein obelin to investigate the relationship cyclic AMP formation and internal free Ca2+. 2. The 'ghosts' were characterized by (a) morphology (optical and electron microscopy), (b) composition (haemoglobin, K+, Na+, Mg2+, ATP, obelin), (c) permeability to Ca2+, assessed by obelin luminescence and (d) hormone sensitivity (the effect of beta-adrenergic agonists and antagonists on cyclic AMP formation). 3. The effect of osmolarity at haemolysis and ATP at resealing on these parameters was investigated. 4. Sealed 'ghosts', containing approx. 2% of original haemoglobin, 150mM-K+, 0.5MM-ATP, 10(3)--10(4) obelin luminescence counts/10(6) 'ghosts', which were relatively impermeable to Ca2+ and in which cyclic AMP formation was stimulated by beta-adrenergic agonists over a concentration range similar to that for intact cells, could be prepared after haemolysis in 6mM-NaCl3mM-MgCl2/50mM-Tes, pH7, and resealing for 30min at 37 degrees C in the presence of ATP and 150mM-KCl. 5. The initial rate of adrenaline-stimulated cyclic AMP formation in these 'ghosts' was 30--50% of that in intact cells and was inhibited by the addition of extracellular Ca2+. Addition of Ca2+ to the 'ghosts' resulted in a stimulation of obelin luminescence, indicating an increase in internal free Ca2+ under these conditions. 6. The ionophore A23187 increased the rate of obelin luminescence in the 'ghosts' and also inhibited the adrenaline-stimulated increase in cyclic AMP. 7. The effect of ionophore A23187 on obelin luminescence and on cyclic AMP formation in the 'ghosts' was markedly decreased by sealing EGTA inside the 'ghosts'. 8. It was concluded that cyclic AMP formation inside sealed pigeon erythrocyte 'ghosts' could be inhibited by more than 50% by free Ca2+ concentrations in the range 1--10 micrometer.     

Permeability characteristics of erythrocyte ghosts prepared under isoionic conditions by a glycol-induced osmotic lysis.

A detailed study has been made of the permeability characteristics of human erythrocyte ghosts prepared under isoionic conditions by a glycol-induced lysis (Billah, M.M., Finean, J.B., Coleman, R. and Michell, R.H. (1976) Biochim. Biophys. Acta 433, 45-54). Impermeability to large molecules such as dextran (average molecular weight 70 000) was restored immediately and spontaneously after each of the 5-7 lyses that were required to remove all of the haemoglobin. Permeabilities to smaller molecules such as MgATP2-, [3H]inositol and [14C]choline were initially high but could be greatly reduced by incubation at 37 degrees C for an hour. The extent of such resealing decreased as the number of lyses to which the ghosts had been subjected increased. Both removal of haemoglobin and permeabilities to small molecules were affected significantly by pH, CA3+ concentrations and divalent cation chelators. Maximum resealing was achieved in ghosts prepared in the basic ionic medium (130 mM KCl, 10 nM NaCl, 2 mM MgCl2, 10 mM N-2-hydroxyethylpiperazine-N'-2-ethanesulphonic acid (HEPES)) at pH 7.0 (0 degrees C) and with a calcium level around 10(-5) M. Acidic pH facilitated the removal of haemoglobin whilst the presence of divalent cation chelators showed down its release. Retention of K+ by ghosts leaded with K+ during the first lysis and subsequently incubated at 37 degrees C was substantial but lation chelators slowed down its released. Retention of K+ by ghosts loaded with K+ during the first lysis and subsequently incubated at 37 degrees C was substantial but little K+ could be retained within the haemoglobin-free ghosts. Permeability of the ghosts to K+ after one lysis was affected by temperature, pH, Ca2+ concentrations and by the presence of divalent cation chelators.     

Transmembrane Ca2+ gradient is essential for high anion transport activity of human erythrocytes

The role of a transmembrane Ca²⁺ gradient in anion transport by Band 3 of human resealed erythrocyte ghosts has been studied. The results show that a transmembrane Ca²⁺ gradient is essential for the conformation of erythrocyte Band 3 with higher anion transport activity. The dissipation of the transmembrane Ca²⁺ gradient by the ionophore A23187 inhibits the anion transport activity. The extent of this inhibition approaches 90% as the Ca²⁺ concentration on both sides of the ghost membrane is increased to 1.0 mM and half-maximum inhibition is observed at 0.25 mM Ca²⁺. Addition of ATP (0.4 mM) to the resealing medium can partly reestablish the transmembrane Ca²⁺ gradient by activation of Ca²⁺-ATPase and alleviate the inhibition to some extent. N-ethylmaleimide, an inhibitor of erythrocyte Ca²⁺-ATPase, prevents such restoration. Electron micrographs reveal that numerous larger intramembranous particles can be observed on the P-faces of freeze-fractured resealed ghosts in the absence of a transmembrane Ca²⁺ gradient.Abbreviations DPA dipicolinic acid - EITC eosin 5-isothiocyanate - DIDS 4,4-diisothiocyanostilbene-2,2-disulfonate - TES N-Tris-(hydroxymethyl)methyl-2-aminoethane sulfonic acid - PMSF phenylmethyl-sulfonylfluoride - NEM N-ethylamaleimide - BSA bovine serum albumin - EGTA ethyleneglycol-bis (aminoethylether)-tetra-acetic acid - EITC-Band 3 Band 3 labeled with EITC - Ca_i Ca²⁺ inside resealed ghosts - Ca_o Ca²⁺ outside resealed ghosts     

Localization of the phlorizin site on Na, K-ATPase in red cell membranes.

Phlorizin at 2 X 10(-4) M inhibited Na+ and Rb+-activated ATPase activities in human red cell membranes by 43%. It inhibited the 86Rb uptake activity of erythrocytes by only 15%. 86Rb uptake into resealed ghosts was inhibited strongly when phlorizin and ATP were preloaded in the ghosts before resealing. Na,K-ATPase activity in the resealed ghosts was also inhibited in the presence of phlorizin inside but not outside the ghosts. These findings suggested that the phlorizin site is located inside the cell.     

The effects of Ca2+ and guanylnucleotides on isoprenaline-stimulated cyclic AMP formation in rat reticulocyte ghosts

We have studied β-adrenergic stimulation of cyclic AMP formation in fragmented membranes and in unsealed or resealed ghosts prepared from rat reticulocytes. The maximal rate of isoprenaline-stimulated cyclic AMP formation with saturating MgATP concentrations and in the presence of the phosphodiesterase inhibitor isobutylmethylxanthine was 5–8 nmol/min per ml ghosts are remained constant for at least 15 min. Transition from resealed ghosts to fragmented membranes was associated with a shift of the activation constant (K_a) for (±)-isoprenaline from 0.1 to 0.6 μM. The apparent dissociation constant for propranolol (0.01 μM) remained unchanged. The K_a values for isoprenaline in native reticulocytes and in resealed ghosts were identi The stimulating effect of NaF on cyclic AMP formation in resealed ghosts reached 15% of maximal β-adrenergic stimulation. Cyclic AMP formation, both in fragmented membranes and in ghosts, was half-maximally inhibited with Ca²⁺ concentrations ranging between 0.1 and 1 μM. GTP stimulated iosprenaline-dependent cyclic AMP formation in unsealed ghosts and in fragmented reticulocyte membranes by a factor of 3–5 but did not change the K_a value for isoprenaline. K_a values for the guanylnucleotides in different experiments varied between 0.3 and 2 μM. Ca²⁺ concentrations up to 4.6 μM reduced the maximal activation by GTP and Gpp(NH)p but did not affect their K_a values. Compared to GTP, maximal activation by Gpp(NH)p was higher in fragmented membranes, but much lower in ghosts. Our results suggest that the native β-receptor adenylate cyclase system of reticulocytes is more closely approximated in the ghost model than in fragmented membrane preparations. Membrane properties seem to modulate the actions of guanylnucleotides on isoprenaline-dependent cyclic AMP formation in ghosts. Some of these effects are not observed in isolated membranes.     

The effects of Ca and guanylnucleotides on isoprenaline-stimulated cyclic AMP formation in rat reticulocyte ghosts

We have studied β-adrenergic stimulation of cyclic AMP formation in fragmented membranes and in unsealed or resealed ghosts prepared from rat reticulocytes. The maximal rate of isoprenaline-stimulated cyclic AMP formation with saturating MgATP concentrations and in the presence of the phosphodiesterase inhibitor isobutylmethylxanthine was 5–8 nmol/min per ml ghosts are remained constant for at least 15 min. Transition from resealed ghosts to fragmented membranes was associated with a shift of the activation constant (K_a) for (±)-isoprenaline from 0.1 to 0.6 μM. The apparent dissociation constant for propranolol (0.01 μM) remained unchanged. The K_a values for isoprenaline in native reticulocytes and in resealed ghosts were identi The stimulating effect of NaF on cyclic AMP formation in resealed ghosts reached 15% of maximal β-adrenergic stimulation. Cyclic AMP formation, both in fragmented membranes and in ghosts, was half-maximally inhibited with Ca²⁺ concentrations ranging between 0.1 and 1 μM. GTP stimulated iosprenaline-dependent cyclic AMP formation in unsealed ghosts and in fragmented reticulocyte membranes by a factor of 3–5 but did not change the K_a value for isoprenaline. K_a values for the guanylnucleotides in different experiments varied between 0.3 and 2 μM. Ca²⁺ concentrations up to 4.6 μM reduced the maximal activation by GTP and Gpp(NH)p but did not affect their K_a values. Compared to GTP, maximal activation by Gpp(NH)p was higher in fragmented membranes, but much lower in ghosts. Our results suggest that the native β-receptor adenylate cyclase system of reticulocytes is more closely approximated in the ghost model than in fragmented membrane preparations. Membrane properties seem to modulate the actions of guanylnucleotides on isoprenaline-dependent cyclic AMP formation in ghosts. Some of these effects are not observed in isolated membranes.     

The effect of 5-hydroxytryptamine and other indole derivatives on the formation of adenosine 3',5'-cyclic monophosphate in pigeon erythrocytes.

1. The effect of insulin, acetylcholine, histamine, 5-hydroxytryptamine and prostaglandins E1, E2 and F2alpha on basal and adrenalin-stimulated cyclic AMP content in intact pigeon erythrocytes was investigated. 2. None of these compounds influenced basal cyclic AMP contest, and only 5-hydroxytryptamine antagonized the effect of adrenalin. The increase in cyclic AMP with 0.55 micronM adrenalin was inhibited by approx. 60% in the presence of 10 muM 5-hydroxytryptamine. The interaction between adrenalin and 5-hydroxytryptamine was competitive. 3. 5-Hydroxytryptamine did not affect the rate of degradation of cyclic AMP in intact cells, but did inhibit adrenalin-stimulated cyclic AMP formation in permeable or resealed cell "ghosts". 4. The effect of 5-hydroxytryptamine to inhibit cyclic AMP accumulation was not dependent on the presence of Ca2+, in either intact cells or "ghosts". 5. Various indole derivatives and other compounds were tested for their ability to inhibit the effect of adrenalin on cyclic AMP accumulation. Only those derivatives with a free amino group and net positive charge in the side chain were effective. 6. It was concluded that 5-hydroxytryptamine inhibits adrenalin-stimulated adenylate cyclase activity in pigeon erythrocytes, possibly by competing with adrenalin for binding to the beta-adrenergic receptor.     

A simple spectroscopic method for studying erythrocyte ghost resealing.

A novel spectroscopic method is described for following the kinetics of resealing of hemolysed erythrocyte ghosts. The procedure is based on the broadening of the EPR spectrum of nitroxyl radicals by paramagnetic ions. The method is used to study the effect of Ca2+, Mg2+ and dimethonium ion on the kinetics of resealing.     

K+-Evoked Depolarization Stimulates Cyclic AMP Accumulation in Photoreceptor-Enriched Retinal Cell Cultures: Role of Calcium Influx Through Dihydropyridine-Sensitive Calcium Channels

The effect of membrane depolarization on cyclic AMP synthesis was studied in glia-free, low-density, monolayer cultures of chick retinal photoreceptors and neurons. In photoreceptor-enriched cultures prepared from embryonic day 6 retinas and cultured for 6 days, elevated K+ concentrations increased the intracellular concentration of cyclic AMP and stimulated the conversion of [3H]adenine to [3H]cyclic AMP. The K(+)-evoked increase of cyclic AMP accumulation was blocked by omitting CaCl2 from the incubation medium, indicating a requirement for extracellular Ca2+. Stimulation of cyclic AMP accumulation was also inhibited by nifedipine, methoxyverapamil, Cd2+, Co2+, and Mg2+, and was enhanced by the dihydropyridine Ca2+ channel agonist Bay K 8644. The enhancement of K(+)-evoked cyclic AMP accumulation by Bay K 8644 was antagonized by nifedipine. Thus, Ca2+ influx through dihydropyridine-sensitive channel is required for depolarization-evoked stimulation of cyclic AMP accumulation in photoreceptor-enriched cultures.     

Erythrocyte membrane ATPase and calcium pumping activities in porcine malignant hyperthermia

To investigate possible abnormalities in erythrocyte membrane enzyme activities in the pharmacogenetic disorder MH, membrane ATPase activities have been examined in erythrocyte ghosts prepared from red blood cells of MHS and normal swine. While no differences were noted in Mg2+-ATPase activities, the (Na+, K+)-ATPase activity of MHS erythrocyte ghosts was less than that of normal ghosts. Ca2+-ATPase activity exhibited low- and high-affinity Ca2+-binding sites in both types of erythrocyte ghost. While the Km for Ca2+ was greater for normal than for MHS erythrocyte ghosts at the high-affinity Ca2+-binding site, the reverse was true at the low-affinity Ca2+-binding site. Irrespective of the type of calcium binding site occupied, the Vmax for normal erythrocyte ghost Ca2+-ATPase activity was greater than that for MHS ghosts. In the presence of calmodulin, there was now no difference between MHS and normal erythrocyte ghosts in either the Km for Ca2+ or the Vmax of the Ca2+-ATPase activity. To determine if the calcium pumping activity of intact MHS and normal pig erythrocytes differed, calcium efflux from the 45Ca-loaded erythrocytes was determined; this activity was significantly greater for MHS than for normal erythrocytes. Thus, the present study confirms that there are abnormalities in the membranes of MHS pig red blood cells. However, we conclude that these abnormalities are unlikely to result in an impaired ability of MHS erythrocytes to regulate their cytosolic Ca2+ concentration.     

Effects of preparative procedures on the volume and content of resealed red cell ghosts

The effects of variations in preparative procedures on the volume and content of resealed red cell ghosts have been investigated. Following hypotonic lysis at 0 degrees C, and after a variable delay time (td), concentrated buffer was added to restore isotonicity; resealing was then induced by incubation at 37 degrees C for one hour. Using this procedure, both the resealed ghost volume and the residual hemoglobin (Hb) content decreased for increasing td. If ghosts were maintained at 0 degree C (i.e., no 37 degrees C incubation), they remained nearly spherical until isotonicity was restored. Their volume then fell abruptly, but subsequently increased toward an intermediate level. The fall in volume was greater and the final level achieved was smaller for longer delay times. At 0 degree C, return to isotonicity also halted the otherwise gradual loss of residual Hb from unsealed ghosts. In addition, ghosts with internal osmolality of 40 to 300 mosmol/kg were prepared by adding different amounts of concentrated buffer before resealing for one hour at 37 degrees C. Under these conditions, the final ghost volume was inversely related to the resealing osmolality (i.e., lower osmolality yielded a larger volume). Ghost volume also increased, along with Hb content, if the quantity or concentration of the red cell suspension added to the lysing medium was increased. We conclude that resealed ghost volume is influenced by the ratio of lysate to resealing medium osmolality and by the colloid osmotic pressure of the residual ghost Hb. These data indicate methods by which ghosts with desired characteristics can be prepared, and have potential application for studies of ghost mechanical and biophysical behavior.     

Depolarizing agent-induced cyclic AMP accumulation in isolated rat spinal cord

The stimulation of cyclic adenosine 3',5'-monophosphate (cyclic AMP) accumulation by the depolarizing agents K+, ouabain and veratridine, was studied in rat and guinea pig spinal cord tissue slices. Significantly increased accumulation of cyclic AMP was produced by each of the agents in a concentration-dependent manner. Veratridine and ouabain were equipotent (EC50 = 5 x 10(-5)M) and approximately 500 fold more potent than K+ (EC50 = 10(-2)M). Depolarizing agent-induced cyclic AMP accumulation in slices from guinea pig spinal cord was approximately double the response in rat spinal cord. Maximum stimulation occurred within 2.5 min of incubation with these agents and lasted for at least 30 min. Regional studies demonstrated that the maximal accumulation of cyclic AMP occurred to a greater degree in tissue slices from the dorsal section of spinal cord from both rat and guinea pig. Whereas the ouabain and veratridine stimulatory responses are completely dependent on extracellular Ca++, the K+ response is only partially dependent. Stimulation due to ouabain and veratridine is dependent, and K+ is independent, of release of neurohumoral substances such as norepinephrine or adenosine from spinal neurons. These experiments indicate the possible modulatory role of depolarization-linked events in regulating the spinal cord cyclic AMP system.     

A requirement of bicarbonate for Ca2+-induced elevations of cyclic AMP in guinea pig spermatozoa

Ca2+ causes less than 2-fold elevations of guinea pig sperm cyclic AMP concentrations when cells are incubated in a minimal culture medium in the absence of bicarbonate (HCO3-). However, in the presence of HCO3-, Ca2+ increases cyclic AMP by as much as 25-fold within 1 min. The (Ca2+, HCO3-)-induced elevations occur in either the presence or absence of the permeant anions, pyruvate and lactate. In the absence of extracellular Ca2+, HCO3- elevates cyclic AMP only slightly. The effect of HCO3- is concentration-dependent, with maximal responses obtained at concentrations of greater than 25 mM. Ca2+ (25 mM HCO3-) at concentrations of less than 100 microM causes one-half-maximal elevations of cyclic AMP. The (Ca2+, HCO3-)-induced elevations of cyclic AMP are observed at various extracellular pH values (7.5-8.5) and in the presence or absence of extracellular Na+ or K+. NH4Cl does not elevate sperm cyclic AMP concentrations and does not greatly alter the (Ca2+, HCO3-)-induced elevations. the putative Ca2+ transport antagonist, D-600 (100 microM), completely blocks the (Ca2+, HCO3-)-induced elevations of cyclic AMP. A23187, in the presence but not in the absence of extracellular Ca2+, increases sperm cyclic AMP but does not further elevate cyclic AMP in HCO3(-)-treated cells. These studies establish that Ca2+-dependent elevations of cyclic AMp in guinea pig spermatozoa are dependent on the presence of HCO3- and suggest that HCO3- is required for the uptake (exchange) or membrane sequestration of small amounts of physiologically active Ca2+.     

A flow EPR study of deformation and orientation characteristics of erythrocyte ghosts: Effects of lysing and resealing conditions

Summary The effects of various conditions in lysing and resealing the red cell membrane on the degree of ghost deformation and orientation in flow are investigated using the flow EPR and spin-label method. The relatively low deformability of the standard ghost, which is lysed and resealed, respectively, in hypotonic and isotonic NaCl-Tris buffer, is markedly enhanced by the presence of Mg-ATP, chlorpromazine, or Ca²⁺ ion during resealing. The effect is concentration dependent, and there is an optimal level for each treatment. Chlorpromazine and Ca²⁺ are also effective when added to the resealed ghosts. Mg²⁺ ion shows an opposite effect reducing the ghost deformability in flow at all concentrations. An isotonic lysis in NH₄HCO₃ solution with less osmotic stress substantially raises ghost deformability above that of the standard ghosts. These results are interpreted on the basis of a misalignment between the bilayer leaflets that is probably brought about during hypotonic lysis and its recovery to the nearly normal bilayer state by the agents used during or after resealing. The novel finding of deformability enhancing effect of calcium is assumed to be caused by the electrostatic expansion of the inner layer relative to the outer leaflet. The explanations are supported by the resealed ghost shapes observed before and after the treatments; shape recovery from the monoconcave spheroid toward biconcave discoid is observed in most cases concomitantly with improvements of flow characteristics.     

Passive Ca transport in human red blood cell ghosts measured with entrapped arsenazo III

The rate of Ca influx into ghosts containing arsenazo III changes with time, being most rapid during the first 5 min after Ca is added to the outside and declining thereafter. The rate of Ca influx is a nonlinear function of extracellular Ca and plateaus as the latter is increased above 1 mM. The rate of Ca influx was measured as a function of the transmembrane gradients of Na and K and changes in the permeability of the membrane to K and Cl produced by valinomycin and SITS (4-acetamido-4'-isothiocyano-stilbene-2-2'-disulfonic acid), respectively. Changes in the rate of Ca influx are consistent with expected effects of these treatments on the membrane potential. Oligomycin (10 micrograms/ml) and quinidine (1 mM) inhibit the rate of Ca uptake by inhibiting Ca-induced changes in the K permeability. At constant membrane potential, furosemide produced a slight (15%) consistent increase in Ca uptake. Other experiments show that resealed ghosts are heterogeneous in their passive permeability to Ca and that A23187 can be used to effectively eliminate such differences. The results of this paper show that resealed human red cell ghosts containing arsenazo III can be used to continuously monitor intracellular free Ca and to study the factors that influence the permeability of the red cell membrane to Ca.     

Does calmodulin participate in the regulation of the Ca-pump of erythrocytes in vivo?

Using a highly effective chelator of Ca2+ and 45Ca, the concentration of Cai2+ in human and rat erythrocytes was measured both at normal and accelerated Ca2+ influx into the cells. No effect of the calmodulin-dependent reaction inhibitor R24571 was observed. The Ca-ATPase from saponin-treated erythrocytes was characterized by a high affinity for Ca2+ (K 0.5-0.7 microM). This value is 2-3 times as low as that for Ca2+ concentration causing a 50% increase of the Ca-ATPase activity in erythrocyte ghosts obtained during hypoosmotic hemolysis. The Ca-ATPase activity in saponin-treated erythrocytes did not change either under the effect of calmodulin or by R24571. It was assumed that calmodulin did not participate in the regulation of the Ca2+-pump operation in erythrocytes in vivo.     

The influence of adenosine 3',5'-monophosphate upon the activity of the membrane-associated (Ca+ + Mg2+)-dependent adenosine triphosphatase of the human erythrocyte

The phosphohydrolase activity of the membrane-associated (Ca2+ + Mg2+)-dependent adenosine triphosphatase (ATPase) of the human erythrocyte can be inhibited by micromolar of nanomolar concentrations of cyclic AMP. Millimolar concentrations of cyclic AMP are less effective. The inhibitory effect of cyclic AMP is potentiated in the presence of the phosphodiesterase inhibitor, theophylline.     

Involvement of cytoskeletal proteins in the barrier function of the human erythrocyte membrane. I. Impairment of resealing and formation of aqueous pores in the ghost membrane after modification of SH groups.

Resealed human erythrocyte ghosts prepared by a two-step procedure were shown to have small residual barrier defects with the properties of aqueous pores, such as size discrimination of hydrophilic nonelectrolytes (erythritol to sucrose), indicative of an apparent pore radius of about 0.7 nm, and a low activation energy (about 12-20 kJ/mol (mannitol, sucrose)) of the leak fluxes. As in other cases (Deuticke et al. (1991) Biochim. Biophys. Acta 1067, 111-122) these leak fluxes can be inhibited by phloretin. Treatment of such resealed ghosts with the mild SH oxidizing agent, diamide, induces additional membrane leaks to the same extent and with the same properties as in native erythrocytes (Deuticke et al. (1983) Biochim. Biophys. Acta 731, 196-210), including reversibility of the leak by SH reducing agents, inhibition by phloretin and stimulation by alkanols. In contrast, resealed ghosts prepared either from diamide-treated erythrocytes or by adding diamide to the 'open' membranes prior to reconstitution of high ionic strength and raising the temperature, exhibit a state of greater leakiness. This leakiness is somewhat different in its origin from the former class of leaks, since it can also be produced by N-ethylmaleimide, which is essentially ineffective when added to the membrane in its 'tight' state. The leaks induced in the 'open' state of the membrane, which can be regarded as a consequence of an impaired resealing, are nevertheless reversible by reducing agents added after resealing and are comparable in many, but not all their characteristics to leaks induced in the 'tight' state of the membrane. Resealing in the presence of the isothiocyanostilbenes DIDS or SITS mimicks the leak forming effect of diamide by modifying a small population of SH groups, while amino groups seem not to be involved. The findings indicate and substantiate an important role of the redox state of membrane skeletal protein sulfhydryls in the maintenance and the re-establishment of the barrier function of the erythrocyte membrane.