Synthetic peptide VKGFY and its cyclic analog stimulate macrophage bactericidal activity through non-opioid beta-endorphin receptors

We synthesized linear and cyclic pentapeptides corresponding to the sequence 369-373 of human immunoglobulin G heavy chain—VKGFY (referred to as pentarphin and cyclopentarphin, respectively). The effect of pentarphin and cyclopentarphin on phagocytosis of Salmonella typhimurium virulent 415 strain bacteria by mouse peritoneal macrophages in vitro was studied. Control experiments showed that macrophages actively captured these bacteria, but did not digest them: the captured microbes were viable and continued to proliferate inside the phagocytes; within 12 h all macrophage monolayer was destroyed (incomplete phagocytosis). If 1 nM pentarphin or cyclopentarphin was added to the cultivation medium, macrophage bactericidal activity was significantly increased and they digested all captured microorganisms within 6 h (complete phagocytosis). To study the receptor binding properties of pentarphin and cyclopentarphin we prepared ¹²⁵I-labeled pentarphin (179 Ci/mmol specific activity). The binding of ¹²⁵I-labeled pentarphin to mouse peritoneal macrophages was highaffinity (K _d = 3.6 ± 0.3 nM) and saturable. Studies on binding specificity revealed that this binding was insensitive to naloxone and [Met⁵]enkephalin, but completely inhibited by unlabeled cyclopentarphin (K _i = 2.6 ± 0.3 nM), immunorphin (K _i = 3.2 ± 0.3 nM), and -endorphin (K _i = 2.8 ± 0.2 nM). Thus, the effects of pentarphin and cyclopentarphin on macrophages are mediated by naloxone-insensitive receptors common for pentarphin, cyclopentarphin, immunorphin, and -endorphin.     

Measurement of diameters of estuarine bacteria and particulates in natural water samples by use of a submicron particle analyzer

Desulfovibrio vulgaris strain Madison outcompetedMethanobacterium strain ivanov for hydrogen when sulfate was in excess because of higher cell yield and growth rate and a greater affinity for hydrogen as a consequence of a lower Km and higher Vmax for in vivo hydrogenase activity.Desulfovibrio vulgaris displayed a growth yield of 1.1 g/mol H₂, a Km for tritium exchange of 4 M, and a specific in vivo hydrogenase activity of 2.17 DPM³H₂O×10³/g cell protein/h; whereasMethanobacterium strain ivanov had a yield of 0.6 g/mol H₂, a Km for tritium exchange of 14 M, and a specific in vivo hydrogenase activity of 0.38 DPM³H₂O×10³/g cell protein/h. Under these physiological conditions, the Gibbs free-energy change associated with methanogenesis and sulfidogenesis from H₂ was calculated to be-47.4 kJ/mol and-62.9 kJ/mol, respectively. When sulfidogenesis was limited by sulfate concentration, the methanogen was able to successfully compete with the sulfidogen for hydrogen. Competition between methanogens and sulfidogens for hydrogen is explained in terms of thermodynamic, kinetic, and other important considerations not discussed in the previous literature.     

Conformational energy of the 5-membered ring. Implication of geometric and energetic properties in the conformational characteristics

In a previous article (8) a geometrical study of the five-membered ring showed that: a) for the case of the 20 symmetrical C₂ and C_s conformations, the pseudorotation formulae for the torsion angles are a geometrical property of the ring; b) geometrical considerations alone are unable to define the puckering amplitude, the bond angle values, and the pathway between two symmetrical conformations. Here we examine how the energy equations enable us to define the deformation amplitude _m, establish the bond angles expressions and check the energy invariability along the pseudorotation circuit. The problem is next developed fully in the case where the bond and torsional energy only are considered: the literal expression¹ of _m is then given as a function of the bond angle which cancels out the bond angle energy. A numerical application is carried out on cyclopentane and the values of the parameters K^t, K¹ and used in the Conformational energy calculations are considered.Notations used 1 _i bond lengths 1 in the case of the regular ring - _i torsional angles - _i bond angles - 3/5 = 108 - 4/5 = 144 - , _{i i} – = complement to the 108 bond angle _i - _T - E Conformational energy of the 5-membered ring - E Conformational energy difference between planar and deformed ring - A _n Coefficients of the energy development in terms of - E _i ^l Bond energy relative to atom i (associated with angle _i) - K _i ^l Bond constant relative to atom i (associated with angle _i) - E _i ^l Torsional energy relative to the i ^th bond (associated with angle _i) - k _i ^l Torsional constant relative to the i ^th bond (associated with angle _i) - _i Angle _i value corresponding to zero bond energy E _i ^l (when the 5 atoms of the ring are identical, _i ) - r _ij Distance between atoms i and j - q _i Charge carried by atom i - e Constant of proportionality including the effective dielectric constant - A _ij, B_ij, d_ij Coefficients dependent on the nature of the atoms i and j and accounted for in the Van der Waals energy and hydrogen bond expressions - S (r _ij) Electrostatic contribution to the hydrogen bond energy - P Pseudorotation phase angle - _m Maximum torsional angle value characterising the deformation amplitudeM     

Sulfite formation by wine yeasts

The enzyme catalyzing the reduction of sulfite by reduced benzyl viologen (BVH) was partially purified and characterized from two strains of wine yeasts, a sulfite-producing strain and a non-producing strain.Both enzymes showed corresponding features in pH-optima, optima of buffer and benzyl viologen concentrations.The enzymes did not catalyze the reduction of nitrite by reduced viologen dyes, but the reduction of sulfite was uncompetitively inhibited by nitrite. Compounds of sulfur metabolism such as sulfate, thiosulfate, cysteine, serine and methionine did not influence the activity of either of the enzymes. The main differences between the two enzymes exist in the specific activities in crude extracts, the K _m -values for sulfite, substrate inhibition rates, and localization in different fractions during (NH₄)₂SO₄ precipitation. The specific activity in crude extracts of the sulfite-producing strain (0.052 moles S^2- x min^-1 x mg^-1) was about three fold higher than that of the non-producing strain (0.0179 moles S^2- x min^-1 x mg^-1). On the other hand the sulfite-producing strain had a higher K _m -value for sulfite (2×10^-3 M) and was more strongly inhibited by the substrate than the non-producing strain (6×10^-3 M).     

Intracellular pH regulation by the plasma membrane V-ATPase in Malpighian tubules of Drosophila larvae

The functional significance of the apical vacuolar-type proton pump (V-ATPase) in Drosophila Malpighian tubules was studied by measuring the intracellular pH (pH_i) and luminal pH (pH_lu) with double-barrelled pH-microelectrodes in proximal segments of the larval anterior tubule immersed in nominally bicarbonate-free solutions (pH_o 6.9). In proximal segments both pH_i (7.43±0.20) and pH_lu (7.10±0.24) were significantly lower than in distal segments (pH_i 7.70±0.29, pH_lu 8.09±0.15). Steady-state pH_i of proximal segments was much less sensitive to changes in pH_o than pH of the luminal fluid (pH_lu/pH_o was 0.49 while pH_i/pH_o was 0.18; pH_o 6.50–7.20). Re-alkaliniziation from an NH₄Cl-induced intracellular acid load (initial pH_i recovery rate 0.55±0.34 pH·min^-1) was nearly totally inhibited by 1 mmol·l^-1 KCN (96% inhibition) and to a large degree (79%) by 1 mol·l^-1 bafilomycin A₁. In contrast, both vanadate (1 mmol·l^-1) and amiloride (1 mmol·l^-1) inhibited pH_i recovery by 38% and 33%, respectively. Unlike amiloride, removal of Na⁺ from the bathing saline had no effect on pH_i recovery, indicating that a Na⁺/H⁺ exchange is not significantly involved in pH_i regulation. Instead pH_i regulation apparently depended largely on the availability of ATP and on the activity of the bafilomycin-sensitive proton pump.Abbreviations DMSO dimethylsulphoxide - DNP 2,4-dinitrophenol - NMDG N-methyl-D-glucamine - pH_i intracellular pH - pH_lu pH of the luminal fluid - pH_o pH of the superfusion medium - _I intrinsic intracellular buffer capacity     

Some properties of adenosine 3′,5′-cyclic monophosphate phosphodiesterase in the superior cervical ganglion of the guinea pig

Adenosine 3,5-cyclic monophosphate (cAMP) phosphodiesterase activity in crude guinea-pig superior cervical ganglion homogenates was assayed under a variety of experimental conditions. Two forms of cAMP phosphodiesterase were found, one with high and the other with low affinity for the substrate. TheK _m values were about 1 and 110 M respectively. Imidazole slightly but constantly stimulated the former enzyme form over a wide range of concentrations and l-methyl-3-isobutylxanthine was a weak competitive inhibitor with aK _i value of 90 M. Low affinity cAMP phosphodiesterase activity was increased by calmodulin and Ca²⁺. This stimulation was not observed in the presence of trifluoperazine, a specific inhibitor of calmodulin. On the other hand, neither [d-Ala²]met-enkephalinamide nor prostaglandin E₂, alone or in combination, influenced high affinity cAMP phosphodiesterase.     

Cellular and transepithelial responses of goldfish intestinal epithelium to chloride substitutions

Summary In goldfish intestine chloride was substituted by large inorganic anions (gluconate or glucuronate) either mucosally, serosally or bilaterally. Changes in intracellular activities of chloride (a _i Cl^–), sodium (a _i Na⁺) and potassium (a _i K⁺), pH_i, relative volume, membrane and transepithelial potentials, transepithelial resistance and voltage divider ratio were measured. Control values were:a _i Cl^–=35 meq/liter, a _i Na⁺=11 meq/liter and a _i K⁺=95 meq/liter. During bilateral substitution the latter two did not change while a _i Cl^– dropped to virtually zero.Mucosal membrane potentials (_ms) were: control,-53 mV; serosal substitution,-51 mV; bilateral substitution,-66 mV; while during mucosal substitution a transient depolarization occurred and the final steady state _ms was-66 mV.During control and bilateral substitution the transepithelial potentials (_ms) did not differ from zero. During unilateral substitutions _ms was small, in the order of magnitude of the errors in the liquid junction potentials near the measuring salt bridges.During bilateral substitution pH _i increased 0.4 pH units. Cellular volume decreased during mucosal substitution to 88% in 40 min; after serosal substitution it transiently increased, but the new steady-state value was not significantly above its control value.Three minutes after mucosal substitution ana _i Cl^– of approx. 10 meq/liter was measured.Chemical concentrations of Na, K and Cl were determined under control conditions and bilateral substitution. Cl concentrations were also measured as a function of time after unilateral substitutions.The data indicate an electrically silent chloride influx mechanism in the brush border membrane and an electrodiffusional chloride efflux in the basolateral membrane. A substantial bicarbonate permeability is present in the basolateral membrane. The results are in agreement with the observed changes in membrane resistances, volume changes and pH changes.     

Role of SH Groups in the Functioning of Ca2+-Transporting ATPases Regulating Ca2+ Homeostasis and Exocytosis

Using a ^Ca2+-sensitive fluorescent indicator, Fura-2/AM, and a metallochromic dye, arsenazo, we measured the intracellular concentration of Ca²⁺ ([Ca²⁺] _i ) and the content of total calcium in isolated acinar cells of the rat submandibular salivary gland. It was shown that the influence of a mercaptide-forming compound, sodium p-chloromercuribenzoate (pChMB), increased both the [Ca²⁺] _i and content of total calcium but did not change the intensity of exocytosis. Such a situation is probably related to the fact that pChMB inhibits plasmalemmal Ca²⁺-ATPase (PMCA). The absence of changes in the exocytotic activity can be explained as follows: the influence of a pChMB-induced significant increase in the [Ca²⁺] _i is neutralized due to the functioning of Ca²⁺-ATPases of the endoplasmic reticulum (SERCA), which pump Ca²⁺ into the store. Incubation of a microsomal fraction with pChMB resulted in suppression of the specific PMCA and SERCA activities with apparent constants of inhibition (I ₅₀) 245 and 52 M, respectively. Dithiothreitol (DTT, 0.1 mM) increased the PMCA and SERCA activities (probably facilitating the access of substrate to the active centers of ATPases at the expense of a decrease in the number of disulfide bonds, which is followed by changes in the conformation of intracellular hydrophilic loops of their molecules). Dithiothreitol also recovered the suppression of PMCA and SERCA activities induced by pre-incubation with pChMB (by 45 and 32%, respectively); these activities did not, however, reach the initial levels. A probable interpretation of this fact is that DTT shields from the action of pChMB only superficial but not sterically less accessible SH groups. Limited proteolysis of the microsomes by -chymotrypsin decreased the specific PMCA and SERCA activities by 16 and 60%, respectively. Incubation of the microsomes in an -chymotrypsin-containing medium (15 sec) with subsequent addition of 150 M pChMB exerted almost no influence on the PMCA activity, whereas the SERCA activity dramatically increased (by 146%). This fact allows us to suggest that -chymotrypsin is capable of eliminating the inhibitory effect of pChMB on the SERCA activity; the mechanism of this effect remains unknown. Therefore, functionally important SH groups are present in the catalytic and active centers of both PMCA and SERCA; superficial SH groups dominate in the PMCA molecules, whereas SERCA is controlled by more deeply localized SH groups.     

Dehalogenation of haloalkanes byRhodococcus erythropolis Y2

Phodococcus erythropolis Y2 produced two types of dehalogenase: a hydrolytic enzyme, that is an halidohydrolase, which was induced by C₃ to C₆ 1-haloalkane substrates, and at least one oxygenase-type dehalogenase induced by C₇ to C₁₆ 1-haloalkanes andn-alkanes. The oxygenase-type activity dehalogenated C₄ to C₁₈ 1-chloroalkanes with an optimum activity towards 1-chlorotetradecane. The halidohydrolase catalysed the dehalogenation of a wide range of 1- and ,-disubstituted haloalkanes and ,-substituted haloalcohols. In resting cell suspensions of hexadecane-grownR. erythropolis Y2 the oxygenase-type dehalogenase had a specific activity of 12.9 mU (mg protein)^–1 towards 1-chlorotetradecane (3.67 mU mg^–1 towards 1-chlorobutane) whereas the halidohydrolase in 1-chlorobutane-grown batch cultures had a specific activity of 44 mU (mg protein)^–1 towards 1-chlorobutane.The significance of the two dehalogenase systems in a single bacterial strain is discussed in terms of their contribution to the overall catabolic potential of the organism.     

Chloride distribution in the proximal convoluted tubule ofNecturus kidney

Summary To assess the mechanism(s) by which intraluminal chloride concentration is raised above equilibrium values, intracellular Cl^– activity ( _i ^Cl ) was studied in the proximal tubule ofNecturus kidney. Paired measurements of cell membrane PD (V _BL) and Cl-selective electrode PD (V _BL ^Cl ) were performed in single tubules, during reversible shifts of peritubular or luminal fluid composition. Steadystate _i ^Cl was estimated at 14.6±0.6 mmol/liter, a figure substantially higher than that predicted for passive distribution. To determine the site of the uphill Cl^– transport into the cell, an inhibitor of anion transport (SITS) was added to the perfusion fluid. Introduction of SITS in peritubular perfusate decreased _i ^Cl , whereas addition of the drug in luminal fluid slightly increased _i ^Cl ; both results are consistent with basolateral membrane uphill Cl^– transport from interstitium to the cell. TMA⁺ for Na⁺ substitutions in either luminal or peritubular perfusate had no effect on _i ^Cl . Removal of bicarbonate from peritubular fluid, at constant pH (a situation increasing HCO ₃ ^– outflux), resulted in an increase of _i ^Cl , presumably related to enhanced Cl^– cell influx: we infer that Cl^– is exchanged against HCO ₃ ^– at the basolateral membrane. The following mechanism is suggested to account for the rise in luminal Cl^– concentration above equilibrium values: intracellular CO₂ hydration gives rise to cell HCO ₃ ^– concentrations above equilibrium. The passive exit of HCO ₃ ^– at the basolateral membrane energizes an uphill entry of Cl^– into the cell. The resulting increase of _i ^Cl , above equilibrium, generates downhill Cl^– diffusion from cell to lumen. As a result, luminal Cl^– concentration also increases.C.N.R.S. Greco 24. Part of this work was presented at the 12^th annual meeting of the American Society of Nephrology, Boston, Mass. (Edelman et al., 1979).     

A protein backbone psi and phi angle dependence of 2J(N(i),C alpha(i-1)): the new NMR experiment and quantum chemical calculations

A new pulse sequence exploiting double- and zero-quantum evolution of two-spin ¹⁵N–¹³C coherence is proposed for the accurate measurements of ²J _{N( i ),C( i - 1)} coupling constants. Application of the new experiment is presented for ¹³C,¹⁵N-labeled ubiquitin sample. The density functional theory calculations of ²J _{N( i ),C( i - 1)} coupling constants have been performed to study their dependence on both (i - 1) and (i - 1) angle in model peptides, and the results exhibit a good correlation with experimental data.Supplementary material to this paper is available in electronic form at http://dx.doi.org/10.1007/s10858-004-7563-7This revised version was published online in April 2005. In the previous version, the name of the last author, Joanna Sadlej, was missing.     

Calcium-dependent potassium channel inParamecium studied under patch clamp

Summary We have studied a class of Ca _i ²⁺ -dependent K channels in inside-out excised membrane patches fromParamecium under patch clamp. Single channels had a conductance of 72 ±9.0 pS in a solution containing 100mM K⁺. The channels were selective for K⁺ over Rb⁺ with the permeability ratio of 1 0.56. and over Na⁺, Cs⁺ or NH ₄ ⁺ with a ratio 1<0.1. The channel activity was dependent on Ca _i ²⁺ , which was applied to the cytoplasmic side; the Ca _i ²⁺ concentration for the half maximal activation was 2 m. The Hill coefficient for the Ca _i ²⁺ dependence of the channel activity was 2.58, indicating that more than two Ca _i ²⁺ bindings are necessary for full activation. Unlike most Ca _i ²⁺ -dependent K channels in other organisms, the channels inParamecium were slightly more active upon hyperpolarization than upon depolarization. The voltage dependence was fitted to a Boltzmann curve with 41.2 mV pere-fold change in channel activity. While a high Ca _i ²⁺ concentration activated the channels, it also irreversibly reduced the channel activity over time. The decay of channel activity occurred faster at higher Ca _i ²⁺ concentrations. Quaternary ammonium ions suppressed ion passage through the channel; more highly alkylated quaternary ammonium ions were more efficient in blocking. Ba _i ²⁺ and Ca _i ²⁺ were relatively ineffective in blockage. It was concluded that these Ca _i ²⁺ -dependent K channels inParamecium are different from the previously described Ca _i ²⁺ -dependent K channels, and are perhaps of a novel class.     

Continuous and biomass recycle fermentations of Clostridium acetobutylicum

The availability and demand of biosynthetic energy (ATP) is an important factor in the regulation of solvent production in steady state continuous cultures of Clostridium acetobutylicum. The effect of biomass recycle at a variety of dilution rates and recycle ratios under both glucose and non-glucose limited conditions on product yields and selectivities has been investigated. Under conditions of non-glucose limitation, when the ATP supply is not growth-limiting, a lower growth rate imposed by biomass recycle leads to a reduced demand for ATP and substantially higher acetone and butanol yields. When the culture is glucose limited, however, biomass recycle results in lower solvent yields and higher acid yields.List of Symbols A ₆₀₀ absorbance at 600 nm - ATP adenosine triphosphate - C _imol/dm³ concentration of componenti in the fermentor - C _i ⁰ mol/dm³ concentration of componenti in the feed - D h^–1 dilution rate - F dm³/h feed flow rate - FdH₂ ferredoxin, reduced form - NAD nicotinamide adenine dinucleotide, oxidized form - NADH nicotinamide adenine dinucleotide, reduced form - NfF mmol/g/h NADH produced from oxidation of FdH₂ per unit biomass per unit time - P dm³/h filtrate flow during biomass recycle operation - PCRP C-mole carbon per C-mole glucose utilized percent of (substrate) carbon recovered in products - R recycle ratio,P/F - SPR mmol/g/h specific production rate - X _imol product/100 mol glucose utilized product yield - Y _ATP g biomass/mol ATP biomass yield on ATP - Y _GLU g biomass/mol glucose biomass yield on glucose - Y _ig biomass/mol biomass yield on nutrienti - h^–1 specific growth rate     

Parallel control of the inward-rectifier K+ channel by cytosolic free Ca2+ and pH inVicia guard cells

The influence of cytosolic pH (pH_i) in controlling K⁺-channel activity and its interaction with cytosolic-free Ca²⁺ concentration ([Ca²⁺]_i) was examined in stomatal guard cells ofVicia faba L. Intact guard cells were impaled with multibarrelled microelectrodes and K⁺-channel currents were recorded under voltage clamp while pH_i or [Ca²⁺]_i was monitored concurrently by fluorescence ratio photometry using the fluorescent dyes 2,7-bis (2-carboxyethyl)-5(6)-carboxyfluorescein (BCECF) and Fura-2. In 10 mM external K⁺ concentration, current through inward-rectifying K⁺ channels (I_K,in) was evoked on stepping the membrane from a holding potential of –100 mV to voltages from –120 to –250 mV. Challenge with 0.3-30 mM Na+-butyrate and Na⁺-acetate outside imposed acid loads, lowering pH_i from a mean resting value of 7.64 ± 0.03 (n = 25) to values from 7.5 to 6.7. The effect on pH_i was independent of the weak acid used, and indicated a H⁺-buffering capacity which rose from 90 mM H⁺/pH unit near 7.5 to 160 mM H⁺/pH unit near pH_i 7.0. With acid-going pH_i, (I_K,in) was promoted in scalar fashion, the current increasing in magnitude with the acid load, but without significant effect on the current relaxation kinetics at voltages negative of –150 mV or the voltage-dependence for channel gating. Washout of the weak acid was followed by transient rise in pH_i lasting 3–5 min and was accompanied by a reduction in (I_K,in) before recovery of the initial resting pH_i and current amplitude. The pH_i-sensitivity of the current was consistent with a single, titratable site for H⁺ binding with a pK_a near 6.3. Acid pH_i loads also affected current through the outward-rectifying K⁺ channels (I_K,out) in a manner antiparallel to (I_K,in) The effect on I_K, out was also scalar, but showed an apparent pK_a of 7.4 and was best accommodated by a cooperative binding of two H⁺. Parallel measurements showed that Na⁺-butyrate loads were generally without significant effect on [Ca²⁺]_i, except when pH_i was reduced to 7.0 and below. Extreme acid loads evoked reversible increases in [Ca²⁺]_i in roughly half the cells measured, although the effect was generally delayed with respect to the time course of pH_i changes and K⁺-channel responses. The action on [Ca²⁺]_i coincided with a greater variability in (I_K,in) stimulation evident at pH_i values around 7.0 and below, and with negative displacements in the voltage-dependence of (I_K,in) gating. These results distinguish the actions of pH_i and [Ca²⁺]_i in modulating (I_K,in) they delimit the effect of pH_i to changes in current amplitude without influence on the voltage-dependence of channel gating; and they support a role for pH_i as a second messenger capable of acting in parallel with, but independent of [Ca²⁺]_i in controlling the K⁺ channels.Abbreviations BCECF 2,7-bis (2-carboxyethyl)-5(6)-carboxy fluorescein - [Ca²⁺]_i cytosolic free Ca²⁺ concentration - g_K ensemble (steady-state) K⁺-channel conductance - I_K,out, I_K,in outward-, inward-rectifying K⁺ channel (current) - IN current-voltage (relation) - Mes 2-(N-morpholinolethanesulfonic acid - pH_i cytosolic pH - V membrane potential     

Membrane adenosine triphosphatase of Micrococcus lysodeikticus. Isolation of two forms of the enzyme complex and correlation between enzymatic stability,latency and activity.

Summary Two new forms of the plasma membrane ATP-ase ofMicrococcus lysodeikticus NCTC 2665 were isolated from a sub-strain of the microorganism by polyacrylamide gel electrophoresis. One of them had a mol.wt of 368,000 and a very low specific activity (0.80 µ mol.min^–1.mg protein^–1) that could not be stimulated by trypsin. This form has been called B^I (strain B, inactive). If the electrophoresis was carried out in the presence of reducing agents (i.e., dithiothreitol) and the pH of the effluent maintained at a value of 8.5 another form of the enzyme was obtained. This had a mol.wt of 385,000 and a specific activity of 2.5–5.0 µ mol.min^–1.mg protein^–1 that could be stimulated by trypsin to 5–10 µ mol.min^–1.mg protein^–1. This preparation of the ATPase has been called form B_A (strain B, enzyme active). The subunit composition of both forms has been studied by sodium dodecyl sulphate and urea gel electrophoresis and compared to that of the enzyme previously purified from the original strain (form A). The three forms of the enzyme had similar and subunits, with mol.wt of about 50,000 and 30,000 dalton, respectively. They also had in common the component(s) of relative mobility 1.0, whose status as true subunit(s) of the enzyme remains yet to be established. However, subunit, that had a mol.wt of about a 52,500 in form A (Andreu et al. Eur. J. Biochem. (1973) 37, 505–515), had a mol.wt similar to in form B_I and about 60,000 in form B_A. Furthermore B_A usually showed two types of this subunit ( and) and an additional peptide chain () with a mol.wt of about 25,000 dalton. This latter subunit seemed to account for the stimulation by trypsin of form B_A.Forms B_A could be converted to B_I by storage and freezing and thawing. Conventional protease activity could not be detected in any of the purified ATPase forms and addition of protease inhibitors to form B_A failed to prevent its conversion to form B_I. The low activity form (B_I) was more stable than the active forms of the enzyme and also differed in its circular dichroism. These results show thatM. lysodeikticus ATPase can be isolated in several forms. Although these variations may be artifacts caused by the purification procedures, they provide model systems for understanding the structural and functional relationships of the enzyme and for drawing some speculations about its functionin vivo.     

Glucose response to bursting-spiking pancreatic β-cells by a barrier kinetic model

A mathematical model of the pancreatic -cell electrical activity was developed using a barrier kinetic model. Our model incorpolates the glucose sensitive channel which is known to conduct K⁺ in the absence of glucose. The model also incorporates Ca _i sensitive K⁺ channels which are inhibited by intracellular H⁺ ions. It is described by three non-linear simultaneous differential equations. Numerical integration of these equations allowed us to examine the effect of glucose and of external Ca²⁺ ions on the electrical and cellular activity of the -cell. Our results show that the contribution of glucose-sensitive channel activity, if not completely inhibited, plays a very important role in determining the bursting periodicity. Our results also shows that even a small decrease in pH _i is sufficient to change a bursting -cell to a spiking one. The voltage dependence of calcium sensitive K⁺ channels, however, affects little to the bursting mode of the electrical activity. Our simulation supports an incomplete selectivity of the voltage dependent calcium channel for calcium ions with low external [Ca²⁺]. It also supports the role of [Ca] _i as an inhibitor of this channel when [Ca] _i becomes unusually high.This work was supported by NSF PCM 82 15583     

Solubilization and reconstitution of a vanadate-sensitive H+-ATPase from the plasma membrane ofBeta vulgaris

Summary A vanadate-sensitive H⁺-translocating ATPase isolated from red beet plasma membrane has been solubilized in active form and successfully reconstituted into artificial proteoliposomes. The H⁺-ATPase was solubilized in active form with deoxycholate, CHAPSO or octylglucoside in the presence of glycerol. Following detergent removal by gel filtration and reconstitution into proteoliposomes, ATP:Mg-dependent H⁺ transport could be measured as ionophore-reversible quenching of acridine orange fluorescence. Solubilization resulted in a three-to fourfold purification of the plasma membrane ATPase, with some additional enrichment of specific activity following reconstitution. H⁺ transport activity was inhibited half-maximally between 1 and 5 M vanadate (Na₃VO₄) and nearly abolished by 100 M vanadate. ATPase activity of native plasma membrane showed aK _i for vanadate inhibition of 9.5 M, and was inhibited up to 80% by 15 to 20 M vanadate (Na₃VO₄). ATPase activity of the reconstituted vesicles showed aK _i of 2.6 M for vanadate inhibition. The strong inhibition by low concentrations of vanadate indicates a plasma membrane rather than a mitochondrial or tonoplast origin for the reconstituted enzyme.     

Passive ionic properties of frog retinal pigment epithelium

Summary The isolated pigment epithelium and choroid of frog was mounted in a chamber so that the apical surfaces of the epithelial cells and the choroid were exposed to separate solutions. The apical membrane of these cells was penetrated with microelectrodes and the mean apical membrane potential was –88 mV. The basal membrane potential was depolarized by the amount of the transepithelial potential (8–20mV). Changes in apical and basal cell membrane voltage were produced by changing ion concentrations on one or both sides of the tissue. Although these voltage changes were altered by shunting and changes in membrane resistance, it was possible to estimate apical and basal cell membrane and shunt resistance, and the relative ionic conductanceT _i of each membrane. For the apical membrane:T _K0.52,T _{HCO 3}=0.39 andT _Na=0.05, and its specific resistance was estimated to be 6000–7000 cm². From the basalT _K=0.90 and its specific resistance was estimated to be 400–1200 cm². From the basal potassium voltage responses the intracellular potassium concentration was estimated at 110mm. The shunt resistance consisted of two pathways: a paracellular one, due to the junctional complexes and another, around the edge of the tissue, due to the imperfect nature of the mechanical seal. In well-sealed tissues, the specific resistance of the shunt was about ten times the apical plus basal membrane specific resistances. This epithelium, therefore, should be considered tight. The shunt pathway did not distinguish between anions (HCO₃ ^–, Cl^–, methylsulfate, isethionate) but did distinguish between Na⁺ and K⁺.     

Cell calcium signalling induced by endogenous lectin carbohydrate interaction in the Jurkat T cell line

The effects of the -galactoside-binding lectin from human placenta (HPL14) on intracellular calcium concentration ([Ca²⁺]_i) were examined in the human Jurkat T cell line. The lectin induces a concentration dependent increase in [Ca²⁺]_i. This calcium signalling effect is clearly mediated through complementary cell surface galactoglycoconjugates because it can be blocked by -galactosides. The observed Ca²⁺-response involves both the release of calcium from intracellular stores and a calcium influx from the extracellular space. It is sustained in the presence of 1 mM extracellular calcium whereas it becomes transient when the influx of extracellular calcium was blocked by calcium chelation to EGTA. Voltage-sensitive calcium channel blockers like verapamil and prenylamine were without effect on the action of HPL14. Protection of the sugar binding activity of HPL14 in the absence of a thiol-reducing reagent by carboxamidomethylation (CM-HPL14) or by substitution Cys2 with serine (C2S) results in lectin proteins with considerably decreased calcium signalling efficiency. The recombinant lectin (Rec H) and the mutant protein obtained by substitution of highly conservative Trp68 with tyrosine (W68Y) induce lower levels of [Ca²⁺]_i compared to wild type lectin.Abbreviation [Ca²⁺]_i concentration of intracytoplasmic free calcium - CM carboxamidomethylation - CRD earbohydrate recognition domain - C2S mutant lectin protein in which Cys2 was replaced by serine - EGTA ethyleneglycol-bis(2-aminoethylether)-N,N,N - N-tetraacetic acid HEPES,N-(2-hydroxyethyl)piperazine-N-2-ethanesulfonic acid - HPL14 human -galactoside-binding placental lectin - Rec H recombinant human 14 kDa lectin - W68Y mutant lectin protein in which Trp68 was substituted to tyrosine     

Modulation of small conductance calcium-activated potassium channels in C6 glioma cells

Using the patch clamp technique, we have characterized a small conductance, calcium-activated potassium (SK) channel in the C6 glioma cell line. Elevation of cytosolic Ca²⁺ concentration ([Ca²⁺] _i ) by applications of serotonin or ionomycin induced bursts of channel openings recorded in the cell-attached configuration. These channels underlie the serotonin-induced, [Ca²⁺] _i -activated whole-cell K⁺ conductance described previously. [Ca²⁺] _i directly activated SK channels in inside-out patches with a biphasic concentration dependence. Submicromolar [Ca²⁺] _i induced bursts of channel openings with a unitary conductance of about 25 pS, similar to that of the serotonin-induced channels. Supramicromolar [Ca²⁺] _i caused prolonged openings with a unitary conductance of about 35 pS, resulting in a pronounced increase of the average current in patches exposed to [Ca²⁺] _i above 100 m. The two modes of opening reflect the activity of the same SK channel. The channel conductance depended on external K⁺ concentration with K _Dof 5 m. The channel was slightly permeable to cations other than K⁺, with a permeability ratio for K⁺Ca²⁺Na⁺ of 10.0400.030, respectively. ATP was required to maintain channel activity in outside-out patches but was not essential in inside-out patches. The modulation of SK channels in C6 cells by components in their microenvironment may be related to the role of glial cells in controlling the extracellular milieu in the CNS.The authors are grateful to Dr. M. Segal for continuous support, stimulating discussions and criticism throughout the course of this work, to Dr. I. Steinberg for helpful suggestions and to Dr. H. Jarosch, for helping with the Fortran application. N.M.'s research was supported in part by BARD, the U.S.-Israel Binational Agricultural Research and Development Fund, grant no. IS-1670-89RC.