Influence of protein conformation on its adaptability under chaotropic conditions

The thermostability of serum albumin and beta-lactoglobulin in various salt solutions was studied using differential scanning calorimetry. Below 1.0 M salt concentrations, the relative effectiveness of various sodium salts on increasing the thermostability of beta-lactoglobulin followed the classic Hofmeister or lyotropic series, i.e. SO2-(4) greater than Cl- greater than Br- greater than ClO-4 greater than SCN-; however, in the case of serum albumin the above order was reversed, i.e. ClO-4 greater than SCN- greater than Br- greater than Cl- greater than SO2-(4), indicating that the thermostability of serum albumin was higher in chaotropic solution conditions. Circular dichroic analysis of serum albumin in NaClO4 solutions revealed that the alpha-helical content of the protein increased from 59% to 73% in 1.0 M NaClO4; no similar increase in secondary structure was observed for beta-lactoglobulin. These observations contradicted the general notion that the chaotropic effect of neutral salts on the stability of macromolecules is independent of any details of the macromolecular conformation itself. The results presented here indicate that the predisposition of the native conformation of a protein per se might affect whether the protein would undergo stabilization or destabilization (i.e. conformational adaptability) under moderate chaotropic solution conditions.     

Ionic regulation of glutamate binding sites

Cl- and Ca2+ increase glutamate binding to rat synaptic plasma membranes (SPMs) by revealing a distinct class of L-glutamate (L-Glu) binding sites. The present study was conducted to examine both the anion specificity of this response and the nature of the interaction between Cl- and Ca2+. Of the anions tested, Br- was the most effective in increasing the levels of L-Glu binding. Other effective anions were Cl-, NO3- and formate while F-, HCO3-CIO4-, propionate, SO42- and PO43- were ineffective. The anion specificity was similar to that observed for the Cl- membrane channel, suggesting that this binding site and the ion channel may be related. In the absence of Cl-, Ca2+ has little effect on L-Glu binding. Increasing the Cl- concentration increased the apparent affinity (decreased KCa2+) of the Ca2+-stimulated, L-Glu binding component and also increased the maximal amount of the enhancement. Conversely, increasing Ca2+ levels increased the maximal enhancement of L-Glu binding brought about by Cl- without affecting the KCl- of the effect. Prior incubation of membranes with Ca2+ did not raise the level of L-Glu binding. Furthermore, EGTA was able to reverse the stimulation of L-Glu binding due to Ca2+. The results indicate that Ca2+ acts ionically to enhance L-Glu binding to rat SPMs.     

Anion dependence of Ca2+ transport and (Ca2+ + K+)-stimulated Mg2+-dependent transport ATPase in rat pancreatic endoplasmic reticulum

Anion dependence of (Ca2+ + K+)-stimulated Mg2+-dependent transport ATPase and its phosphorylated intermediate have been characterized in both "intact" and "broken" vesicles from endoplasmic reticulum of rat pancreatic acinar cells using adenosine 5'-[gamma-32P] triphosphate ([gamma-32P]ATP). In intact vesicles (Ca2+ + K+)-Mg2+-ATPase activity was higher in the presence of Cl- or Br- as compared to NO3-, SCN-, cyclamate-, SO4(2-) or SO3(2-). Incorporation of 32P from [gamma-32P]ATP into the 100-kDa intermediate of this Ca2+ATPase was also higher in the presence of Cl-, Br-, NO3- or SCN- as compared to cyclamate-, SO4(2-) or SO3(2-). When the membrane permeability barrier to anions was abolished by breaking vesicle membrane with the detergent Triton X-100 (0.015%) (Ca2+ + K+)-Mg2+ATPase activity in the presence of weakly permeant anions, such as SO4(2-) and cyclamate-, increased to the level obtained with Cl-. However, 32P incorporation into 100-kDa protein was still higher in the presence of Cl- as compared to cyclamate-, indicating a direct effect of Cl- on the Ca2+ATPase molecule. The anion transport blocker 4,4-diisothiocyanostilbene-2,2-disulfonate (DIDS) inhibited (Ca2+ + K+)-Mg2+ATPase activity to about 10% of the Cl- stimulation level, irrespective of the sort of anions present in both intact and broken vesicles. This indicates a direct effect of DIDS on (Ca2+ + K+)-Mg2+ATPase. K+ ionophore valinomycin influenced (Ca2+ + K+)-Mg2+ATPase activity according to the actual K+ gradient: Ko+ greater than Ki+ caused inhibition, Ko+ less than Ki+ caused stimulation. From these results we conclude that Ca2+ transport into endoplasmic reticulum is coupled to ion movements which must occur to maintain electroneutrality.     

Volume-activated chloride currents from human fibroblasts: blockade by nimodipine

The whole-cell patch clamp technique was used to identify and to characterize volume-activated Cl- current (ICl(vol)) in fibroblasts derived from human periodontal ligament. During osmotic cell swelling, the cells exhibited an outwardly rectifying current, which was dependent upon the concentration of external Cl-. The anion permeability sequence of the chloride channel for anions was as follows: SCN- > I- > Br- > Cl- > F- > methanesulphonate > gluconate. Being an inhibitor of Cl- channels and Cl-/HCO exchanger, 4,4'-diisothiocyanato-stilbene-2,2'-disulfonic acid (DIDS) inhibited the currents with a voltage-dependence (EC50 57 micromol/l at +80 mV), and 5-nitro-2-(3-phenylpropylamino)-benzoic acid (NPPB), a carboxylate analogue Cl- channel blocker, showed the reversible suppression of the currents in a dose-dependent manner (EC50 = 59 micromol/l). Nimodipine, a selective dihydropyridine Ca2+ channel blocker suppressed ICl(vol) (EC50 = 66 micromol/l) and the effects were quite similar to those of NPPB. Nifedipine, another DHP blocker also inhibited the currents but with lesser efficacy (EC50 = 139 micromol/l). The removal of external Ca2+ or the addition of Cd2+ in the bath solution did not affect the blocking effects of nimodipine on ICl(vol). These findings demonstrate that the human fibroblasts ICl(Vol) was suppressed by nimodipine in an extracellular Ca2+-independent way. These results may provide, at least in part, an explanation for the Ca2+-independent decrease in Cl-/organic osmolytes efflux and RVD responses by nimodipine in some cell types.     

Lysis of Streptococcus mutans by hen egg white lysozyme and inorganic sodium salts.

Streptococcus mutans BHT was grown in a synthetic medium containing radioactive thymidine to monitor deoxyribonucleic acid release. Kinetic experiments demonstrated that although lysozyme alone could not liberate deoxyribonucleic acid, cellular deoxyribonucleic acid was liberated from lysozyme-treated cells by addition of low concentrations of inorganic sodium salts. When the salts were tested for their ability to dislodge cell-bound tritiated lysozyme, the extent of the initial release of enzyme by individual anions correlated with the anion potency for deoxyribonucleic acid liberation (SCN- greater than ClO4- greater than I- greater than Br- greater than NO3- greater than Cl- greater than F-), although the total amount of lysozyme dislodged did not correspond directly with cell lysis. Differences in the effectiveness of anions (SCN-, HCO3-, Cl- and F-) in potentiating cell lysis could be enhanced or minimized by varying the lysozyme, anion, and bacterial cell concentrations. As the anion concentration was increased for each enzyme concentration and cell concentration, the lysis increased, in some cases markedly, until maximum levels of released deoxyribonucleic acid were attained. The maximum levels of lysis of SCN- and HCO3- were similar and were greater than those for Cl- and F-. In addition, the maximum levels were observed to increase for each of the anions as the concentration of lysozyme increased.     

Sexual dimorphism of vascular smooth muscle responsiveness is dependent on anions and estrogen.

Alteration of the extracellular anion environment by replacement of chloride ions (Cl-) with thiocyanate ions (SCN-) in normal Krebs-Ringer bicarbonate solution (NKRB) induced sustained development of basal tension in isolated aortas from male adult Sprague-Dawley and Long-Evans rats, but not from females of these strains. However, aortic smooth muscle isolated from sexually immature male and female Wistar rats underwent more marked tension development under such treatment, exhibiting no gender differences. Such SCN(-)-induced contractile responses are not tachyphylactic, completely dependent on extracellular calcium ([Ca2+]0), and could be aborted (relaxed to basal tone) by readmission of Cl-. Castration and replacement of male sex hormones with estradiol inhibited SCN(-)-induced contractions in isolated aortas from adult Wistar male rats, while castration and testosterone supplementation failed to induce contraction in aortic muscle of adult female Wistar rats exposed to SCN-. We believe these data are compatible with the notion that gender differences in vascular activity may be modulated by actions of estradiol on the metabolism of Cl- and other anions in vascular smooth muscle, which may be linked to transport of Ca2+ across the vascular muscle cell membrane.     

Lyotropic anions. Na channel gating and Ca electrode response

The effects of external anions on gating of Na channels of frog skeletal muscle were studied under voltage clamp. Anions reversibly shift the voltage dependence of peak sodium permeability and of steady state sodium inactivation towards more negative potentials in the sequence: methanesulfonate less than or equal to Cl- less than or equal to acetate less than Br- less than or equal to NO-3 less than or equal to SO2-4 less than benzenesulfonate less than SCN- less than ClO-4; approximately the lyotropic sequence. Voltage shifts are graded with mole fraction in mixtures and are roughly additive to calcium shifts. The peak PNa is not greatly affected. Except for SO2-4, these anions did not change the Ca++ activity of the solutions as measured with the dye murexide. Shifts of gating can be explained as the electrostatic effect of anion adsorption to the Na channel or to nearby lipid. Such adsorption is expected to follow the lyotropic series. Anions also interfere significantly with the response of a Ca-sensitive membrane electrode following the same sequence of effectiveness as the shifts of gating. The lyotropic anions decrease the Ca++ sensitivity and cause anomalously negative responses of the Ca electrode because these anions are somewhat permeant in the hydrophobic detector membrane.     

Microfluorometric analysis of Cl- permeability and its relation to oscillatory Ca2+ signalling in glucose-stimulated pancreatic beta-cells

The cytoplasmic concentrations of Cl-([Cl-]i) and Ca2+ ([Ca2+]i) were measured with the fluorescent indicators N-(ethoxycarbonylmethyl)-6-methoxyquinilinum bromide (MQAE) and fura-2 in pancreatic beta-cells isolated from ob/ob mice. Steady-state [Cl-]i in unstimulated beta-cells was 34 mM, which is higher than expected from a passive distribution. Increase of the glucose concentration from 3 to 20 mM resulted in an accelerated entry of Cl- into beta-cells depleted of this ion. The exposure to 20 mM glucose did not affect steady-state [Cl-]i either in the absence or presence of furosemide inhibition of Na+, K+, 2 Cl- co-transport. Glucose-induced oscillations of [Ca2+]i were transformed into sustained elevation in the presence of 4,4' diisothiocyanato-dihydrostilbene-2,2'-disulfonic acid (H2DIDS). A similar effect was noted when replacing 25% of extracellular Cl- with the more easily permeating anions SCN-, I-, NO3- or Br-. It is concluded that glucose stimulation of the beta-cells is coupled to an increase in their Cl- permeability and that the oscillatory Ca2+ signalling is critically dependent on transmembrane Cl- fluxes.     

Method for determination of sodium, potassium, calcium, magnesium, chloride, and phosphate in the rat choroid plexus by flame atomic absorption and visible spectroscopy

A rapid simple technique for the measurement of Na+, K+, Mg2+, Ca2+, PO4(3-), and Cl- was developed to analyze ion contents in the choroid plexus of the rat. The technique involves digestion in piperidine, precipitation of proteins with HClO4, and analysis of Na+, K+, Ca2+, and Mg2+ by atomic absorption spectroscopy and Cl- and PO4(3-) by visible spectroscopy. The coefficient of variation for the measurement of eight replicates was 1-3% for all ions. Analysis of choroid plexuses from eight rats yielded coefficients of variation of about 6% and the values for Na+, K+, and Cl- compared favorably to previous works. The analytical procedure described in this paper allows the determination of six major physiologic ions in rat choroid plexus (4 mg wet wt).     

A Cl-/HCO-3-ATPase in the gills of Carassius auratus. Its inhibition by thiocyanate.

An ATPase is demonstrated in plasma membrane fractions of goldfish gills. This enzyme is stimulated by Cl- and HCO-3, inhibited by SCN-. Biochemical characterization shows that HCO-3 stimulation (Km = 2.5 mequiv./l) is specifically inhibited in a competitive fashion by SCN- (Ki = 0.25 mequiv./l). This residual Mg2+-dependent activity is weakly affected by SCN-. In the microsomal fraction chloride stimulation of the enzyme occurs in the presence of HCO-3 (Km for chloride = 1 mequiv/l); no stimulation is observed in the absence of HCO-3. Thiocyanate exhibits a mixed type of inhibition (Ki = 0.06 mequiv./l) towards the Cl- stimulation of the enzyme. Bicarbonate-dependent ATPase from the mitochondrial fraction is stimulated by Cl-, but this enzyme has a relatively weak affinity for this substrate (Km = 14 mequiv./l).     

Physical and catalytic properties of alpha-amylase from Tenebrio molitor L. larvae.

The amylase from Tenebrio molitor L. larvae (yellow mealworm) was characterized according to a number of its molecular and catalytic properties. The insect amylase is a single polypeptide chain with mol.wt. 68000, an isoelectric point of 4.0 and a very low content of sulphur-containing amino acids. The enzyme is a Ca2+-protein and behaves as an alpha-amylase. Removal of Ca2+ by exhaustive dialysis against water causes the irreversible inactivation of the enzyme. Moreover, the enzyme is activated by the presence in the assay mixture of Cl-, or some other inorganic anions that are less effective than Cl-, and is inhibited by F-. Optimal conditions of pH and temperature for the enzymic activity are 5.8 and 37 degrees C. The insect amylase exhibits an identical kinetic behaviour toward starch, amylose and amylopectin; the enzyme hydrolyses glycogen with a higher affinity constant. Compared with the non-insect alpha-amylases described in the literature, Tenebrio molitor amylase has a lower affinity for starch.     

Investigation of adenosinetriphosphatase activity of rat liver and thymus cell nuclei]

The activity of ATPase was studied in highly purified rat liver and thymus cell nuclei, HCO3-, CO3(2-) and SO3(2-) stimulated nuclear ATPase in 1.5--2 times. HSO3- did not affect the enzyme activity, and NO3-, J-, ClO4-,F- and SCN- inhibited it. Bicarbonate increased V and decreased Ka for ATP. SCN- inhibited HCO3--ATPase activity non-competitively with respect to HCO3-. Mg2+-ATPase activity did not depend on pH, and HCO3-component of the activity was decreased under alkaline pH. Mg2+, Mn2+ and Co2+ increased the initial ATPase activity and helped its stimulation with HCO3-. Ba2+, Ni2+ and Zn2+ inhibited the ATPase activity, and Ca2+ did not affect it, Nuclear ATPase is sensitive to 2,4-dinitrophenol and DNAase. It is suggested that cell nuclei have their own H+-ATPase differing for some characteristics from mitochondrial H+-ATPase.     

Passive ion permeability of the chromaffin-granule membrane.

'Ghosts' of bovine chromaffin granules, in which the complex mixture of proteins and solutes normally found in the granule matrix is replaced by buffered sucrose are osmotically sensitive. They shrink when the osmotic pressure of the suspension medium is increased, and swell if solute entry is facilitated by the addition of ionophores. Swelling in the presence of ionophores has been used to investigate the passive ion permeability of these membranes. They have a very low permeability to K+ ions (of the order of 10(-10) cm/s); their permeability to protons, Na+ and choline ions is too low to be detected by these methods. Their passive permeability to anions decreases in the order: CNS- greater than I- greater than CCl3CO2- greater than Br- greater than Cl- greater than SO4(2)- greater than CH3CO2-, HCO3-, F-, PO4(3)- the permeability to hiocyanate being of the order of 10(-7) cm/s. Coupled proton and anion entry is extremely slow, except for weak acids. Fluoride, unexpectedly, also appears to enter rapidly when proton/K+ exchange is facilitated by nigericin. In the presence of K+ salts, nigericin, like valinomycin, induces lysis of intact granules, an effect that is not dependent on the presence of a permeant anion, but is dependent on the pH gradient across the membrane.     

Mechanism of gastric antisecretory effect of thiocyanate: further evidence for the thiocyanate-induced impediment in gastric H+,K+-ATPase function

Two hypotheses have recently been proposed for the thiocyanate inhibition of gastric acid secretion--a protonophore mechanism and an uncoupling model. The mechanistic aspects for the latter scheme have been examined on the following basis: capability of generating verifiable predictions, supporting evidence that is unambiguous, and compatibility with experimental realities. Gastric microsomes bind 5 nmol of SCN-/mg, and a "pure" and highly active fraction of H+,K+-ATPase prepared from gastric microsomes binds about 15 nmol of SCN-/mg. The affinity of SCN- binding to gastric microsomes changes from 10 to 25 mM in the presence of 20 mM K+ suggesting competition between K+ and SCN-. Potassium also displaces the bound SCN- from "pure" H+,K+-ATPase with a Ki of about 25 mM. Of the cations tested--Tl+, K+, Rb+, Cs+, NH4+, Na+, and Li+--Tl+ was the most effective in displacing bound SCN- while Na+ and Li+ were without effect. The effects of anions such as Cl-, NO3-, and gluconate were found to be nonspecific and absolutely dependent on K+ as cocation. Sulfate and OCN-, on the other hand, showed an ability to displace SCN- as both K+ and Na+ salts. For SO4(-2) the K+ form was much more effective than the Na+ salt. Besides these antagonistic effects of K+ and congeners with the H+,K+-ATPase-bound SCN-, a competition between K+ and SCN- was also observed at the level of gastric K+-stimulated pNPPase reaction. The effects of SCN- and two other unrelated anions, F- and NO2-, on artificial delta pH across the microsomal vesicles exhibited a lack of appreciable change up to 5 mM and a small (about 13%) reduction between 10 and 20 mM. However, a combination of CCCP and nigericin or valinomycin completely abolished the delta pH under identical conditions. The present data in conjunction with other reports suggest that the proton impediment model best explains the gastric antisecretory effects of SCN-.     

Effect of ion adsorption on the electrokinetic properties of erythrocytes

The microelectrophoresis technique was used to determine the dependence of human erythrocyte surface potential on the concentration of various cations and anions. The interpretation of the results is based on the Gouy--Chapman--Stern theory. Values of pK, characterizing the binding of ions to the external surface of erythrocytes, as well as numbers of binding sites per unit area were determined. The affinities of ions for the red cell membrane were shown to decrease in the sequence: H+ greater than Ca2+ greater than Sr2+ greater than Mg2+ greater than Ba2+ greater than Li+ greater than Na+ congruent to congruent to K+ congruent to NH4+ and trinitrophenol greater than IO4- greater than CIO4- greater than salicylate congruent to I- greater than greater than SCN- greater than H2PO4- greater than Br- greater than Cl- greater than HPO4(2-). Changes in the ionic strength of the medium resulted in changes in numbers of exposed ion-binding sites. This phenomenon is interpreted in terms of ionic strength-dependent structural transformations of the cell surface coat.     

Anion binding properties of human serum albumin from halide ion quadrupole relaxation.

The nuclear magnetic quadrupole relaxation enhancement of 35Cl-, 81Br-, and 12I- anions on binding to human serum albumin has been studied under conditions of variable protein and anion concentration and also in the presence of simple inorganic, amphiphilic, and complex anions which compete with the halide ions for the protein anion binding sites. Two classes of anion binding sites with greatly different binding constans were identified. Experiments at variable halide ion concentration were employed to determin the Cl- and I- binding constants. By means of 35 Cl nuclear magnetic resonance (NMR) the relative affinity for different anions was determined by competition experiments for both the strong and the weak anion binding sites. Anion binding follows the sequence SO42- smaller than F- smaller than CH3COO- smaller than Ci- smaller Br- smaller than NO3- smaller than I- smaller than ClO4- smaller than SCN- smaller than Pt(CN)42- smaller than Au(CN)2- smaller than CH3(CH2)11OSO3- for the high affinity sites, and the sequence SO42- congruent to F- congruent to Cl- smaller CH3COO- smaller than NO3- smaller than Br- smaller than I- smaller than ClO4- smaller than SCN- for the low affinity sites. These series are nearly identical with the well-known lyotropic series. Consequently, those effects of anions on proteins described by the lyotropic series can be correlated with the affinities of the anions for binding to the protein. The data suggest that the physical nature of the interaction is the same for both types of biding sites, and that the differences in affinity between different binding sites must be explained in terms of tertiary structure. Analogous experiments performed using 127I- quadrupole relaxation gave results very similar to those obtained with 35Cl-. A comparison between the Cl-, Br- and I- ions revealed that, as a result of the increasing affinity for the weak anion binding sites in the series Cl- smaller than Br- smaller than I-, Cl- is much more useful as a probe for the specific anion binding sites than the other two halide ions. The findings with human serum albumin in this and other respects are probably of general relevance in studies of protein-anion interactions. In addition to competition experiments, the magnitude of the relaxation rate is also discussed. Line broadening not related to anion binding to the protein is found to be small. A comparison of transverse and longitudinal 35Cl relaxation rates gives a value for the quadrupole coupling constant of the high affinity sites in good agreement with a calculated coupling constant assuming anion binding to arginine.     

Fluorescence polarization and intensity kinetic studies of antifluorescein antibody obtained at different stages of the immune response.

Kinetic studies of reactions between fluorescein and antifluorescein antibody produced during early, intermediate, and late stages of the immune response have been carried out utilizing both fluorescence intensity and polarization measurements in the static (time constant similar to 5 sec) and in the stopped-flow modes (time constant similar to 5 msec). During maturation of the immune response, it was found that the "on" second-order association rate constant increased its value only by a factor of three, whereas the "off" dissociation first-order rate constant decreased by a factor of over 1000. Hence, it is the rate of dissociation which largely determines the stability of the hapten-antihapten complex. Furthermore, since second-order rate behavior was found for even heterogeneous antibody, most of the heterogeneity with respect to binding affinity occurs as a result of the heterogeneity in the rate of dissociation of the hapten-antihapten complex and not from the primary combination of hapten and antibody. Antifluorescein antibody which exhibits both high binding affinity (K similar to 5 x 10(11) M-1) and homogeneity with respect to equilibrium binding has been shown to obey second-order association kinetics over wide ranges in concentration. Despite the fact that the value of the second-order rate constant for this fluorescein-antifluorescein reaction is as large as that for most other hapten-antihapten reactions (1.4 x 10(8) M-1 sec-1), the binding reaction has an appreciable activation energy (7 kcal/mol). This is true for both divalent and univalent antibody. Furthermore, the reaction rate parameters are markedly affected by specific anions. The value of the second-order rate constant (18.5 degrees) increases according to the following scheme: salicylate less than trichloroacetate less than SCN- less than ClO4- less than Cl- less than F- less than phosphate. The activation energy increases as follows: trichloroacetate less than phosphate less than F- less than Cl- less than ClO4- less than SCN- less than salicylate, whereas estimates of the entropy of activation indicate that deltaS++ increases as follows: tricholroacetate less than phosphate similar to F- less than Cl- less than ClO4- less than SCN- less than salicylate. The same mechanism which was previously proposed by us for the antigen-antibody reaction is also consistent with the kinetics of the fluorescein-antifluorescein reaction. This mechanism postulates a bimolecular process with structural rearrangements (conformational changes and/or the loss of water) in the formation of the transition state complex. The reaction between the fluorescein hapten and its antibody hence is not diffusion limited.     

UAE-IC法测定大白口蘑中阴离子含量

采用超声波（UAE）辅助提取-离子色谱（IC）法测定了大白口蘑中F?、Cl?、NO2?、NO3?、PO43? 5种阴离子。选用NaOH溶液（3.0mmol/L）超声渗提30min后进样100μL,通过流速为1.2mL/min的淋洗液Na2CO3+NaHCO3（3.5mmol/L+1.0mmol/L）洗脱。F?、Cl?、NO2?、NO3?、PO43? 5种离子线性范围分别为2－25mg/L、2－20mg/L、2－100mg/L、10－55mg/L、10－100mg/L,峰面积RSD分别为0.58%、1.27%、0.73%、0.92%、2.33%,检出限在0.0976－1.0984mg/L之间。大白口蘑样品中未检出NO2?,其余F?、Cl?、NO3?、PO43? 4种离子加标回收率在95%－110%之间。     

Anion effects on the reaction of lecithin-cholesterol acyltransferase with discoidal complexes of phosphatidylcholines . apolipoprotein A-I . cholesterol

Discoidal complexes of phosphatidylcholine (PC) . apolipoprotein A-I . cholesterol were prepared with egg PC, palmitoyloleoylPC, dipalmitoylPC, or dimyristoylPC, and were used as substrates of purified lecithin-cholesterol acyltransferase to investigate the effects of neutral salts on the enzymatic reaction. Sodium fluoride, chloride and bromide concentrations up to 1 M, did not affect the properties of the substrate particles, but caused marked and distinct changes in the activity of the enzyme with the various PC particles. The effects of salts were largely due to the anions, which followed the order of the lyotropic series in their inactivating capacity: F- less than Cl- less than Br- less than NO3- less than I- less than SCN-. Sodium salts (F-, Cl-, and Br-) produced a very large increase in the pH optimum of the enzymatic reaction (7.4 to at least 8.5) essentially obliterating the ionization of a functional group with pK of 8.1. The kinetics of the enzymatic reaction revealed major differences among the PC particles, and different responses of their kinetic parameters with increasing salt concentrations. The conclusions reached in this work are the following: (1) The relative reactivity of PC substrates, in discoidal particles, with lecithin-cholesterol acyltransferase depends strongly on the concentration and type of salts in the medium. (2) Anions (in lyotropic series) rather than cations affect the enzymatic reaction. (3) There are functional groups with pK of 8.1 which are affected markedly in their ionization behavior by anion binding. (4) The active site of lecithin-cholesterol acyltransferase and its interaction with anions are affected by the exact nature of the PC-apolipoprotein interface.     

Anion-dependent cation transport in erythrocytes

A selective survey of the literature reveals at least three major anion-dependent cation transport systems, defined as Na+ + Cl-, K+ + Cl- and Na+ + K+ + Cl- respectively. In human red cells, kinetic data on the fraction of K+ and Na+ influx inhibitable by bumetanide are presented to indicate an Na+:K+ stoichiometry of 1:2. For LK sheep red cells the large Cl- -dependent K+ leak induced by swelling is shown to share many characteristics with that induced by N-ethylmaleimide (NEM) treatment. NEM has complex effects, both inhibiting and then activating Cl- -dependent K+ fluxes dependent on NEM concentration. The alloantibody anti-L can prevent the action of NEM. In human red cells NEM induces a large Cl- -dependent specific K+ flux, which shows saturation kinetics. Its anion preference is Cl- greater than Br- greater than SCN- greater than I- greater than NO3- greater than MeSO4-. This transport pathway is not inhibited by oligomycin or SITS, although phloretin and high concentrations of furosemide and bumetanide (over 0.3 mM) do inhibit. Quinine (0.5 mM) is also an inhibitor. It is concluded that at least two distinct Cl- -dependent transport pathways for K+ are inducible in mammalian red cells, although the evidence for their separation is not absolute.