The relationship between permeant size and permeability in lipid bilayer membranes

Permeability coefficients (P _m ) across planar egg lecithin/decane bilayers and bulk hydrocarbon/water partition coefficients (K _whc) have been measured for 24 solutes with molecular volumes, V, varying by a factor of 22 and P _m values varying by a factor of 10⁷ to explore the chemical nature of the bilayer barrier and the effects of permeant size on permeability. A proper bulk solvent which correctly mimics the microenvironment of the barrier domain was sought. Changes in P _m /K_whc were then ascribed to size-dependent partitioning and/or size-dependent diffusivity. The diffusion coefficient-size dependency was described by D _barrier = D ₀ /V ⁿ . When n-decane was used as a reference solvent, the correlation between log P _m /K _whc and log V was poor (r = 0.56) with most of the lipophilic (hydrophilic) permeants lying below (above) the regression line. Correlations improved significantly (r = 0.87 and 0.90, respectively) with more polarizable solvents, 1-hexadecene and 1,9-decadiene. Values of the size selectivity parameter n were sensitive to the reference solvent (n = 0.8 ± 0.3, 1.2 ± 0.1 and 1.4 ± 0.2, respectively, for decane, hexadecene, and decadiene). Decadiene was selected as the most suitable reference solvent. The value for n in bilayer transport is higher than that for bulk diffusion in decane (n = 0.74±0.10), confirming the steep dependence of bilayer permeability on molecular size. Statistical mechanical theory recently developed by the authors suggests that a component of this steep size dependence may reside in size-dependent solute partitioning into the ordered chain region of bilayers. This theory, combined with the above diffusion model, yielded the relationship, P _m /K _Whc=D ₀ exp(V)V ⁿ . A fit of the experimental data to this model gave the best fit (r=0.93) with = 0.0053±0.0021 and n=0.8 ± 0.3, suggesting that both diffusion and partitioning mechanisms may play a role in determining the size dependence of lipid bilayer permeabilities.This work was supported by a research grant from Glaxo, Inc. Instrumentation support was provided by a Biomedical Research Support Grant from the College of Pharmacy, University of Utah, and by a Faculty Research Grant from the University of Utah. The technical assistance of Barbara L. Hoesterey, who determined some of the partition coefficients, is gratefully acknowledged.     

Monocarboxylic acid permeation through lipid bilayer membranes

Summary The membrane permeability coefficients for the homologous monocarboxylic acids, formic through hexanoic, as well as benzoic and salicylic, were determined for egg phosphatidylcholine-decane planar bilayer membranes. The permeabilities of formic, acetic and propionic acid were also determined for solvent-free phosphatidylethanolamine bilayers. Permeability coefficients were calculated from tracer fluxes measured under otherwise symmetrical conditions, and precautions were taken to ensure that the values were not underestimated due to unstirred layer effects. The relation between the nonionic (HA) permeability (P ^m ) and the hexadecane/water partition coefficient (K _p ) was: log ^m =0.90 log K_p+0.87 (correlation coefficient=0.996). Formic acid was excluded from the analysis because its permeability was sixfold higher than predicted by the other acids. The permeabilities for solvent-free membranes were similar to those for decanecontaining membranes. The exceptionally high permeability of formic acid and the high correlation of the other permeabilities to the hexadecane/water partition coefficient is a pattern that conforms with other nonelectrolyte permeabilities through bilayers. Similarly, the mean incremental free energy change per methylene group (G-CH₂-) was –764 cal mol^–1, similar to other homologous solutes in other membrane systems. However, much less negative G values (–120, to –400 cal mol^–1) were previously reported for fatty acids permeating bilayers and biological membranes. These values are due primarily to unstirred layer effects, metabolism and binding to membranes and other cell components.     

Molecular motion of small nonelectrolyte molecules in lecithin bilayers

Summary We have used magnetic resonance spectroscopy, both ESR and¹³C spin relaxation, to measure translational and rotational mobilities and partition coefficients of small nitroxide solutes in dipalmitoyl lecithin liposomes. Above the bilayer transition temperature,T _c, the bilayer interior is quite fluid, as determined from the solutes' rapid rotational and moderately rapid translational motion; the rotational and translational viscosities within the bilayer are _R <1cP and =6–10cP, respectively. and _R are independent of molecular size for all solutes studied, but all were small compared to the size of the phospholipids. , and probably _R , are relatively independent of temperature aboveT _c, but both increase very sharply as temperature is lowered belowT _c; at 32°C, _R increases to 6cP and is greater than 1000 cP. Anisotropy of rotational motion increases gradually as temperature is lowered toT _c, and changes little belowT _c; anisotropy of translational motion was not investigated.¹³C nuclear spin relaxation measurements indicate that translational motion of nitroxide solutes is more rapid in the center of the bilayer than near the polar interface. It takes at least 100 nsec for a solute molecule to cross the bilayer/water interface. We estimate a lower limit of 2 sec/cm for the interfacial resistance to solute diffusion; this result indicates that interfacial resistance dominates permeation across the membrane. The relative solubility, or partition coefficient, is a strong function of solute structure, and decreases abruptly on cooling through the transition temperature. From the partition coefficient and its temperature dependence we calculate the free energy, enthalpy, and entropy of partition. Effects of cholesterol on partition and diffusion coefficients are compatible with the interpretation that bilayers containing cholesterol consist of two phases.     

Shifts in carbon isotope ratios of two C3 halophytes under natural and artificial conditions

Summary The total carbon ¹³C values of two C₃ halophytes,Salicornia europaea L. ssp.rubra (Nels.) Breitung andPuccinellia muttalliana (Schultes) Hitch., native to inland saline areas of Alberta, Canada, were determined for plants grown under controlled conditions of supplied NaCl in the nutrient solution, and for plants found growing in the field. Field specimens were collected along line transects which ran from areas of high salinity to areas of low salinity across the pattern of species zonation. The ¹³C value of the two species seemed to reflect the water potential of the soil ( _w ^soil ) as measured arbitrarily at a depth of 10 cm, becoming less negative as the _w ^soil decreased. Over a linear distance of 5.55 m,S. europaea spp.rubra showed a shift of +5.3 as the _w ^soil went from-25x10² kPa to a minimum of-73x10² kPa. ForP. nuttalliana, the ¹³C values differed by 3.4 over a distance of 7.45 m where the maximum difference in _w ^soil was 12.7x10² kPa. However, ¹³C values ofP. nuttalliana only roughly reflected the spatial trends in _w ^soil at the time of collection. In the growth chamber, the ¹³C value ofS. europaea ssp.rubra changed by a maximum of +8.0 when the solute potential of the nutrient solution ( _w ^soil ) was dropped from-0.25x10² kPa to-64.25x10² kPa; while the ¹³C value ofP. nuttalliana changed by a maximum of +10.8 when the _w ^soil was dropped from-0.25x10² kPa to-40.25x10² kPa. Linear regression analyses indicated that the ¹³C values of both species were strongly correlated (P<0.2%) with _w ^soil . The observed shifts in ¹²C may represent changes in the mode of photosynthetic CO₂ fixation. However, a number of other explanations, some of which are discussed in the text, are also possible. A proper ecophysiological interpretation of such shifts in ¹³C values of C₃ plants awaits a better understanding of the isotope fractionation mechanisms involved.     

Significance of the β-Subunit in the Biogenesis of Na+/K+-ATPase

This review summarizes our experiments on the significance of the -subunit in the functional expression of Na⁺/K⁺-ATPase. The -subunit acts like a receptor for the -subunit in the biogenesis of Na⁺/K⁺-ATPase and facilitates the correct folding of the -subunit in the membrane. The -subunit synthesized in the absence of the -subunit is subjected to rapid degradation in the endoplasmic reticulum. Several assembly sites are assigned in the sequence of the -subunit from the cytoplasmic NH₂-terminal domain to the extracellular COOH-terminus: the NH₂-terminal region of the extracellular domain, the conservative proline in the third disulfide loop, the hydrophobic amino acid residues near the COOH-terminus and the cysteine residues forming the second and the third disulfide bridges. Upon assembly, the -subunit confers a resistance to trypsin on the -subunit. The conformations induced in the -subunit of Na⁺/K⁺-ATPase by Na⁺/K⁺- and H⁺/K⁺-ATPase -subunits are somehow different from each other and are named the NK-type and KH-type, respectively. The extracellular domain of the -subunit is involved in the folding of the -subunit leading to trypsin-resistant conformations. The sequences from Cys150 to the COOH-terminus of the Na⁺/K⁺-ATPase -subunit and from Ile89 to the COOH–terminus of the H⁺/K⁺-ATPase -subunit are necessary to form trypsin-resistant conformations of the NK- and HK-type. respectively. The first disulfide loop of the extracellular domain of the -subunits is critical in the expression of functional Na⁺/K⁺-ATPase.     

Physical-Biological Coupling in Southern Lake Michigan: Influence of Episodic Sediment Resuspension on Phytoplankton

The influence of episodic, sediment resuspension on phytoplankton abundance/volume and composition, the photosynthetic maximum rate (P^B _max) and efficiency (^B), and chlorophyll-specific growth (_Chl) was evaluated during the spring isothermal period in southern Lake Michigan (Laurentian Great Lakes, USA). Resuspension altered the nutrient and light climate of nearshore waters; light attenuation (K_d) and phosphorus concentrations corresponded (p 0.0001 and p 0.001, respectively) with concentrations of suspended particulate matter (SPM). Phytoplankton cell volume and diatom cell abundance and volume were not associated with SPM concentrations (p > 0.05). Diatom composition displayed spatial dissimilarities corresponding with resuspension (p 0.001); small centric diatoms exhibiting meroplanktonic life histories and pennate diatoms considered benthic in origin were most abundant within SPM-impacted, nearshore waters whereas taxa typically comprising assemblages in optically-clear, offshore waters and the basin-wide, spring bloom were not. Values of P^B _max and ^B corresponded (p 0.0001) with both K_d coefficients and SPM concentrations, potentially reflecting increased light harvesting/utilization within impacted assemblages. However, integral production was inversely associated with K_d coefficients and SPM concentrations (p < 0.0001) and photosynthesis was light-limited (or nearly so) for most assemblages. Although _Chl values corresponded with K_d coefficients (p 0.05), values were quite low (x ± S.E., 0.10 ± 0.004 d^-1) throughout the study. Most likely, distinct rate processes between SPM- and non-impacted assemblages reflected short-term compositional (and corresponding physiological) variations due to infusion of meroplankton and/or tributary-derived phytoplankton. Overall, resuspension appears to have little, if any, long-term impact upon the structure and function of the lakes phytoplankton.     

The electrical response ofAvena coleoptile cortex to auxins

Solute mobilities of 28 compounds in isolated cuticular membranes (CM) from Capsicum annuum L. fruit, Citrus aurantium L. and Pyrus communis L. leaves were studied using unilateral desorption from the outer surface. First-order rate constants of desorption (k^*), which are directly proportional to the diffusion coefficient in the waxy outer limiting skins of cuticles were measured. When log k^* was plotted vs. molar volumes of test compounds linear graphs were obtained. The y-intercepts of these graphs (k^*) represent the mobility of a hypothetical molecule having zero molar volume and the slopes of the graphs () represent the size selectivity of the barrier and are related to the free volume available for diffusion. Thus, solute mobilities in cuticles are composed of two independent terms which are subtractive. If k^* and are known, k^* can be estimated for any solute from its molar volume (V_x) using the equation log k^*=log k^* –V_x. These parameters were used to analyse the effects of plant species, extraction of cuticular waxes and molecular structure of solutes on solute mobilities in plant cuticles. For aliphatic solutes, k^* was a factor of 10 smaller than for cyclic compounds, while was 0.011 and 0.012, respectively. The k^*-values for CM of the three species were very similar, but was higher for bitter-orange CM (0.012) than for those of pepper fruits and pear leaves (0.009). This has the consequence that differences in solute mobilities (k^*) among cuticles from different plan species increase with increasing molar volumes of solutes. Our data and our analysis provide evidence that constituents of cuticular waxes are mobile, at least in the solid amorphous wax fraction, but mobility decreases rapidly with increasing molar volume. For instance, if amounts to 0.01, mobilities of wax monomers decrease by a factor of 10 for every increase in molar volume of 100 cm³ · mol^–1. Thus, hexadecanoic acid is quite mobile in the amorphous wax fraction of Citrus (k^*=1.5×10^–6·s^–1), but for dotriacontane having twice the molar volume, k^* was only 2.5×10^–9·s^–1, which is almost three orders of magnitude smaller. Wax esters have even higher molar volumes and their mobilities will be even smaller (about 4×10^–12·s^–1 for a C₄₈-ester). Since low chain mobilities are a prerequisite for low mobilities and permeabilities, the selective advantage of high-molecular-weight wax monomers in plant cuticular waxes becomes obvious. Extracting cuticular waxes from pear leaf CM increased solute mobilities by a factor of 182, but it had no effect on size selectivity. We interpret this result as evidence to the effect that cuticular waxes reduce mobility by increasing tortuosity of the diffusion path, rather than by decreasing the mean free path of diffusional jumps and jump frequencies of diffusants.Abbreviations CM cuticular membrane(s) - 2,4-D 2,4-dichloro-phenoxyacetic acid - LAB lactic acid buffer - MX polymer matrix membranes - UDOS unilateral desorption from the outer surface     

Binding of [3H]muscimol to calf cerebrocortical synaptic membranes and the effects of sulphur-containing convulsant and non-convulsant compounds

Endogenous and xenobiotic sulphur-containing convulsant and non-convulsant compounds containing structural moieties of, or bearing a structural resemblance to, GABA and homocysteine were tested in binding studies for their potency in displacing the GABA-mimetic [³H]muscimol from specific, high-affinity sites (K _d=3.6 nM;B _max=3.94 pmol/mg protein) on freeze-thawed, Triton-treated calf-brain synaptic membranes. The xenobiotic convulsants, 4-mercaptobutyric acid (MBA), 3-mercaptopropionic acid (3-MPA) and 2-mercaptopropionic acid (2-MPA) were found to be two-site competitive inhibitors exhibiting apparent inhibition affinity constants (K _i ^app ) of 5000 M, 3750 M, and 4800 M, respectively; while homocysteic acid (K _i ^app =4800 M) was shown to be a one-site partial competitive inhibitor. Intermediary metabolites of methionine: S-adenosyl-l-homocysteine,l-cysteine, the convulsantl-homocysteine, and its non-convulsant disulphide oxidation product, homocystine, were found to be one-site partial competitive inhibitors exhibitingK _i ^app values of 5750 M, 8350 M, 5000 M, and 510 M, respectively. The endogenous anticonvulsant neuroeffector, taurine, and the tripeptide, reduced glutathione (GSH) were shown to be, respectively, one-site (K _i=20 M) and two-site (K _i ^app =4300 M) competitive inhibitors of [³H]muscimol binding. These findings are discussed with regard to a previously proposed mechanism for the convulsant action of homocysteine.     

Rapid Ca2+ extrusion via the Na+/Ca2+ exchanger of the human platelet

Summary This communication reports the kinetics of the Na⁺/ Ca²⁺ exchanger and of the plasma membrane (PM) Ca²⁺ pump of the intact human platelet. The kinetic properties of these two systems were deduced by studying the rate of Ca²⁺ extrusion and its Na⁺ dependence for concentrations of cytoplasmic free Ca²⁺ ([Ca²⁺]_cyt) in the 1–10-m range. The PM Ca²⁺ATPase was previously characterized (Johansson, J.S. Haynes, D.H. 1988. J. Membrane Biol. 104:147–163) for [Ca²⁺]_cyt] 1.5 m with the fluorescent Ca²⁺ indicator quin2 (K _d= 115 nm). That study determined that the PM Ca²⁺ pump in the basal state has a V _max = 0.098 mm/min, a K _m= 80 nm and a Hill coefficient = 1.7. The present study extends the measurable range of [Ca²⁺]_cyt with the intracellular Ca²⁺ probe, rhod2 (K _d= 500 nm), which has almost a fivefold lower affinity for Ca²⁺. An Appendix also describes the Mg²⁺ and pH dependence of the K _dand fluorescence characteristics of the commercially available dye, which is a mixture of two molecules. Rates of active Ca²⁺ extrusion were determined by two independent methods which gave good agreement: (i) by measuring Ca²⁺ extrusion into a Ca²⁺-free medium (above citation) or (ii) by the newly developed ionomycin short-circuit method, which determines the ionomycin concentration necessary to short circuit the PM Ca²⁺ extrusion systems. Absolute rates of extrusion were determined by knowledge of how many Ca²⁺ ions are moved by ionomycin per minute. The major findings are as follows: (i) The exchanger is saturable with respect to Ca²⁺ with a K _m= 0.97 ± 0.31 m and V_max = 1.0 ± 0.6 mm/ min. (ii) At high [Ca²⁺]_cyt, the exchanger works at a rate 10 times as large as the basal V _max of the PM Ca²⁺ extrusion pump. (iii) The exchanger can work in reverse after Na⁺ loading of the cytoplasm by monensin. (iv) The PM Ca²⁺ extrusion pump is activated by exposure to [Ca²⁺]_cyt 1.5 m for 20–50 sec. Activation raises the pump V _max to 1.6 ± 0.6 mm/min and the K _mto 0.55 ± 0.24 m. (v) The Ca²⁺ buffering capacity of the cytoplasm is 3.6 mm in the 0.1 to 3 m range of [Ca²⁺]_cyt. In summary, the results show that the human platelet can extrude Ca²⁺ very rapidly at high [Ca²⁺]_cyt. Both the Na⁺/Ca²⁺ exchanger and Ca²⁺ pump activation may prevent inappropriate platelet activation by marginal stimuli.Abbreviations cAMP cyclic adenosine 3,5-monophosphate - cGMP cyclic guanosine 3,5,-monophosphate - Ca-CAM calcium calmodulin; - DT dense tubules - B intrinsic cytoplasmic Ca²⁺ binding sites - R rhod2 or 5-(3,6-bis(dimethylamino)xanth-9-yl)-1-(2-amino-4-hy droxy lphenoxy)-2-(2-amino-5-methylphen- oxy)ethane-N,N,NN-tetraacetic acid - [Ca²⁺]_cyt cytoplasmic Ca²⁺ activity - quin2 2-[[2-bis[(carboxymethyl)amino]-5-methyl-phenoxy]methyl]-6-methoxy-8-[bis(carboxymethyl)amino]quinoline - V or V_extrusion true rate of Ca²⁺ extrusion - fura-2 1-[2-(5-carboxyoxazol-2-yl)-6-aminobenzofuran-5-oxy]-2-(2-amino-5-methylphenoxy)-ethane-N,N,NN-tetraacetic acid - AM acetoxymethyl ester - DMSO dimethylsulfoxide - CTC chlortetracycline - EGTA ethyleneglycol-bis(-aminoethyl ether) N,N,N,N- tetraacetic acid - HEPES 4-(2-hydroxyethyl)-1-piperazine ethanesulfonic acid - NMDG N-methyl-d-glucamine - PIPES 1,4-piperazine-bis-(ethanesulfonic acid) - HPLC high performance liquid chromatography - _I fraction of high-affinity rhod2 complexed with Ca²⁺ - F the observed fluorescence - F_min the minimal fluorescence observed in the absence of Ca²⁺ - F_max the maximal fluorescence observed when the dye is saturated with Ca²⁺ - X₁ the fraction of high-affinity dye - K _d,1 dissociation constant of high-affinity dye - K _d,2 dissociation constant of the low-affinity dye - -d₁/dt rate of Ca²⁺ removal from the rhod2-Ca complex; - -dF/dt the slope representing the absolute rate of fluorescence decrease in a progress curve - F_max (F_max — F_min)_cyt difference between maximal and minimal fluorescence for cytoplasmic high affinity form of rhod2 - F₅₀ fluorescence of the high-affinity form ofrhod2for[Ca²⁺]_cyt=50 nM - [Ca²⁺]₀ external Ca²⁺concentration - K _p proportionality constant between the total number of Ca²⁺ ions moved and the change in high-affinity rhod2 complexation to Ca² - (d[Ca²⁺]_{cyt, T})/dt rate of Ca²⁺ influx obtained with maximal levels of ionomycin - k_leak rate constant for passive inward Ca²⁺ leakage - k_inno rate constant for ionomycin-mediated Ca²⁺ influx - T total - [rhod2]_cyt,T total intracellular rhod2 concentration - [quin2]_cyt,T total intracellular quin2 concentration - [B]_T total cytoplasmic buffering capacity - A[Ca²⁺]_cyt,T total number of Ca²⁺ ions moved into the cytoplasm - [rhod2-Ca]_{cyt, T} change in concentration of total intracellular high-affinity rhod2 complexed to Ca²⁺ - [B-Ca]_T change in concentration of total cytoplasmic binding sites complexed to Ca²⁺ - [quin2]_{cyt, T} change in concentration of total intracellular quinl complexed to Ca²⁺ - change in the degree of intracellular quin2 saturation - ₁ change in degree of saturation of cytoplasmic high-affinity rhod2 - ₁-/t rate of change in degree of saturation of cytoplasmic high affinityrhod2 - V_obs observed rate of Ca²⁺ removal from the rhod2-Ca complex - V_{8.3 m} the rate of Ca²⁺ removal from the high affinity rhod2-Ca complex at [Ca²⁺]_cyt = 8.3 m - /t rate of change in of the degree of quin2 saturation - [Ca²⁺]_cytT/_t initial linear rate of ionomycin-mediated Ca²⁺ influx - EC₅₀ effective concentration giving a half-maximal effect - [Na⁺]_cyt cytoplasmic Na⁺ activity - CAM calmodulin - ACN acetonitrile - TFA trifuloroacetic acid     

Molecular properties of voltage-gated K+ channels

Subfamilies of voltage-activated K⁺ channels (Kv1-4) contribute to controlling neuron excitability and the underlying functional parameters. Genes encoding the multiple subunits from each of these protein groups have been cloned, expressed and the resultant distinct K⁺ currents characterized. The predicted amino acid sequences showed that each subunit contains six putative membrane-spanning -helical segments (S1-6), with one (S4) being deemed responsible for the channels' voltage sensing. Additionally, there is an H5 region, of incompletely defined structure, that traverses the membrane and forms the ion pore; residues therein responsible for K⁺ selectivity have been identified. Susceptibility of certain K⁺ currents produced by the Shaker-related subfamily (Kv1) to inhibition by -dendrotoxin has allowed purification of authentic K⁺ channels from mammalian brain. These are large (M_r 400 kD), octomeric sialoglycoproteins composed of and subunits in a stoichiometry of ()₄()₄, with subtypes being created by combinations of subunit isoforms. Subsequent cloning of the genes for ₁, ₂ and ₃ subunits revealed novel sequences for these hydrophilic proteins that are postulated to be associated with the subunits on the inner side of the membrane. Coexpression of ₁ and Kv1.4 subunits demonstrated that this auxiliary protein accelerates the inactivation of the K⁺ current, a striking effect mediated by an N-terminal moiety. Models are presented that indicate the functional domains pinpointed in the channel proteins.     

Characterization of two different Ca2+ uptake and IP3-sensitive Ca2+ release mechanisms in microsomal Ca2+ pools of rat pancreatic acinar cells

We have examined the effect of the Ca²⁺ (Mg²⁺)-ATPase inhibitors thapsigargin (TG) and vanadate on ATP-dependent ⁴⁵Ca²⁺ uptake into IP₃-sensitive Ca²⁺ pools in isolated microsomes from rat pancreatic acinar cells. The inhibitory effect of TG was biphasic. About 40–50% of total Ca²⁺ uptake was inhibited by TG up to 10 nm (apparent K_i4.2 nm, Ca²⁺ pool I). An additional increase of inhibition up to 85–90% of total Ca²⁺ uptake could be achieved at 15 to 20 nm of TG (apparent K_i12.1 nm, Ca²⁺ pool II). The rest was due to TG-insensitive contaminating plasma membranes and could be inhibited by vanadate (apparent K_i10 m). In the absence of TG, increasing concentrations of vanadate also showed two phases of inhibition of microsomal Ca²⁺ uptake. About 30–40% of total Ca²⁺ uptake was inhibited by 100 m of vanadate (apparent K_i18 m, Ca²⁺ pool II). The remaining 60–70% could be inhibited either by vanadate at concentrations up to 1 mm (apparent K_i300 m) or by TG up to 10 nm (Ca²⁺ pool I). The amount of IP₃-induced Ca²⁺ release was constant at 25% over a wide range of Ca²⁺ filling. About 10–20% remained unreleasable by IP₃. Reduction of IP₃ releasable Ca²⁺ in the presence of inhibitors showed similar dose-response curves as Ca²⁺ uptake (apparent K_i 3.0 nm for IP₃-induced Ca²⁺ release as compared to 4.2 nm for Ca²⁺ uptake at TG up to 10 nm) indicating that the highly TG-sensitive Ca²⁺ pump fills the IP₃-sensitive Ca²⁺ pool I. At TG concentrations >10 nm which blocked Ca²⁺ pool II the apparent K_i values were 11.3 and 12.1 nm, respectively. For inhibition by vanadate up to 100 m the apparent K_i values were 18 m for Ca²⁺ uptake and 7 m for Ca²⁺ release (Ca²⁺ pool II). At vanadate concentrations up to 1 mm the apparent K_i values were 300 and 200 m, respectively (Ca²⁺ pool I). Both Ca²⁺ pools I and II also showed different sensitivities to IP₃. Dose-response curves for IP₃ in the absence of inhibitors (control) showed an apparent K_m value for IP₃ at 0.6 m. In the presence of TG (inhibition of Ca²⁺ pool I) the curve was shifted to the left with an apparent K_m for IP₃ at 0.08 m. In the presence of vanadate (inhibition of Ca²⁺ pool II), the apparent K_m for IP₃ was 2.1 m. These data allow the conclusion that there are at least three different Ca²⁺ uptake mechanisms present in pancreatic acinar cells: TG- and IP₃ insensitive but highly vanadate-sensitive Ca²⁺ uptake occurs into membrane vesicles derived from plasma membranes. Two Ca²⁺ pools with different TG-, vanadate- and IP₃-sensitivities are most likely located in the endoplasmic reticulum at different cell sites, which could have functional implications for hormonal stimulation of pancreatic acinar cells.This work was supported by the Deutsche Forschungsgemeinschaft, Sonderforschungsbereich 246. The authors wish to thank Dr. KlausDieter Preuß for valuable discussions and Mrs. Gabriele Mörschbächer for excellent secretarial help.     

Verhaltensontogenese der Habitatwahl beim Teichrohrs?nger (Acrocephalus scirpaceus)

Zusammenfassung In Anpassung an seinen aus vertikalen Vegetationsstrukturen zusammengesetzten Lebensraum besitzt der Teichrohrsänger die beste morphologische Ausstattung aller sechs mitteleuropäischer Rohrsängerarten für Vertikalklettern. An jungen Teichrohrsängern wurde überprüft, ob frühkindliche Erfahrungen auf verschiedenen Sitzstangen (auf senkrechten=K_s, senkrechten und waagerechten=K_m, waagerechten=V_w und waagerechten Sitzstangen mit Futter belohnt=V_w+) die spätere Wahl dieser Strukturelemente beeinflussen. Die lokomotorische Aktivität der vier Aufzuchtsgruppen wurde im Zweifachwahlversuch (horizontale gegen vertikale Sitzstangen) getestet. Mit Ausnahme der auf senkrechten Sitzstangen aufgezogenen Vögel (K_s), deren Wahlverhalten gleichverteilt war (Abb. 2), bevorzugten alle anderen Gruppen das vertikale Testsubstrat (Abb. 2 und 3). Auch die Belohnung mit Futter als positiver Verstärker der Horizontalelemente (V_w+) machte diese nur wenig attraktiver (Tab. 1). Alle Gruppen nutzten während der Testperiode das vertikale Substrat zunehmend stärker (Tab. 1). Die Zunahme rührte bei den Vögeln der beiden Kontrollgruppen (K_s und K_m) und der Versuchsgruppe waagerecht (V_w) alleine von der Erfahrung in der Versuchssituation her (Tab. 2). Die Nutzung vertikaler bzw. horizontaler Strukturelemente durch junge Teichrohrsänger wird somit bestimmt durch: 1. eine angeborene Präferenz für das artgemäße Substrat, 2. einen Novitätseffekt, bedingt durch die Aufzuchterfahrung (Wahlverhalten der K_s-Gruppe, Abb. 2), 3. Eigenerfahrung bei der Nutzung verschiedener Substrate im Versuch. Zusätzliche Wahlversuche später im Jahr (Oktober bis Dezember) mit denselben Versuchsvögeln zeigten keine Änderungen in der Substratwahl (Abb. 4).

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Ontogeny of habitat choice in the Reed Warbler (Acrocephalus scirpaceus)

Summary The Reed Warbler shows the most specialized morphological traits for vertical climbing among the six central EuropeanAcrocephalus species. We consider this as an adaptation to the vertical structures in its habitat. In experiments with young Reed Warblers I tested whether early experience with different perches has an influence on the choice of these structures later on in life. Locomotory activity of the following groups was tested in double choice experiments (horizontal versus vertical perches):Control group vertical (K_s): raised on vertical perches, Control group mixed habitat (K_m): raised on vertical and horizontal perches, Test group horizontal (V_w): raised on horizontal perches, Test group horizontal, plus rewards (V_w+): raised on horizontal perches and additional feeders attached to the bars. With the exception of Control group vertical (K_s) which shows no choice preference (Fig. 2) all other birds prefered the vertical test substrate (Fig. 2 and 3). Even the reward (food) as a positive reinforcement of horizontal elements had little effect on their attractiveness (Tab. 1). An increase in the choice of the vertical substrate could be observed throughout the 3-day test period in all groups (Tab. 1). This increase was only due to the experience in the test situation for the birds in both control groups (K_s and K_m) and the Test group horizontal (V_w) (Tab. 2). Therefore the use of vertical or horizontal structures in Reed Warblers is determind by: 1. An innate preference for species-specific substrate, 2. Novelty due to early experience (choice behaviour of Control group vertical, Fig. 2), 3. Experience while using different substrates (experience in the test situation) which optimizes substrate choice according to proprioceptive learning. Additional choice experiments with the same test birds later on in the year (October to December) revealed the same results. Therefore it seems unlikely that there exists a preprogrammed change in substrate choice in the course of a year (Fig. 4). Although choice experiments of this kind can only include a limited part of the habitat-scheme, they are useful experimental designs for investigating specialized species whose habitats can be simulated closely in the laboratory.

     

In vitro analysis of ion channels in periaxolemmal-myelin and white matter clathrin coated vesicles: Modulation by calcium and GTPγS

This study reports the analysis of K⁺ channel activity in bovine periaxolemmal-myelin and white matter-derived clathrin-coated vesicles. Channel activity was evaluated by the fusion of membrane vesicles with phospholipid bilayers formed across a patch-clamp pipette. In periaxolemmal myelin spontaneous K⁺ channels were observed with amplitudes of 25–30, 45–55, and 80–100 pS, all of which exhibited mean open-times of 1–2 msec. The open state probability of the 50 pS channel in periaxolemmal-myelin was increased by 6-methyldihydro-pyran-2-one. Periaxolemmal-myelin K⁺ channel activity was regulated by Ca²⁺. Little or no change in activity was observed when Ca²⁺ was added to thecis side of the bilayer. Addition of 10 M total Ca²⁺ also resulted in little change in K⁺ channel activity. However, at 80 M total Ca²⁺ all K⁺ channel activity was suppressed along with the activation of a 100 pS Cl^– channel. The K⁺ channel activity in periaxolemmal myelin was also regulated through a G-protein. Addition of GTPS to thetrans side of the bilayer resulted in a restriction of activity to the 45–50 pS channel which was present at all holding potentials. Endocytic coated vesicles, form in part through G-protein mediated events; white matter coated vesicles were analyzed for G proteins and for K⁺ channel activity. These vesicles, which previous studies had shown are derived from periaxolemmal domains, were found to be enriched in the subunits of G₀, G_s, and G_i and the low molecular weight G protein,ras. As with periaxolemmal-myelin treated with GTPS, the vesicle membrane exhibited only the 50 pS channel. The channel was active at all holding potentials and had open times of 1–6 msec. Addition of GTPS to the bilayer fused with vesicle membrane appeared to suppress this channel activity at low voltages yet induced a hyperactive state at holding potentials of 45 mV or greater. The vesicle 50 pS K⁺ channel was also activated by the 6-methyl-dihydropyron-2-one (20 M).Abbreviations CNPase 2–3 cyclic nucleotide phosphohydrolase - EDTA ethylenediamine N,N,N,N-tetraacetic acid - G-protein GTP(guanosine triphosphate) binding protein - GTPS guanosine 5-O-(3-thiotriphosphate) - MAG myelin associated glycoprotein - Na⁺ K⁺ ATPase, Na⁺ and K⁺ stimulated adenosine triphosphatase - PLP myelin proteolipid protein Special issue dedicated to Dr. Majorie B. Lees.     

Molecular and Functional Studies of the Gamma Subunit of the Sodium Pump

This article reviews our studies of the subunit of the sodium pump. is a member of the FXYD family of small, single transmembrane proteins and is expressed predominantly in the kidney tubule. There are two major variants of which function similarly to bring about two distinct effects, one on K_ATP and the other, on K _K, the affinity of the pump for K ⁺ acting as a competitor of cytoplasmic Na⁺. In this way, is believed to provide a self-regulatory mechanism for maintaining the steady-state activity of the pump in the kidney. Our studies also suggest that K⁺ antagonism of cytoplasmic Na⁺ activation of the pump is relevant not only to the presence of in the kidney, but probably some hitherto undefined factor(s) in other tissues, most notably heart. The interesting possibility that not only but other members of the FXYD family regulate ion transport in a tissue-specific manner is discussed.     

Holling's “hungry mantid” model for the invertebrate functional response considered as a Markov process. Part II: Negligible handling time

In this paper we analyse a stochastic model for invertebrate predation taking account of the predator's satiation. This model approximates Holling's hungry mantid model when handling time is negligible (see Part I). For this model we derive equations from which we can calculate the functional response and the variance of the total catch. Moreover we study a number of approximations which can be used to calculate these quantities in practical cases in a relatively simple manner.List of Notation a rate constant of digestion - b maximum of rate constant of prey encounter in the mantid - c satiation threshold for search - c satiation threshold for pursuit in the mantid - c _i (w^1/2(N- N)ⁱ) - expectation operator - f rate of change of satiation during search - F functional response: mean number of prey eaten per unit of time - g rate constant of prey capture - h probability generating function of N conditional on S = s times p - H probability generating function of N - m_i ¹ - n, N number of prey caught - p probability density of S - p_n simultaneous probability (density) of N and S - q probability of strike success - r dummy variable in generating function - s, S satiation - T _s search time - T _d digestion time - v asymptotic rate of increase of var v - V asymptotic rate of increase of var N - w weight of edible part of prey - W standard Wiener process - x prey density - z (N{S = s}-N)p - rate constant of prey escape time maximum pursuit time - (v{S = + w ^1/2}-v) - present time as a fraction of the time from the start to the end of the experiment - hazard rate of T _s - mean time between (downward) passages of S through c - v w_–1/2(N-) - edible prey biomass density - probability density of , number pi - parameter of Weibull distribution of T _s = (1/2acx(-g(c)))_1/2 - w_–1/2(S -) - satiation in the guzzler approximation: solution to d/dt = f() + g(), (0)=S(0). - biomass functional response: wF - total biomass catch in the guzzler approximation: solution to d/dt = g(), (0) = 0     

Phloretin and phloretin analogs: Mode of action in planar lipid bilayers and monolayers

Summary Phloretin and other neutral phloretin-like molecules are able to decrease the electrostatic potential within neutral lipid bilayers and monolayers. The relationship between the change in the dipole potential and the aqueous concentration of the molecule is well described by a Langmuir isotherm. From the Langmuir isotherm, the apparent dissociation constants (K _D ^A ) and the maximum dipole potential change ( _max) are obtained for the different phloretin-like molecules tested. Considering the phloretin analogs as derivatives of acetophenone containing two kinds of substituents, one on the benzene ring and another on the carbon chain, it is found that (a)K _D ^A is related to the hydrophobicity of the compound and is also a function of the position of the hydroxyl substituent in the ring; (b) from the dependence ofK _D ^A on the length of the acyl chain, it is estimated that the free-energy change is 650 cal/mole CH₂; (c) _max is not a simple function of the dipole moment of the molecule but depends on the substituent on the carbon chain and on the position and number of hydroxyl groups on the benzene ring; (d) phloretin adsorption parameters are a function of membrane lipid composition. The results are discussed in terms of the effect of these compounds on chloride transport in red blood cells.     

Purification and properties of the ATP: adenylylsulphate 3′-phosphotransferase from Chlamydomonas reinhardii

APS-kinase (ATP: adenylylsulphate 3-phosphotransferase, EC 2.7.1.25) has been purified from the alga Chlamydomonas reinhardii, strain CW 15 by means of chromatofocussing and affinity chromatography. The isolated protein showed an apparent molecular mass of 44,000 upon sodium dodecylsulphate polyacrylamide gel electrophoresis. The transfer of phosphate groups from ATP onto APS required a pH of 6.8, the presence of Mg²⁺ ions and a reducing thiol. Its catalytical activity was destroyed by sulphhydryl group inhibitors (phenyl-mercuri compounds, dithiopyridine) and alkylating reagents.The purified enzyme attained a V _max of 360 pkat under optimal reaction conditions declining to v _limit of 260 pkat in the presence of excess substrate APS. This sensitivity towards changes in substrate concentrations was parallelled by a high affinity and specificity: apparent K _m APS: 2 · 10^-6 mol · l^-1, and K _m ATP: 7 · 10^-6 mol · l^-1. The enzyme was found specific for ATP, d-ATP and CTP, while UTP, ITP and GTP showed marginal activity. The Hill coefficients suggested 4 binding sites for APS and 1 for ATP. Excessive APS resulted in a negative slope indicating 3 inhibiting sites of the substrate.Abbreviations APS Adenosine 5-phosphosulphate - dATP 2-deoxyadenosine 5-triphosphate - p-CMB p-chloromercuribenzoate - DTE dithioerythritol - DTT dithiothreitol - -MSH -mercaptoethanol - PAPS 3-phosphoadenosine 5-phosphosulphate - PAP 3-phosphoadenosine 5-phosphate - SDS sodium dodecyl sulphate This work is part of a dissertation submitted by H. G. J., Bochum 1982     

Electrogenic properties of the sodium-alanine cotransporter in pancreatic acinar cells: II. Comparison with transport models

Summary In this paper, the results of the preceding electrophysiological study of sodium-alanine cotransport in pancreatic acinar cells are compared with kinetic models. Two different types of transport mechanisms are considered. In the simultaneous mechanism the cotransporterC forms a ternary complexNCS with Na⁺ and the substrateS; coupled transport of Na⁺ andS involves a conformational transition between statesNCS andNCS with inward- and outward-facing binding sites. In the consecutive (or ping-pong) mechanism, formation of a ternary complex is not required; coupled transport occurs by an alternating sequence of association-dissociation steps and conformational transitions. It is shown that the experimentally observed alanine- and sodium-concentration dependence of transport rates is consistent with the predictions of the simultaneous model, but incompatible with the consecutive mechanism. Assuming that the association-dissociation reactions are not rate-limiting, a number of kinetic parameters of the simultaneous model can be estimated from the experimental results. The equilibrium dissociation constants of Na⁺ and alanine at the extracellular side are determined to beK _N <-64mm andK _S <-18mm. Furthermore, the ratioK _N /K _N ^S of the dissociation constants of Na⁺ from the binary (NC) and the ternary complex (NCS) at the extracellular side is estimated to be <-6. This indicates that the binding sequence of Na⁺ andS to the transporter is not ordered. The current-voltage behavior of the transporter is analyzed in terms of charge translocations associated with the single-reaction steps. The observed voltage-dependence of the half-saturation concentration of sodium is consistent with the assumption that a Na⁺ ion that migrates from the extracellular medium to the binding site has to traverse part of the transmembrane voltage.     

Enzymatic transformation of desacetyl-lanatoside A into digitoxin by β-glucosidase action in cyclodextrin solutions

Summary The enzymatic transformation of desacetyl-lanatoside A (DLA) to its secondary glycoside, digitoxin, in solutions of -and -cyclodextrins is effected using of -glucosidase from barley. Due to the interaction of cyclodextrins (CyDs) with desacetyl-lanatoside A, an increase in solubility of the latter of 24.5 and 230 times was observed for -cyclodextrin and -cyclodextrin, respectively. Kinetic studies of the enzymatic transformation gave for -glucosidase the values K_M=3.3×10^–4 mol. dm^–3 and V_max=0.557 mol mg^–1 min^–1 when the substrate was the deacetyl-lanatoside A complex with -cyclodextrin, while in the case of the complex with -cyclodextrin these values were K_M=5.45×10^–4 mol dm^–3 and V_max=0.896 mol mg^–1 min^–1.     

Metal-affinity partitioning of phosphoproteins in PEG/dextran two-phase systems

Summary Ferric ion (Fe³⁺) complexed to iminodiacetic acid (IDA)-polyethylene glycol enhances the partitioning of phosphoproteins in PEG/dextran aqueous two-phase systems. The ratio of partition coefficients in the presence and absence of Fe(III)IDA-PEG, K/K₀, is highly sensitive to pH, increasing in the pH range of 3.0 to 5.0 and decreasing rapidly with a further increase in pH. The steep decline in partition coefficients above pH 5 can be explained by inhibitory binding of hydroxyl ions to ferric ion. In metal-affinity partitioning of phosvitin, the most highly phosphorylated protein known, K/K₀1,000 was obtained. This is one of the highest values reported for affinity partitioning.