Uptake and degradation of EDTA by Escherichia coli

It was found that Escherichia coli exhibited a growth by utilization of Fe(III)EDTA as a sole nitrogen source. No significant growth was detected when Fe(III)EDTA was replaced by EDTA complexes with other metal ions such as Ca²⁺, Co²⁺, Cu²⁺, Mg²⁺, Mn²⁺, and Zn²⁺. When EDTA uptake was measured in the presence of various ions, it was remarkable only when Fe³⁺ was present. The cell extract of E. coli exhibited a significant degradation of EDTA only in the presence of Fe³⁺. It is likely that the capability of E. coli for the growth by utilization of Fe(III)EDTA results from the Fe³⁺-dependent uptake and degradation of EDTA.     

Ca2+和Sr2+诱导大肠埃希菌感受态细胞的形成及转化的影响

为研究金属离子诱导下感受态细胞形成的机理及揭示转化发生的机制,分别用Ca~(2+)和Sr~(2+)(0~140mmol/L)制备大肠埃希菌感受态细胞并转化。研究结果表明,不同浓度的Ca~(2+)和Sr~(2+)诱导的感受态细胞的效价不同,两种金属离子对大肠埃希菌细胞内外膜的通透性均有较大影响,但细胞内外膜的改变程度与转化率无直接关系;电镜结果显示,未处理的细胞呈簇聚集发生粘连现象,感受态细胞整体呈分散状态,局部发生聚集,而转化后的细胞独立存在,边缘异常清晰。     

Slow rise of Ca2+ and slow release of reactive oxygen species are two cross-talked events important in tumour necrosis factor-α-mediated apoptosis

Tumour necrosis factor-α(TNF-α) was found to be a cell cycle-independent apoptogenic cytokine in cultured fibroblast L929 cells. This assertion is based on the observations (1) TNF-α increased the number of cells with hypo-diploid DNA in a time dependent manner as revealed by flow cytometry, and (2) TNF-α induced DNA fragmentation as resolved by agarose gel electrophoresis. When cells were exposed to TNF-α (50ng/ml), a slow rise in intracellular free Ca²⁺ level and a delayed increase in the production of reactive oxygen species (ROS) (both observed 3h after the addition of TNF-α) were observed in fluo-3 and furared or dichlorofluorescein loaded cells, respectively. Interestingly, challenge of cells with TNF-α in the presence of BAPTA/AM, an intracellular Ca²⁺ chelator, decreased the release of ROS. Removal of ROS by 4-hydroxy 2,2,6,6-tetra-methyl-piperidinooxy (4OH-TEMPO) blocked the TNF-α-mediated Ca²⁺ rise. Moreover, when cells were exposed to TNF-α with both 4OH-TEMPO and BAPTA/AM, more viable cells were found than from treatment with either BAPTA/AM or 4OH-TEMPO. These results suggest that ROS and cellular Ca²⁺ are two cross-talk messengers important in TNF-α-mediated apoptosis.     

Effect of a chemical analogue of autoinducers of microbial anabiosis on the Ca<Superscript>2+</Superscript> response of mycelial fungi

The microbial alkylhydroxybenzenes (AHB), which are anabiosis autoinducers also termed d₁ factors, participate in the stress response of mycelial fungi, as determined from changes in intracellular Ca²⁺ concentration. By using the genetically modified strain Aspergillus awamori 66A, which produces the recombinant Ca²⁺-dependent protein aequorin, the dynamics of Ca²⁺ was studied in the cytosol of cells exposed to mechanical shock in the presence of protective doses (0.001–0.01% w/vol) of a chemical AHB analogue, 4-n-hexylresorcinol. As under stressful conditions, Ca²⁺ concentration increases in the cell cytosol in response to an enhanced AHB level in a growing fungal culture; thus, AHB is perceived by cells as a stress signal. The level of cell response, which was determined from the amplitude of luminescence dependent on the Ca²⁺ concentration in the cytosol, was related to the physiological age of the cells and the AHB concentration. Micromycete preincubation with AHB was found to protect cells from subsequent stress; this was reflected in the Ca²⁺ response. The protective AHB effect was manifested as (1) a significant decrease in the amplitude of luminescence and, thus, in Ca²⁺ accumulation in the cytosol during subsequent mechanical stress (as compared to the control—mechanical stress only); (2) development of a secondary Ca²⁺ response, which was not observed in the control; and (3) a high level of Ca²⁺ retained in the cytosol for a long time in the presence of AHB (as compared to the control without preincubation with AHB). The mechanisms underlying the AHB effect on Ca²⁺ transport systems are discussed.Translated from Mikrobiologiya, Vol. 73, No. 6, 2004, pp. 741–750.Original Russian Text Copyright © 2004 by Kozlova, Kupriyanova-Ashina, Egorov, El-Registan.     

Role of Ca2+ in the activity of rhicadhesin from Rhizobium leguminosarum biovar viciae,which mediates the first step in attachment of Rhizobiaceae cells to plant root hair tips

The first step in attachment of Rhizobiaceae cells to plant root hair tips is mediated by a Ca²⁺-dependent, Ca²⁺-binding protein, rhicadhesin. The possible role of Ca²⁺ in synthesis, anchoring and activity of rhicadhesin was investigated. Growth of Rhizobium leguminosarum biovar viciae cells under Ca²⁺-limitation was found to result in loss of attachment ability. Under these conditions, rhicadhesin could not be usolated from the bacterial cell surface, but was found to be excreted in the growth medium. Divalent ions appeared to be essential for the ability of purified rhicadhesin to inhibit attachment of R. leguminosarum biovar viciae cells to pea root hair tips. Calcium ions were found not to be involved in binding of rhicadhesin to the plant surface, but appeared to be involved in anchoring of the adhesin to the bacterial cell surface. A model for the role of Ca²⁺ in activity of rhicadhesin is presented.     

Ca2+ and the interaction of pore-formers with membranes

The interaction of pore-forming agents, such as Sendai virus, influenza virus (at pH 5 3), activated complement,Staphylococcus aureus α-toxin, melittin and polylysine, with the surface membrane of cells has been studied. In each case the following changes are initiated: collapse of membrane potential, leakage of ions, and leakage of phosphorylated metabolites. The changes can be inihibited by extracellular Ca²⁺ at physiological concentration; Mg²⁺ is less effective, and Zn²⁺ is more effective, than Ca²⁺ Ca²⁺ appears to act at a stage subsequent to the binding of pore-forming agent to cells. It is concluded that divalent cations are able to protect cells against the damaging effects of certain viruses, toxins or the components of activated complement in a manner that is worthy of further investigation.     

Characterization of the 1,25-dihydroxycholecalciferol-stimulated calcium influx pathway in CaCo-2 cells

The present studies were conducted to investigate the mechanisms underlying the 1,25-dihydroxycholecalciferol (1,25(OH)₂D₃)-induced increase in intracellular Ca²⁺ ([Ca²⁺] _i ) in individual CaCo-2 cells. In the presence of 2mm Ca²⁺, 1,25(OH)₂D₃-induced a rapid transient rise in [Ca²⁺] _i in Fura-2-loaded cells in a concentration-dependent manner, which decreased, but did not return to baseline levels. In Ca²⁺-free buffer, this hormone still induced a transient rise in [Ca²⁺] _i , although of lower magnitude, but [Ca²⁺] _i then subsequently fell to baseline. In addition, 1,25(OH)₂D₃ also rapidly induced⁴⁵Ca uptake by these cells, indicating that the sustained rise in [Ca²⁺] _i was due to Ca²⁺ entry. In Mn²⁺-containing solutions, 1,25(OH)₂D₃ increased the rate of Mn²⁺ influx which was temporally preceded by an increase in [Ca²⁺] _i . The sustained rise in [Ca²⁺] _i was inhibited in the presence of external La³⁺ (0.5mm). 1,25(OH)₂D₃ did not increase Ba²⁺ entry into the cells. Moreover, neither high external K⁺ (75mm), nor the addition of Bay K 8644 (1 μm), an L-type, voltage-dependent Ca²⁺ channel agonist, alone or in combination, were found to increase [Ca²⁺] _i , 1,25(OH)₂D₃ did, however, increase intracellular Na⁺ in the absence, but not in the presence of 2mm Ca²⁺, as assessed by the sodium-sensitive dye, sodium-binding benzofuran isophthalate. These data, therefore, indicate that CaCo-2 cells do not express L-type, voltage-dependent Ca²⁺ channels. 1,25(OH)₂D₃ does appear to activate a La³⁺-inhibitable, cation influx pathway in CaCo-2 cells.     

Spatial and temporal patterns of intracellular calcium in colonic smooth muscle

Summary Intracellular calcium [Ca²⁺] _i measurements in cell suspension of gastrointestinal myocytes have suggested a single [Ca²⁺] _i transient followed by a steady-state increase as the characteristic [Ca²⁺] _i response of these cells. In the present study, we used digital video imaging techniques in freshly dispersed myocytes from the rabbit colon, to characterize the spatiotemporal pattern of the [Ca²⁺] _i signal in single cells. The distribution of [Ca²⁺] _i in resting and stimulated cells was nonhomogeneous, with gradients of high [Ca²⁺] _i present in the subplasmalemmal space and in one cell pole. [Ca²⁺] _i gradients within these regions were not constant but showed temporal changes in the form of [Ca²⁺] _i oscillations and spatial changes in the form of [Ca²⁺] _i waves. [Ca²⁺] _i oscillations in unstimulated cells (n = 60) were independent of extracellular [Ca²⁺] and had a mean frequency of 12.6 +1.1 oscillations per min. The baseline [Ca²⁺], was 171 ± 13 nm and the mean oscillation amplitude was 194 ± 12 nm. Generation of [Ca²⁺] _i waves was also independent of influx of extracellular Ca²⁺. [Ca²⁺] _i waves originated in one cell pole and were visualized as propagation mostly along the subplasmalemmal space or occasionally throughout the cytoplasm. The mean velocity was 23 +3 m per sec (n = 6). Increases of [Ca²⁺] _i induced by different agonists were encoded into changes of baseline [Ca²⁺] _i and the amplitude of oscillations, but not into their frequency. The observed spatiotemporal pattern of [Ca²⁺] _i regulation may be the underlying mechanism for slow wave generation and propagation in this tissue. These findings are consistent with a [Ca²⁺] _i regulation whereby cell regulators modulate the spatiotemporal pattern of intracellularly generated [Ca²⁺] _i oscillations.The authors thank Debbie Anderson for excellent technical assistance with the electron microscopy and Dr. M. Regoli for providing the NK-1 agonist [Sar⁹,Met(O₂)¹¹]-SP. This work was supported by National Institutes of Health Grants DK 40919 and DK 40675 and Veterans Administration Grant SMI.     

Gonadotropin releasing hormone stimulation of pituitary cell 3′–5′ cyclic AMP in a carp(Cyprinus carpio) is dependent on extracellular calcium

Pituitaries were collected from a common carp,yprinss carpi, belonging to vitellogenic phase and cells were disaggregated by using 0.3% collagenase and 0.05% tsypsin. Enzymatically dispersed cells were incubatedin vitro in Ca²⁺-free medium to observe the effect ofCanna punctatus GnRH (cGnRH) and Ca²⁺ on pituitary cell cAMP accumulation. Addition of cGnRH (20 Big) to pituitary cell incubation (6 × 10⁴ cells/well) containing 4 mM theophylline, a phosphodiesterase inhibitor, caused two-fold increase of cAMP accumulation in comparison to control, Addition of Ca²⁺ (2 mM) to cGnRH further augmented cAMP accumulation, i.e., four-fold as compared to control. Increasing concentrations of cGnRH in the presence of Ca²⁺ resulted in a dose-dependent increase in cAMP accumulation. To examine the specificity of Ca²⁺ augmentory effect on cGnRH-stimulated pituitary cell cAMP accumulation, a specific Ca²⁺-channel blocker, verapamil was used, At 3 μM dose verapamil completely waived Ca²⁺-augmentation of cGnRH stimulatory effect on cAMP. Interestingly, verapamil also significantly inhibited cGnRH stimulation of cAMP in the Ca²⁺-free medium. Extent of Ca²⁺ plus cGnRH stimulatory effect on cAMP was further increased by the addition of 25 pmol of calmodulin, a Ca²⁺-carrier protein, Addition of verapamil to this system strongly inhibited Ca²⁺ and ealmodulin augnientory effect on cGnRH. Reduced level of cAMP in the pituitary cell due to verapamil was even lower than that of cGnRH plus ealmodulin incubation. Data indicates a contamination of Ca²⁺ in an apparently Ca²⁺-free medium, Results suggest that in lower vertebrate, i.e., fish, GnRH stimulation of pituitary cell cAMP is dependent on extracellulnr Ca²⁺ and incubation of pituitary cell in Ca²⁺-free medium is truly not free of Ca²⁺.     

Electrostatic binding of substituted metal phthalocyanines to enterobacterial cells: Its role in photodynamic inactivation

The effect of ionic substituents in zinc and aluminum phthalocyanine molecules and of membrane surface charge on the interaction of dyes with artificial membranes and enterobacterial cells, as well as on photosensitization efficiency was studied. It has been shown that increasing the number of positively charged substituents enhances the extent of phthalocyanine binding to Escherichia coli cells. This, along with the high quantum yield of singlet oxygen generation, determines efficient photodynamic inactivation of Gram-negative bacteria by zinc and aluminum octacationic phthalocyanines. The effect of Ca²⁺ and Mg²⁺ cations and pH on photodynamic inactivation of enterobacteria in the presence of octacationic zinc phthalocyanine has been studied. It has been shown that effects resulting in lowering negative charge on outer membrane protect bacteria against photoinactivation, which confirms the crucial role in this process of the electrostatic interaction of the photosensitizer with the cell wall. Electrostatic nature of binding is consistent with mainly electrostatic character of dye interactions with artificial membranes of different composition. Lower sensitivity of Proteus mirabilis to photodynamic inactivation, compared to that of E. coli and Salmonella enteritidis, due to low affinity of the cationic dye to the cells of this species, was found.     

Properties of the apamin-sensitive component of Ca2+-dependent K+ current in smooth muscle cells of the guinea pigtaenia coli

With the help of a standard voltage-clamp technique, we investigated transmembrane ion currents in isolated smooth muscle cells of the guinea pigtaenia coli. In Ca²⁺-dependent K⁺ current, we identified and studied the properties of an apamin-sensitive voltage-independent component carried through the channels of low conductance (in many publications called small conductance,I _SK(Ca)). This component did not show the temporal inactivation;I _SK(Ca) was insensitive to the action of 4 mM tetraethylammonium, but was completely blocked by 500 nM of apamin. It was shown thatI _SK(Ca) is very sensitive to changes in the intracellular Ca²⁺ concentration ([Ca²⁺] _i ): a decrease in [Ca²⁺] _i up to 50 nM resulted in the almost complete blockade of the current. The entry of Ca ions into a cell from the external solution through the voltage-operated Ca²⁺ channels of L-type was not an obligatory condition for activation ofI _SK(Ca). The current-voltage relationship forI _SK(Ca) had a maximum within the voltage range of +20 to +50 mV. Neirofiziologiya/Neurophysiology, Vol. 32, No. 2, pp. 87–94, March–April, 2000.     

Study on the toxic effect of lead(II) ion on <Emphasis Type="Italic">Escherichia coli</Emphasis>

The toxic effects of lead(II) have been studied in Escherichia coli cells. Using microcalorimetric analysis, it was shown that E. coli growth was inhibited in the presence of Pb²⁺ resulting from damage to the cell membrane and that Pb²⁺ takes part in the metabolism of cells. Treatment with lysozyme confirms damage to the cell’s outer membrane. Similarities between the ionic radii and charge/radius ratio cause Pb(II) to replace Ca(II) at the binding sites of lipopolysacharides, leading to rupture of protecting areas on the cell’s surface. Consequently, the protection and functionality of outer membrane is lost, thus becoming the basis for the biological effect of Pb²⁺ on E. coli.     

Polymorphic behavior of gram-negative bacteria membranes

Summary Freeze-fracture and ultrathin section electron microscopy as well as³¹P-NMR spectroscopy and light scattering ofEscherichia coli andPseudomonas putida cells under conditions promoting the ability of cells to take up exogenous DNA's (high concentrations of divalent cations and a specific temperature regime) reveal the extensive polymorphic changes and the formation of various structural defects in cellular membranes. Polymorphic changes occur during the heat shock at 42 to 44°C of the cells preincubated at 0°C in the presence of high concentration of Ca²⁺ or Ba²⁺ cations and include the formation of various vesicle- and tube-like structures, intermembrane and intercellular contacts followed by membrane fusion and sometimes even by cell fusion. The results obtained suggest the occurrence of phospholipid-enriched zones in the outer leaflet ofE. coli outer membrane. This suggestion is verified and confirmed with the help of phospholipase C, a specific phospholipid binding and digesting enzyme. The presented experimental evidence directly supports the suggestion of Ahkong et al. (Nature 253:194–195, 1975) on the identity of the mechanisms of membrane contact formation and membrane fusion in model and cellular membranes. The biological relevance of the polymorphic changes observed is shortly discussed.     

Cytoplasmic free calcium in Riccia fluitans L. and Zea mays L.: Interaction of Ca2+ and pH?

In cells of Zea mays (root hairs, coleoptiles) and Riccia fluitans (rhizoids, thalli) intracellular Ca²⁺ and pH have been measured with double-barrelled microelectrodes. Free Ca²⁺ activities of 109–187 nM (Riccia rhizoids), 94–160 nM (Riccia thalli), 145–231 nM (Zea root hairs), 84–143 nM (Zea coleoptiles) were found, and therefore identified as cytoplasmic. In a few cases (Riccia rhizoids), free Ca²⁺ was in the lower millimolar range (2.3±0.8 mM). A change in external Ca²⁺ from 0.1 to 10 mM caused an initial and short transient increase in cytoplasmic free Ca²⁺ which finally levelled off at about 0.2 pCa unit below the control, whereas in the presence of cyanide the Ca²⁺ activity returned to the control level. It is suggested that this behaviour is indicative of active cellular Ca²⁺ regulation, and since it is energy-dependent, may involve a Ca²⁺-ATPase. Acidification of the cytoplasmic pH and alkalinization of the vacuolar pH lead to a simultaneous increase in cytoplasmic free Ca²⁺, while alkalinization of pH_c decreased the Ca²⁺ activity. Since this is true for such remote organisms as Riccia and Zea, it may be concluded that regulation of cytoplasmic pH and free Ca²⁺ are interrelated. It is further concluded that double-barrelled microelectrodes are useful tools for investigations of intracellular ion activities in plant cells.Symbols and abbreviations _m, _m membrane potential difference, changes thereof - PVC polyvinylchloride     

Dependence of the resting [Ca2+]cyt of RBL-1 cells on Ca2+ entry

The cytoplasmic Ca²⁺ concentration ([Ca²⁺]_cyt) in resting cells in an equilibrium between several influx and efflux mechanisms. Here we address the question of whether capacitative Ca²⁺ entry to some extent is active at resting conditions and therefore is part of processes that guarantee a constant [Ca²⁺]_cyt. We measured changes of [Ca²⁺]_cyt in RBL-1 cells with fluorometric techniques. An increase of the extracellular [Ca²⁺] from 1.3 mM to 5 mM induced an incrase in [Ca²⁺]_cyt from 105±10 nM to 145±8.5 nM. This increase could be inhibited by 10 μM Gd³⁺, 10 μM La³⁺ or 50 μM 2-aminoethoxydiphenyl borate, blockers of capacitative Ca²⁺ entry. Application of those blockers to a resting cell in a standard extracellular solution (1.3 mM Ca²⁺) resulted in a decrease of [Ca²⁺]_cyt from 105±10 nM to 88.5±10 nM with La³⁺, from 103±12 to 89±12 nM with Gd³⁺ and from 102±12 nM to 89.5±5 nM with 2-aminoethoxydiphenyl borate. From these data, we conclude that capacitative Ca²⁺ entry beside its function in Ca²⁺ signaling contributes to the regulation of resting [Ca²⁺]_cyt.     

Mitochondrial permeability transition in Ca(2+)-dependent apoptosis and necrosis

A variety of stimuli utilize an increase of cytosolic free Ca²⁺ concentration as a second messenger to transmit signals, through Ca²⁺ release from the endoplasmic reticulum or opening of plasma membrane Ca²⁺ channels. Mitochondria contribute to the tight spatiotemporal control of this process by accumulating Ca²⁺, thus shaping the return of cytosolic Ca²⁺ to resting levels. The rise of mitochondrial matrix free Ca²⁺ concentration stimulates oxidative metabolism; yet, in the presence of a variety of sensitizing factors of pathophysiological relevance, the matrix Ca²⁺ increase can also lead to opening of the permeability transition pore (PTP), a high conductance inner membrane channel. While transient openings may serve the purpose of providing a fast Ca²⁺ release mechanism, persistent PTP opening is followed by deregulated release of matrix Ca²⁺, termination of oxidative phosphorylation, matrix swelling with inner membrane unfolding and eventually outer membrane rupture with release of apoptogenic proteins and cell death. Thus, a rise in mitochondrial Ca²⁺ can convey both apoptotic and necrotic death signals by inducing opening of the PTP. Understanding the signalling networks that govern changes in mitochondrial free Ca²⁺ concentration, their interplay with Ca²⁺ signalling in other subcellular compartments, and regulation of PTP has important implications in the fine comprehension of the main biological routines of the cell and in disease pathogenesis.     

Properties of the charibdotoxin-sensitive component of Ca2+-dependent K+ current in smooth muscle cells of the guinea pigTaenia Coli

Using the voltage-clamp technique, we investigated transmembrane ion currents in isolated smooth muscle cells of the guinea pigtaenia coli. In our study, we identified and studied a charibdotoxin-sensitive component of Ca²⁺-dependent K⁺ current carried through the channels of high conductance (in most publications called “big conductance,”I _BK(Ca)). This component was completely blocked by 100 nM charibdotoxin and by tetraethylammonium in concentrations as low as 1 mM.I _BK(Ca) demonstrated fast kinetics of inactivation, which nearly coincided with that of Ca²⁺ current. In addition to the dependence on Ca²⁺ concentration, this current also showed voltage-dependent properties: with a rise in the level of depolarization its amplitude increased. In many cells, depolarizing shifts in the membrane potential evoke spontaneous outward currents. Such currents probably represent the secondary effect of cyclic Ca²⁺ release from the caffeine-sensitive intracellular stores that result in short-term activation of charibdotoxin-sensitive Ca²⁺-dependent K⁺ channels.     

Role of calcium in the modulation of Vicia guard cell potassium channels by abscisic acid: A patch-clamp study

There is evidence for a role of increased cytoplasmic Ca²⁺ in the stomatal closure induced by abscisic acid (ABA), but two points of controversy remain the subject of vigorous debate—the universality of Ca²⁺ as a component of the signaling chain, and the source of the increased Ca²⁺, whether influx across the plasmalemma, or release from internal stores. We have addressed these questions by patch-clamp studies on guard cell protoplasts of Vicia faba, assessing the effects of ABA in the presence and absence of external Ca²⁺, and of internal Ca²⁺ buffers to control levels of cytoplasmic Ca²⁺. We show that ABA-induced reduction of the K⁺ inward rectifier can occur in the absence of external Ca²⁺, but is abolished when Ca²⁺ buffers are present inside the cell. Thus, some minimum level of cytoplasmic Ca²⁺ is a necessary component of the signaling chain by which ABA decreases the K⁺ inward rectifier in stomatal guard cells, thus preventing stomatal opening. Release of Ca²⁺ from internal stores is capable of mediating the response, in the absence of any Ca²⁺ influx from the extracellular medium. The work also shows that enhancement of the K⁺ outward rectifier by ABA is Ca²⁺ independent, and that other signaling mechanisms must be involved. A role for internal pH, as suggested by H.R. Irving, C.A. Gehring and R.W. Parish (Proc. Natl. Acad. Sci. USA 89:1790–1794, 1990) and M.R. Blatt (J. Gen. Physiol. 99:615–644, 1992), is an attractive working hypothesis.     

The effect of exogenous Ca2+ ions on pollen grain germination and pollen tube growth

Summary The involvement of exogenous calcium ions in the regulation of pollen tube formation has been investigated in Haemanthus albiflos L. and Oenothera biennis L. by following the changes that occur in pollen germination, tube growth, and ⁴⁵⁺Ca²⁺ uptake and distribution upon application of Verapamil (an inhibitor of calcium channels), lanthanum (a Ca²⁺ substitute), and ruthenium red (believed to raise the intracellular calcium level). It was found that exogenous Ca²⁺ takes part in the formation of the calcium gradient present in germinating pollen grains and growing pollen tubes. Ca²⁺ ions enter the cells through calcium channels. Raising or reducing ⁴⁵Ca²⁺ uptake causes disturbances in the germination of the pollen grains and in the growth of the pollen tubes.