Isolation of a Small Rod with Lytic Activity against Vibrio parahaemolyticus from Fresh Sea Water

A small rod, capable of forming crater-like plaques on lawns of Vibrio parahaemolyticus, was isolated from a marine environment. The isolate was a gram-negative straight rod with round ends and was small in size, equal to that of halophilic Bdellovibrio strain 5501. The isolate appeared to have close taxonomic relationships to Cytophaga, since this bacterium moved slowly in a gliding manner on a solid agar surface, hydrolyzed agar and starch, contained yellow pigment and was halophilic. The isolate was able to grow not only under host-dependent but also under host-independent conditions when low nutrient media were used for cultivation, and its bacteriolytic mode was different from that of Bdellovibrio, an endoparasite. The isolate was halophilic and required Mg⁺⁺ and Ca⁺⁺ in addition to 3% saline for growth. The isolate showed a broad host range when tested for plaque-forming activity on gram-negative bacteria but not on the gram-positive bacteria tested so far.     

Effects of managanese salts on the AIDS-related pathogen,Cryptosporidium parvum in vitro and in vivo

The authors examined the effects of manganese salts on the interaction of the AIDS-related pathogen,Cryptosporidium parvum, with human ileoadenocarcinoma (HCT-8) cells in vitro. Manganese (Mn) inhibited binding ofC. parvum sporozoite membrane antigens to intact, fixed HCT-8 cells in a dose-dependent fashion, whereas Ca⁺⁺, Mg⁺⁺, and Zn⁺⁺ salts had no effect. Manganese was also found to affect sporozoite penetration of live HCT-8 cells, which resulted in a dose-dependent inhibition of parasite development. However, the levels of Mn⁺⁺ needed in the live cell assays was approx 10-fold greater than in the fixed-cell assays. This inhibition of parasite development was not reversible when Ca⁺⁺ or Mg⁺⁺ were used as competitors. Oral supplementation of suckling mice infected withC. parvum with MnSO₄ resulted in significant reductions and, in some cases, elimination of intestinally derived oocysts.     

Junctional membrane permeability

Summary Substitution of extracellular Na⁺ by Li⁺ causes depression of junctional membrane permeability inChironomus salivary gland cells; within 3 hr, permeability falls to so low a level that neither fluorescein nor the smaller inorganic ions any longer traverse the junctional membrane in detectable amounts (uncoupling). The effect is Li-specific: if choline⁺ is the Na⁺ substitute, coupling is unchanged. The Li-produced uncoupling is not reversed by restitution of Na⁺. Long-term exposure (>1 hr) of the cells to Ca, Mg-free medium leads also to uncoupling. This uncoupling is fully reversible by early restitution of Ca⁺⁺ or Mg⁺⁺. Coupling is maintained in the presence of either Ca⁺⁺ or Mg⁺⁺, so long as the total divalent concentration is about 12mm. The uncoupling in Ca, Mg-free medium ensues regardless of whether the main monovalent cation is Na, Li or choline.The uncouplings are accompanied by cell depolarization. Repolarization of the cells by inward current causes restoration of coupling; the junctional conductance rises again to its normal level. The effect was shown for Li-produced uncoupling, for uncoupling by prolonged absence of external Ca⁺⁺ and Mg⁺⁺, and for uncoupling produced by dinitrophenol. In all cases, the recoupling has the same features: (1) it develops rapidly upon application of the polarizing current; (2) it is cumulative; (3) it is transient, but outlasts the current; and (4) it appears not to depend on the particular ions carrying the current from the electrodes to the cell. The recoupling is due to repolarization of nonjunctional cell membrane; recoupling can be produced at zero net currernt through the junctional membrane. Recoupling takes place also as a result of chemically produced repolarization; restoration of theK gradients in uncoupled cells causes partial recoupling during the repolarization phase.An explanation of the results on coupling is proposed in terms of known mechanisms of regulation of Ca⁺⁺ flux in cells. The uncouplings are explained by actions raising the Ca⁺⁺ level in the cytoplasmic environment of the junctional membranes; the recoupling is explained by actions lowering this Ca⁺⁺ level.     

Effect of exogenous ATP on the volume of TA3 ascites tumor cells

When exogenous ATP is added to suspensions of TA₃ ascites tumor cells suspended in Ca⁺⁺ and Mg⁺⁺ free media, a significant increase in cell volume can be measured. This increase is reversible upon addition of Ca⁺⁺ and/or Mg⁺⁺ back to the media. The enlargement of these cells is temperature sensitive and specific for ATP; no other nucleotides, EDTA or ouabain were effective. The evidence suggest that this phenomena may be due to an alteration in membrane permeability and that the regulation of membrane permeability is an energy dependent process.     

Possible enzymatic bases of bacteriolysis by bdellovibrios

Summary Bdellovibrio sp. strain 6-5-S grows on and lyses autoclaved cells of Spirillum serpens strain VHL. The dissolution of the S. serpens cells is accompanied by a decrease in optical density and by a release of reducing substances, amino sugars, amino groups, and muramic acid into the culture supernatant. S. serpens cells are degraded by Bdellovibrio sp. strain 6-5-S into fragments of various sizes of which 9% is dialyzable. Fractions of the clear lysate precipitated by ammonium sulfate or cold acetone show lytic activity against autoclaved cells of Micrococcus lysodeikticus or S. serpens and are capable of releasing reducing sugars or ¹⁴C-labeled materials from isolated unlabeled or ¹⁴C-labeled S. serpens peptidoglycan, respectively. The lysozyme-like enzyme has been partially purified from the ammonium sulfate-precipitated fractions by DEAE cellulose chromatography. The molecular weight of the lysozyme-like enzyme is about 12500 as determined by Sephadex G-100.Like Bdellovibrio sp. strain 6-5-S, Bdellovibrio spp. strains 100, 109 (Davis), and A 3.12 also produce proteolytic enzymes not only in living cells but also in autoclaved cells and in cell-free extracts of S. serpens. The multiplicity of infection affects the rate of proteolytic enzyme production. In all cases, lysis of S. serpens cells occurs before production of proteolytic enzyme is evident. Mutants of Bdellovibrio sp. strain 6-5-S, which no longer produce certain proteolytic enzymes, were obtained by nitrosoguanidine treatment and selected by inability to clear casein agar; these mutants grow more slowly and form smaller plaques on S. serpens lawns than the wild type. Enzymatic analysis shows that some mutants lack the capacity to hydrolyze Azocoll brand of collagen (Azocollase-negative) and casein (exopeptidase-negative) but, like the wild type, they possess carboxypeptidase (endopeptidase-positive). A sixty-two-fold purification of the Azocollase was achieved by passage of the acetone-precipitated fraction of a lysate through a DEAE cellulose column. The Azocollase liberated amino groups also from hemoglobin, bovine serum albumin, and gelatin. The Michaelis constant (K _m) for the Azocollase acting on N,N-dimethylcasein is 5.1×10^-5 M and the molecular weight of the enzyme is about 11000.A lipase, which hydrolyzes tributyrin incorporated into an agar medium, has been detected in the acetone-precipitated fraction and in a double-layer lawn containing non-lipolytic S. serpens and Bdellovibrio sp. strain 6-5-S.The lysozyme-like enzyme, Azocollase, peptidases, and lipase probably are all involved in the bacteriolysis caused by the bdellovibrios.     

Histochemical and cytochemical demonstration of Ca++-ATPase activity in the stellate cells of the adenohypophysis of the guinea pig

Summary The histo- and cytochemical localization of Ca⁺⁺-ATPase activity in the adenohypophysis of the guinea pig was studied utilizing a newly developed method (Ando et al. 1981). An intense reaction was observed in the wall of the blood vessels and between non-secretory cells (stellate cells) and endocrine cells of the pars distalis. Under the electron microscope the Ca⁺⁺-ATPase reaction product was located extracellularly in relation to the plasmalemma of the stellate cells. This reaction was dependent on Ca⁺⁺ and the substrate, ATP, and reduced by the addition of 0,1 mM quercetin to the standard incubation medium. Preheating of the sections before incubation completely inhibited the enzyme activity. When Mg⁺⁺ in different concentrations were substituted for Ca⁺⁺ in the incubation medium the reaction was always reduced. Both Ca⁺⁺ and Mg⁺⁺ in the incubation medium also reduced the reaction. The plasmalemma of the endocrine cells contains no demonstrable amount of Ca⁺⁺-ATPase activity. The function of the Ca⁺⁺-ATPase activity is discussed in relation to the regulation of the extracellular Ca⁺⁺ concentration which seems to be important with respect not only to the secretory process of the endocrine cells but also to the metabolism of the adenohypophysis.     

Apparent loss of calcium-activated potassium current in internally perfused snail neurons is due to accumulation of free intracellular calcium

Summary Internal perfusion ofHelix neurons with a solution containing potassium aspartate, MgCl₂, ATP, and HEPES causes the calcium-activated potassium current (I _K(Ca)) evoked by depolarizing voltage steps to decrease with time. When internal free Ca⁺⁺ is strongly buffered to 10^–7 m by including 0.5mm EGTA and 0.225mm CaCl₂ in the internal solution,I _K(Ca) remains constant for up to 3 hours of perfusion. In cells whereI _K(Ca) is small at the start of perfusion, perfusion with the strongly buffered 10^–7 m free Ca⁺⁺ solution produces increases inI _K(Ca) which ultimately saturate. In cells perfused with solutions buffered to 10^–6 m free Ca⁺⁺,I _K(Ca) is low and does not change with perfusion. These results lead us to conclude thatI _K(Ca) is stable in perfusedHelix neurons and that the apparent loss ofI _K(Ca) seen initially with perfusion is due to accumulation of cytoplasmic calcium. Since the calcium current (I _Ca) provides the Ca⁺⁺ which activatesI _K(Ca) during a depolarizing pulse,I _Ca is also stable in perfused cells when free intracellular Ca⁺⁺ is buffered.Perfusion with 1 m calmodulin (CaM) produces no effect onI _K(Ca) with either 10^–7 or 10^–6 m free internal calcium. Inhibiting endogenous CaM by including 50 m trifluoperazine (TFP) in both the bath and the internal perfusion solution also produces no effect onI _K(Ca) with 10^–7 m free internal calciu. It is concluded that CaM plays no role inI _K(Ca) activation.     

Nutrients determine the spatial architecture of Paracoccus sp. biofilm

Bacterial biofilms adapt and shape their structure in response to varied environmental conditions. A statistical methodology was adopted in this study to empirically investigate the influence of nutrients on biofilm structural parameters deduced from confocal scanning laser microscope images of Paracoccus sp.W1b, a denitrifying bacterium. High concentrations of succinate, Mg⁺⁺, Ca⁺⁺, and Mn⁺⁺ were shown to enhance biofilm formation whereas higher concentration of iron decreased biofilm formation. Biofilm formed at high succinate was uneven with high surface to biovolume ratio. Higher Mg⁺⁺ or Ca⁺⁺ concentrations induced cohesion of biofilm cells, but contrasting biofilm architectures were detected. Biofilm with subpopulation of pillar-like protruding cells was distributed on a mosaic form of monolayer cells in medium with 10 mM Mg⁺⁺. 10 mM Ca⁺⁺ induced a dense confluent biofilm. Denitrification activity was significantly increased in the Mg⁺⁺- and Ca⁺⁺-induced biofilms. Chelator treatment of various biofilm ages indicated that divalent cations are important in the initial stages of biofilm formation.     

Large scale preparation of rabbit aortic smooth muscle cells for use in calcium uptake studies

Summary Rabbit aortic smooth muscle cells were prepared by enzymatic digestion of the aortic smooth muscle layer. The cells were subcultured up to Passage 22 starting from a cryogenically preserved stock (approximately 10¹⁰cells, Passage 8) and characterized morphologically and for⁴⁵Ca⁺⁺ uptake. Microscopically the cells demonstrated the characteristics of vascular smooth muscle cells.⁴⁵Ca⁺⁺ uptake by the cells plated on tissue culture flasks (25 cm²) was determined at 25°C in physiological salt solution (PSS) containing⁴⁵Ca⁺⁺ in low (5 mM) or high (50mM) KCl concentrations. At the end of the incubation period (0 to 30 min), PSS was aspirated and the cells quickly washed, digested with 0.5N NaOH, and counted for⁴⁵Ca⁺⁺. High K⁺ increased the⁴⁵Ca⁺⁺ uptake by 100% or more compared to the low K⁺ uptake of⁴⁵Ca⁺⁺. This K⁺-induced⁴⁵Ca⁺⁺ uptake was eliminated in osmotically shocked cells, and inhibited by nifedipine, verapamil, and diltiazem, in a dose-dependent manner. The extent of⁴⁵Ca⁺⁺ uptake and the inhibitory activity of nifedipine were retained up to Passage 22. It is concluded that the developed methodology for scaled-up cultures of rabbit aortic smooth muscle cells provides morphologically intact and biochemically functioning cells suitable for calcium channel studies.     

Über die Wirkung von ADP und einigen Kationen auf die Rotationsströmung in den Wurzelhaaren der Gerste (Hordeum vulgare L.)

Zusammenfassung In getrennten Versuchen wurde die Wirkung von ADP, Ca⁺⁺, Mg⁺⁺, K⁺ und Cu⁺⁺ auf die Rotationsströmung in den Wurzelhaaren der Gerste (Hordetim vulgare L.) untersucht. Das in verschiedenen Konzentrationen fortdauernd verabreichte ADP bedingte eine Stimulation der Plasmaströmung. Die Beschleunigung der Rotationsströmung war der ADP-Konzentration gegenüber umgekehrt proportional (Abb. 3).Von den untersuchten Kationen hatte nur Ca⁺⁺ (1·10^–3 Mol) eine Stimulationswirkung. Diese Stimulationswirkung wird der Aktivierung eines Enzyms bzw. eines kontraktilen Proteins mit ATPase-Eigenschaften zugeschrieben.Die Rolle von ADP und einigen Kationen bei der Stimulation der Rotation wurde dann mit Hilfe einer gemischten Behandlung untersucht. Diese bestand in der gleichzeitigen Verabreichung von ADP (1·10^–6 Mol) und CaCl₂, MgCl₂, KCl (1 · 10^–3 Mol) oder CuCl₂ (1·10^–6 Mol). Es wurde festgestellt, daß Mg⁺⁺ und Ca⁺⁺ eine antagonistische Wirkung ausüben. Ca⁺⁺ hebt die durch ADP induzierte Stimulation auf und reduziert die Rotationsgeschwindigkeit plötzlich bis auf den Kontrollwert. Die Mg⁺⁺-Wirkung bewirkt, nach einer zeitweiligen Beibehaltung der Stimulation, ebenfalls eine Abnahme der Geschwindigkeit. K⁺ hat eine ähnliche Wirkung wie Ca⁺⁺. Cu⁺⁺ beeinträchtigt die ADP-induzierte Stimulation in geringem Maße.Die gleichzeitige Einwirkung von ADP und einigen Kationen erlaubt die Aufstellung folgender Hypothese. Die Rotationsstimulation erfolgt dank dem ATP, das auf Kosten des von außen absorbierten ADP in den Mitochondrien synthetisiert wird. Die zusätzliche ATP-Synthese kann durch gleichzeitige Ca⁺⁺-Behandlung unterbunden werden. NachHanson und Mitarb, sollen Ca⁺⁺ und ADP um ein phosphoryliertes Zwischenprodukt in Kompetition treten, so daß es zu einer Ansammlung von Ca⁺⁺ und P_a in der Zelle kommt. Andererseits könnte teilweise auch die aktive, energieverbrauchende Salzabsorption die Geschwindigkeitsabnahme der Rotation bei gemischter Behandlung erklären.

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The effect of ADP and some cations on rotational streaming in barley (Hordeum vulgare L.) root hairs

Summary The effect of ADP, Ca⁺⁺, Mg⁺⁺, K⁺, and Cu⁺⁺ upon rotational streaming within barley (Hordeum vulgäre L.) root hairs was separately studied. It was shown that various solutions of ADP may stimulate the streaming after continuous treatment. The rate increase of the rotational streaming was inverse proportional to ADP concentration (Fig. 3).From the investigated cations only Ca⁺⁺ (1·10^–3M) caused a stimulation of streaming after continuous treatment. This effect is probably due to enzymic activation of a contractile proteine which has ATPase feature.The role of ADP and of the investigated cations in the stimulation of the rotational streaming was studied by means of mixed treatment. This kind of treatment consists in a simultaneous administration of ADP (1 · 10^–6M) and CaCl₂, MgCl₂, KCl (1 · 10^–3M), or CuCl₂ (1 · 10^–6M) solutions. Ca⁺⁺ and Mg⁺⁺ showed an antagonistic action. Ca⁺⁺ brings about an immediately suppress of ADP induced stimulation. Suddenly the rate of streaming comes back to control. Mg⁺⁺ after a temporary maintaining of stimulation, also causes the lowering of the streaming. The action of K⁺ was very similar to those of Ca⁺⁺. Cu⁺⁺ changes to a little extent the stimulation caused by ADP.The simultaneous action of ADP and of the investigated cations allow us to express the following hypothesis. The stimulation of the rotational streaming after ADP treatment probably is due to ATP synthetized in mitochondria on the account of ADP. The additional synthesis of ATP can be prevented by simultaneous administration of Ca⁺⁺. According toHanson and his coworkers Ca⁺⁺ would compete with ADP for a phosphorylated intermediate product. From a such competition would result the Ca⁺⁺ and P_i accumulation. The active uptake of salts which require energy would also explain the lowering of the rotational streaming rate after the mixed treatment.

     

Calcium entry in rabbit corneal epithelial cells: Evidence for a nonvoltage dependent pathway

We performed experiments to elucidate the calcium influx pathways in freshly dispersed rabbit corneal epithelial cells. Three possible pathways were considered: voltage-gated Ca⁺⁺ channels, Na⁺/Ca⁺⁺ exchange, and nonvoltage-dependent Ca⁺⁺-permeable channels. Whole cell inward currents carrying either Ca⁺⁺ or Ba⁺⁺ were not detected using voltage clamp techniques. We also used imaging technology and the Ca⁺⁺-sensitive ratiometric dye fura 2 to measure changes in intracellular Ca⁺⁺ concentration ([Ca]_i). Bath perfusion with NaCl Ringer's solution containing the calcium channel agonist Bay-K-8644 (1 m), or Ni⁺⁺ (40 m), a blocker of many voltage-dependent calcium channels, did not affect [Ca⁺⁺]_i. Membrane depolarization with a KCl Ringer's bath solution resulted in a decrease in [Ca⁺⁺]_i. These results are inconsistent with the presence of voltage gated Ca⁺⁺ channels. Nonvoltage gated Ca⁺⁺ entry, on the other hand, would be reduced by membrane depolarization and enhanced by membrane hyperpolarization. Agents which hyperpolarize via stimulation of K⁺ current, such as flufenamic acid, resulted in an increase in ratio intensity. The cells were found to be permeable to Mn⁺⁺ and bath perfusion with 5 mm Ni⁺⁺ decreased [Ca⁺⁺]_i suggesting that the Ca⁺⁺ conductance was blocked. These results are most consistent with a nonvoltage gated Ca⁺⁺ influx pathway. Finally, replacing extracellular Na⁺ with Li⁺ resulted in an increase in [Ca⁺⁺]_i if the cells were first Na⁺-loaded using the Na⁺ ionophore monensin and ouabain, a Na⁺-K⁺-ATPase inhibitor. These results suggest that Na⁺/Ca⁺⁺ exchange may also regulate [Ca⁺⁺] in this cell type.The authors are grateful to Chris Bartling for expert technical assistance with the imaging experiments, Helen Hendrickson for cell preparation, and Jonathon Monck for helpful discussions regarding imaging technology. This work was supported by National Institutes of Health grants EYO3282, EYO6005, DK08677, and an unrestricted award from Research to Prevent Blindness.     

An L-type Calcium Channel in Renal Epithelial Cells

A voltage-activated Ca⁺⁺ channel has been identified in the apical membranes of cultured rabbit proximal tubule cells using the patch-clamp technique. With 105 mm CaCl₂ solution in the pipette and 180 NaAsp in the bath, the channel had a conductance of 10.4 ± 1.0 pS (n= 8) in on-cell patches, and 9.8 ± 1.1 pS (n= 8) in inside-out patches. In both on-cell and inside-out patches, the channel is active by membrane depolarization. For this channel, the permeation to Ba⁺⁺ and Ca⁺⁺ is highly selective over Na⁺ and K⁺ (P_Ca(Ba):P_Na(K) >200:1). The sensitivity to dihydropyridines is similar to that for L-type channels where the channel was blocked by nifedipine (10 μm), and activated by Bay K 8644 (5 μm). When activated by Bay K 8644, the channel showed subconductance levels. Treatment with forskolin (12.5 μm), phorbol ester (1 μm), or stretching (40 cm water) did not activate this channel. These results indicate that this Ca⁺⁺ channel is mostly regulated by membrane voltage, and appears to be an epithelial class of L-type Ca⁺⁺ channel. As such, it may participate in calcium reabsorption during periods of enhanced sodium reabsorption, or calcium signaling in volume regulation, where membrane depolarization occurs for prolonged periods. Received: 1 April 1996/Revised: 5 August 1996     

Das Belichtungspotential der isolierten Retina des Einsiedlerkrebses (Eupagurus bernhardus L.) in Abhängigkeit von den extrazellulären Ionenkonzentrationen

Summary 1.The action potential of the isolated retina of the hermit crab Eupagurus bernhardus L. resulting from exposure to light has been measured with external electrodes under constant stimulus conditions.Three measurements of the retinal action potentials (RAP's) were taken to observe the changes of the RAP's quantitatively: a) The amplitude h _max of the maximum; b) the amplitude h _e of the plateau, measured at the end of the stimulus, for taking the shape quotient h _max /h _e ; c) the peak-amplitude-time t _max. 2.The RAP's of the retina in a standard physiological saline are compared with those of the retina in salines of different ionic composition while osmotic pressure and p _h were kept constant. 3.Increasing K⁺-concentration reduces the amplitude h _max of the RAP's gradually, which is zero at 500 mM K⁺/l. The peak-time t _max decreases with increasing K⁺-concentration up to 50 mM K⁺/l, whereas at higher concentrations it increases. In contrast to this fact h _max/h _e increases up to 50 mM K⁺/l and decreases above this concentration (Fig. 3). 4.Increasing Ca⁺⁺-concentration reduces h _max (zero above 350 mM Ca⁺⁺/l) and t _max. h _max/h _e rises up to a Ca⁺⁺-concentration of about 30 mM Ca⁺⁺/l; whereas at a higher Ca⁺⁺-concentration it decreases again (Fig. 6). When the Ca⁺⁺-concentration is very low the fall of the RAP is much slowed down and the plateau h _e extremly rises. In a Ca⁺⁺-free saline which contained 1 mM/l Ethylendiamintetraacetic acid (EDTA) the retina lost its irritability reversibly (Fig. 8). 5.The amplitude of the RAP's is augmented with increasing Mg⁺⁺-concentration up to 10–30 mM Mg⁺⁺/l and decreases above this concentration (Fig. 11). When the saline contains virtually no other cations but Mg⁺⁺ (367 mM/l) the amplitude of the RAP is small (20%) but not zero. 6.In a buffered isotonic NaCl-solution as well as in a saline in which all the Cl^--ions are substituted by SO₄ ^---ions the amplitude of the RAP's is higher but the shape of the RAP's is changed in the same way as in other solutions with very low concentrations of Ca⁺⁺. 7.All the changes of the RAP's described so far are reversible. 8.Even when the retina is kept in a salt solution containing sodium in a very low concentration (ca. 3–5 mM/l, the sodium substituted by choline⁺-ions) for 5 hours the amplitude h _max of the RAP does not change significantly but the shape: the peaktime t _max is longer, h _max/ h _e is much greater. Afterwards when the retina is brought into standard saline again, the amplitude h _max increases, t _max remains almost unchanged and h _max/h _e , decreases strongly (Fig. 17). 9.Substitution of all the Na⁺-, Ca⁺⁺- and Mg⁺⁺-ions by choline⁺-ions results in a decrease of the amplitude h _max, a lengthening of t _max and a small increase of h _max/h _e . 10.Substitution of all the NaCl by glucose decreases the amplitude h _max, lengthens t _max very much and decreases the value of h _max/h _e but little. Afterwards, when the retina is brought into standard saline again the effect of the glucose solution on the amplitude h _max is only little reversible: h _max increases very little, t _max decreases strongly and h _max/h _e increases (Fig. 21). 11.With increasing external K⁺-concentration the resting potential decreases. The changes of the resting potential cause the changes in the shape of the RAP's. 12.The presence of a small concentration of Ca⁺⁺-ions outside of the cell membrane is obviously necessary for the ability of the cell membrane of the photoreceptor to increase its ionic permeability consequent to stimulation by light. Above a Ca⁺⁺-concentration of about 1 mM/l the raise of permeability of the cell membrane during illumination is smaller with increasing Ca⁺⁺-concentration. The velocity of the changes in permeability is augmented, especially of those changes concerned with the fall of the RAP. The effect of Mg⁺⁺-ions is somewhat similar to that of Ca⁺⁺-ions, but much weaker. 13.The changes of the RAP are mainly determined by the low Ca⁺⁺-content when the retina stays in the NaCl- or sulfate saline. 14.Choline⁺-ions probably greatly increase the raise of permeability of the cell membrane for the divalent cations Ca⁺⁺ and Mg⁺⁺ during excitation. 15.It is suggested that under normal conditions in Eupagurus the amplitude of the RAP is determined primarily by the Na⁺-concentration gradient over the receptor cell membrane. But also the divalent cations Ca⁺⁺ and Mg⁺⁺ contribute to the amplitude of the RAP, especially after the retina has been treated with choline chloride.

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Herrn Professor Dr. C. Kosswig zum 60. Geburtstag überreicht.Der Deutschen Forschungsgemeinschaft danke ich für großzügige Unterstützung, Herrn Peter Thomsen und meiner Frau für technische Hilfe.     

Mechanism of action ofVibrio cholerae enterotoxin

Summary The characteristics of the cholera toxin-stimulated adenylate cyclase of toad (Bufus marinus) and rat erythrocyte plasma membranes have been examined, with special emphasis on the response to purine nucleotides, fluoride, magnesium and catecholamine hormones. Toad erythrocytes briefly exposed to low concentrations of cholera toxin (40,000 to 60,000 molecules per cell) and incubated 2 to 4 hr at 30°C exhibit dramatic alterations in the kinetic and regulatory properties of adenylate cyclase. The approximateK _m for ATP, Mg⁺⁺ increases from about 1.8 to 3.4mm in the toxinstimulated enzyme. The stimulation by cholera toxin increases with increasing ATP, Mg⁺⁺ concentrations, from 20% at low levels (0.2mm) to 500% at high concentrations (greater than 3mm). Addition of GTP, Mg⁺⁺ (0.2mm) restores normal kinetic properties to the toxin-modified enzyme, such that stimulation is most simply explained by an elevation ofV _max. GTP enhances the toxin-treated enzyme activity two-to fourfold at low ATP concentrations, but this effect disappears at high levels of the substrate. At 0.6mm ATP and 5mm MgCl₂ the apparentK _a for GTP, Mg⁺⁺ is 5 to 10m. The control (unstimulated) enzyme demonstrates a very small response to the guanyl nucleotide. 5-ITP also stimulates the toxin-treated enzyme but cGMP, guanine, and the pyrimidine nucleotides have no effect. Cholera toxin also alters the activation of adenylate cyclase by free Mg⁺⁺, decreasing the apparentK _a from about 25 to 5mm. (–)-Epinephrine sensitizes the toad erythrocyte adenylate cyclase to GTP and also decreases the apparentK _a for free metal. Sodium fluoride, which cause a 70- to 100-fold activation of enzyme activity, has little effect on sensitivity to GTP, and does not change the apparentK _a for Mg⁺⁺; moreover, it prevents modulation of these parameters by cholera toxin. Conversely, cholera toxin severely inhibits NaF activation, and in the presence of fluoride ion the usual three- to fivefold stimulation by toxin becomes a 30 to 60% inhibition of activity. The toxin-stimulated enzyme can be further activated by catecholamines; in the presence of GTP the (–)-epinephrine stimulation is enhanced by two- to threefold. The increased catecholamine stimulation of toad erythrocyte adenylate cyclase induced by cholera toxin is explained primarily by an increase in the maximal extent of activation by the hormones. Rat erythrocyte adenylate cyclase is also modified by cholera toxin. In the mammalian system the apparent affinity for the hormone appears to be increased. Cholera toxin thus induces profound and nearly permanent changes in adenylate cyclase by a unique process which mimics the stimulation by hormones in important ways, and which also accentuates the normal hormonal response. The relevance of these findings to the mechanism of action of cholera toxin is considered.Part of this work was reported at the 1974 meeting of the Federation of American Societies for Experimental Biology (Bennett & Cuatrecasas, 1974).     

The effect of Mg ++ on the conformation of the Ca ++ -binding component of troponin

Mg⁺⁺ like Ca⁺⁺ induces a conformational change in the Ca⁺⁺-binding component of troponin. However, this change is only 36 % of the change in fluorescence intensity and 80 % of the change in optical rotation induced by Ca⁺⁺. The apparent binding constant of Mg⁺⁺ to the Ca⁺⁺-binding component is 5 × 10³ M⁻¹, much smaller than that of Ca⁺⁺. Circular dichroism measurements show that these changes are simple helix-coil transitions. Unlike the Ca⁺⁺-induced conformational change, the Mg⁺⁺-induced change cannot be propagated to other muscle proteins, and therefore has no physiological meaning.     

A membrane filter direct count technique for enumeratingBdellovibrio

A membrane filter direct count method was devised for enumeratingBdellovibrio cells in “clean” suspensions. The procedure involves filtering a specified volume of a diluted, Trisbuffered suspension ofBdellovibrio cells through a known area of a 100-nm-pore-size Millipore brand membrane filter. A clarification solvent was used to render the filter transparent, so that the bdeloyvibrios on the filter could be photomicrographed and counted either visually or by means of a Quantimet 720 Image Analyzing Computer. The number ofBdellovibrio cells per milliliter in the undituted suspension could be calculated from the mean number of cells per unit area of the filter, the dilution factor, and the volume of diluted suspension filtered. TheBdellovibrio cells were distributed on the filters in a Poisson manner when there were not more than about 3.5 cells per 100 μm² of filter surface. The membrane filter direct counts correlated well with direct counts obtained by the Petroff-Hausser method. The correlation of direct counts with plaque (“viable”) counts showed that 80 to 95% of the direct-countedBdellovibrio cells in the clean suspensions were capable of forming plaques on lawns of suitable substrate bacteria. *** DIRECT SUPPORT *** A01R4002 00007     

Separate effects of mercurial compounds on the ionophoric and hydrolytic functions of the (Ca+++Mg++)-ATPase of sarcoplasmic reticulum

Summary We have shown that a Ca⁺⁺-ionophore activity is present in the (Ca⁺⁺+Mg⁺⁺)-ATPase of rabbit skeletal muscle sarcoplasmic reticulum (A.E. Shamoo & D.H. MacLennan, 1974.Proc. Nat. Acad. Sci. USA 71:3522). Methylmercuric chloride inhibited the (Ca⁺⁺+Mg⁺⁺)-ATPase and Ca⁺⁺ transport, but had no effect on the activity of the Ca⁺⁺ ionophore. Mercuric chloride inhibited ATPase, transport and ionophore activity. The ATPase and transport functions were more sensitive to methylmercuric chloride than to mercuric chloride. The two functions were inhibited concomitantly by methylmercuric chloride but slightly lower concentrations of mercuric chloride were required to inhibit Ca⁺⁺ transport than were required to inhibit ATPase. Methylmercuric chloride and mercuric chloride probably inhibited ATPase and Ca⁺⁺ transport by blocking essential-SH groups. However, it appears that there are no essential-SH groups in the Ca⁺⁺ ionophore and that mercuric chloride inhibited the Ca⁺⁺ ionophore activity by competition with Ca⁺⁺ for the ionophoric site. Blockage of Ca⁺⁺ transport by mercuric chloride probably occurs both at sites of essential-SH groups and at sites of ionophoric activity. These data suggest the separate identity of the sites of ATP hydrolysis and of Ca⁺⁺ ionophoric activity.     

Relationships among the bdellovibrios revealed by partial sequences of 16S ribosomal RNA

Members of the genusBdellovibrio possess the unifying phenotypic trait of attacking and preying upon other Gram-negative bacteria. It has been suggested that this common lifestyle arose by convergent evolution. Physiological and G + C studies have led to the notion that bdellovibrios are a heterogeneous group of loosely related bacteria. We have inferred the phylogenetic relatedness of 12 strains ofBdellovibrio through the analysis of partial 16S ribosomal RNA sequences. Similarity and degree of homology were assessed, and a phylogenetic tree was constructed by the distance matrix method. One branch of the two-branched tree consisted ofB. bacteriovorus and related strains (W, 6-5-S, 109, 109D, 109J, 114, HI Ox9-2, and HI Ox9-3). The other branch was itself branched, withB. starrii, B. stolpii, and marine strain BM4 in separate sub-branches. AllBdellovibrio strains in turn clustered with representatives of the delta division of theProteobacteria. The results indicate that there are at least two subdivisions of the genusBdellovibrio and that present-day bdellovibrios arose from a common ancestor. The placement of the genusBdellovibrio within the delta division of theProteobacteria was confirmed.     

Calcium-stimulated respiration and active calcium transport in the isolated chick chorioallantoic membrane

Summary Calcium markedly stimulates the respiration of the isolated chick chorioallantoic membrane. This stimulation of oxygen uptake appears to be closely associated with the membrane's active transcellular calcium transport mechanism. In the presence of 1mm Ca⁺⁺ the rate of uptake increases from 9.3±0.15 to 13.0±0.2 liters O₂/cm²/hr, an increase of about 40%. The calcium-stimulated respiration is specific for the ectodermal layer of cells, the known location of the calcium transport mechanism, and only occurs when the calcium transport mechanism is operative. Sr⁺⁺ and Mn⁺⁺ are transported by the tissue at a lower rate than Ca⁺⁺ and cause a smaller stimulation of oxygen consumption. Mg⁺⁺ and La³⁺ have no effect on tissue respiration. In the presence of Ca⁺⁺, the organic mercurialp-chloromercuribenzene sulfonate (PCMBS) inhibits calcium transport and specifically decreases the oxygen uptake of the ectoderm to a rate identical to that obtained in a calcium-free medium. Stripping the inner shell membrane away from the chorioallantoic membrane mimics these effects. The specificity and locus of action of these two inhibitors suggest that a vital component of the active transcellular calcium transport mechanism resides on or near the outer surface of the plasma membrane of the ectodermal cells and that sulfhydryl groups are important to the normal function of this component.     

Effect of magnesium and calcium ions on blocking of synaptic transmission by adenosine in isolated rat hippocampal slices

Dependence of the inhibitory action of adenosine on the extracellular composite EPSP on the concentrations of Mg and Ca cations in the medium was investigated in isolated slices of rat hippocampusin vitro. Extracellular EPSPs were derived in the region of apical dendrites of pyramidal cells in area CA₁ during stimulation of Schaffer's collaterals. The blocking action of bivalent cations (an increase in Mg⁺⁺ or a decrease in Ca⁺⁺) developed almost five times more slowly than the action of adenosine. An increase in the external Mg⁺⁺ concentration potentiated whereas a decrease weakened the inhibitory action of adenosine. Ca⁺⁺ ions had the opposite effect. Antagonistic relations were exhibited between Mg⁺⁺ and Ca⁺⁺ ions. Analysis of dose-response curves for adenosine showed that during a simultaneous increase in the extracellular Ca⁺⁺ and decrease in Mg⁺⁺ concentrations, not only was the maximal effect of adenosine reduced, but so also was its binding constant with the receptor. The results suggest that antagonism between Ca cations and adenosine is mixed in character — both competitive and noncompetitive. The possible mechanism of the inhibitory action of adenosine on synaptic transmission and the role of bivalent cations in this process are discussed.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 16, No. 4, pp. 532–539, July–August, 1984.