The absorption of calcium ions from the ovine reticulo-rumen

Net Ca²⁺ and Mg²⁺ absorption rates were measured in vivo from buffer solutions placed in the washed reticulo-rumen, isolated in situ in 30 conscious, trained sheep. An increase in concentration of short chain fatty acids (SCFA) in the buffer, over the range 0–50 mM, was shown to stimulate the net rates of absorption of Ca²⁺ and Mg²⁺ ions from the rumen. Similarly, the results of in vitro experiments, carried out with ovine rumen epithelium mounted in short-circuited Ussing chambers, showed that the absence of SCFA from the chamber fluid resulted in a reduction in J_net Ca²⁺ caused by reduced flux of Ca²⁺ ions in the mucosal to serosal direction (J_ms Ca²⁺). The addition of 1 mM acetazolamide, an inhibitor of carbonic anhydrase, to the ruminal buffer used in the in vivo experiments led to significant reductions in the net absorption rates of Ca²⁺and Mg²⁺ ions in the presence of SCFA (50 mmol l⁻¹) but not in the absence of SCFA. However, in the in vitro experiments, the addition of 60 μM ethoxyzolamide had no significant effect on J_net Ca²⁺. A reduction in pH of the intraruminal buffer in vivo from 6.8 to 5.4 led to significant increases in the net absorption rates of Ca²⁺and Mg²⁺ ions, an effect which was duplicated for Ca²⁺ in preliminary in vitro experiments in which the pH of the mucosal buffer was reduced from 7.4 to 5.4. This stimulatory effect was confined to J_ms Ca²⁺ and J_net Ca²⁺. Ussing chambers were also used to demonstrate that J_net Ca²⁺ was reduced by a high transmural potential difference (PD), caused by voltage clamping, independently of the mucosal K⁺ concentration. Both unidirectional Ca²⁺ fluxes consisted of a PD-dependent and a K⁺-insensitive PD-independent component. The latter may be represented by a Ca²⁺/2H⁺ antiporter. It is postulated that SCFA, and to a lesser extent H₂CO₃, can stimulate J_ms Ca²⁺ by activation of an apical Ca²⁺/2H⁺ antiporter through the provision of protons within the ruminal epithelial cell. A mild reduction in ruminal pH may also lead to a similar stimulation of this putative electroneutral exchange. Accepted: 26 July 2000     

Characteristics of non-specific permeability and H+-ATPase inhibition induced in the plasma membrane of Nitella flexilis by excessive Cu2+

Effects of Cu²⁺ on a non-specific conductance and H⁺-ATPase activity in the plasma membrane of the freshwater alga Nitella flexilis L. Agardh was studied using a conventional microelectrode voltage-clamp technique. We show that a Cu²⁺-induced increase in the non-specific conductance is related to the formation of pores in the plasma membrane. Pore formation is the result of unidentified chemical reactions, since the Q₁₀ for the rate of increase of conductance over time was about 3. Various oxidants and antioxidants (10 mmol/l H₂O₂, 10 mmol/l ascorbate, 100 μg/ml superoxide dismutase, and 100 μg/ml catalase) did not alter Cu²⁺-induced changes in the plasma membrane conductance, suggesting that the effect of Cu²⁺ was unrelated to peroxidation of plasma-membrane lipids. In contrast, organic and inorganic Ca²⁺-channel antagonists (nifedipine, Zn²⁺, Cd²⁺, Fe²⁺, Ni²⁺) inhibited the Cu²⁺-induced non-specific conductance increase. This suggests that changes in Ca²⁺ influx underlie this effect of Cu²⁺. Decreasing the pH or the ionic strength of external solutions also inhibited the Cu²⁺-induced plasma-membrane conductance increase. Copper was also found to inhibit plasma-membrane H⁺-ATPase activity with half-maximal inhibition occurring at about 5–20 μmol/l and full inhibition at about 100–300 μmol/l. The Hill coefficient of Cu²⁺ inhibition of the H⁺-ATPase was close to two. Received: 8 December 1999 / Accepted: 16 August 2000     

Factors controlling the intracellular concentration of calcium and the spontaneous activity of the ureter

The role of the electrogenic Na(+)-Ca(2+)-exchange mechanism in regulating the spike activity of the ureter was studied. The ureter cells were shown to be capable of generating action potentials (AP) in sodium-free Krebs solution. The time during which the spikes are generated is in exponential dependence on the concentration of calcium ions in the medium, [Ca2+]o within 2.5 to 15 mmol/l. Simultaneously with the generation of the spikes, accumulation of calcium in the muscles is observed, proportional to the increase of [Ca2+]o. The addition of as little as 20 mmol/l Na+ or Li+ ions into the solution restores the prolonged electrical activity of the ureter. Under these conditions, the decrease of intracellular Ca2+ within 5 min was more than two times larger as compared with that in sodium-free medium. Upon substituting Ba2+ ions for Ca2+ ions in Krebs solution AP are generated within an interval which was the longer the higher the Ba2+ concentration in the medium. Li+ ions can replace Na+ ions in maintaining AP and in extruding calcium from the cell. It is supposed that the generation of the stable spike activity of the ureter depends on the functioning of Na(+)-Ca(2+)-exchange mechanism.     

Influence of the Selected Antioxidants on the Stability of the Celsior Solution Used for Perfusion and Organ Preservation Purposes

The purpose of the following research was to improve the original Celsior solution in order to obtain a higher degree of stability and effectiveness. The solution was modified by the addition of selected antioxidants such as vitamin C, cysteine, and fumaric acid in the following concentrations: 0.1, 0.3, and 0.5 mmol/l. The solution’s stability was estimated using an accelerated stability test based on changes in histidine concentrations in the solution using Pauly’s method for determining concentrations. Elevated temperatures, the factor accelerating substances’ decomposition reaction rate, were used in the tests. The research was conducted at four temperatures at intervals of 10°C: 60 ± 0.2°C, 70 ± 0.2°C, 80 ± 0.2°C, and 90 ± 0.2°C. It was stated that the studied substances’ decomposition occurred in accordance with the equation for first-order reactions. The function of the logarithmic concentration (log%C) over time was revealed to be rectilinear. This dependence was used to determine the kinetics of decomposition reaction rate parameters (the rate constant of decomposition k, activation energy E _a, and frequency factor A). On the basis of these parameters, the stability of the modified solution was estimated at +5°C. The results obtained show that the proposed antioxidants have a significant effect on lengthening the Celsior solution’s stability. The best results were reached when combining two antioxidants: vitamin C and cysteine in 0.5 mmol/l concentrations. As a result, the Celsior solution’s stability was lengthened from 22 to 299 days, which is 13.5 times. Vitamin C at a concentration of 0.5 mmol/l increased the solution’s stability by 5.2 times (t ₉₀ = 115 days), cysteine at a concentration of 0.5 mmol/l caused a 4.4 times stability increase (t ₉₀ = 96 days), and fumaric acid at a concentration of 0.5 mmol/l extended the stability by 2.1 times (t ₉₀ = 48 days) in relation to the original solution.     

Renal function in red wattlebirds in response to varying fluid intake

Red wattlebirds (Anthochaera carunculata) are among the more nectarivorous of the Australian honeyeaters (family Meliphagidae). As such, they potentially ingest large and dilute fluid loads as food, and they produce copious dilute urine in the field. We examined in the laboratory the renal mechanisms by which such fluid loads are processed. Wattlebirds received one of three liquid diets [a mix of honey, water, and Complan (Boots) complete dietary supplement] of varying concentration (250, 1000, and 1750 mmol/kg, Na⁺/K⁺ concentrations of 4/4, 12/15, and 23/30 mmol/l, respectively). We measured renal function via infusion of a filtration marker (¹⁴C-polyethylene glycol) from osmotic minipumps implanted intraperitoneally. Wattlebirds consumed volumes of the three diets sufficient to provide nearly equal caloric intakes (approximately 200 kJ/day), and as a consequence had water turnover rates varying from 30 to 200 ml/day (approximately 50–335% of total body water per day). Renal function in the morning, before feeding, did not differ among diet groups (glomerular filtration rate =18 ml/h, urine flow rate =0.4 ml/h). In the afternoon, after feeding, urine flow did vary, from 3 ml/h in birds on the most concentrated diet to 6 ml/h on the most dilute. This was accomplished by varying the rate of tubular reabsorption of water (from a high of >90% on the most concentrated diet to a low of just over 70% on the most dilute), with little variation in the rate of glomerular filtration (mean ∼23 ml/h). Comparisons between dietary intakes and urinary outputs of water and electrolytes suggest that not all dietary water was absorbed from the gut, but that there was significant post-renal reabsorption of Na⁺. The reduced fractional water reabsorption on the dilute diet was accompanied by a decrease in the circulating concentration of arginine vasotocin (from >4 pg/ml in birds on the two more concentrated diets to <1 pg/ml on the most dilute diet). In contrast, concentrations of aldosterone (10–20 pg/ml) did not differ among diets. Perhaps in consequence, renal fractional absorption of Na⁺ also did not differ, and so birds on the dilute diet, with their higher urine flows, had higher rates of Na⁺ excretion and suffered a decreased concentration of Na⁺ in the plasma. Accepted: 14 January 1988     

Ca2+-induced permeabilization of the Escherichia coli outer membrane: comparison of transformation and reconstitution of binding-protein-dependent transport.

Ca2+ treatment renders the outer membrane of Escherichia coli reversibly permeable for macromolecules. We investigated whether Ca2+-induced uptake of exogenous protein into the periplasm occurs by mechanisms similar to Ca2+-induced uptake of DNA into the cytoplasm during transformation. Protein import through the outer membrane was monitored by measuring reconstitution of maltose transport after the addition of shock fluid containing maltose-binding protein. DNA import through the outer and inner membrane was measured by determining the efficiency of transformation with plasmid DNA. Both processes were stimulated by increasing Ca2+ concentrations up to 400 mM. Plasmolysis was essential for a high efficiency; reconstitution and transformation could be stimulated 5- and 40-fold, respectively, by a high concentration of sucrose (400 mM) in cells incubated with a suboptimal Ca2+ concentration (50 mM). The same divalent cations that promote import of DNA (Ca2+, Ba2+, Sr2+, Mg2+, and Ni2+) also induced import of protein. Ca2+ alone was found to be inefficient in promoting reconstitution; successive treatment with phosphate and Ca2+ ions was essential. Transformation also was observed in the absence of phosphate, but could be stimulated by pretreatment with phosphate. The optimal phosphate concentrations were 100 mM and 1 to 10 mM for reconstitution and transformation, respectively. Heat shock, in which the cells are rapidly transferred from 0 to 42 degrees C, affected the two processes differently. Incubation of cells at 0 degrees C in Ca2+ alone allows rapid entry of protein, but not of DNA. Transformation was observed only when exogenous DNA was still present during the heat shock. Shock fluid containing maltose-binding protein inhibited transformation (with 6 microgram of DNA per ml, half-maximal inhibition occurred at around 300 microgram of shock fluid per ml). DNA inhibited reconstitution (with 5 microgram of shock fluid per ml, half-maximal inhibition occurred at around 3 mg of DNA per ml).     

Calcium in the toad (Bufo marinus) cornea: binding by the stroma

1. The Ca concentration in the toad (Bufo marinus) cornea was 2.6 mmol/kg wet wt compared at 1.0 mmol/l in the bathing aqueous humor and 2.8 mmol/kg wet wt in the separated corneal stromal layer. Cell Ca content was calculated to be about 1.8 mmol/kg wet wt. 2. About 80% of the total Ca appears to be sequestered or bound to tissue components most of which (68% of the total) is associated with the stroma (2.2 mmol/kg wet wt stroma). 3. About 85-90% of the Ca in the stroma is readily exchangeable with external 45Ca. 4. The loss of accumulated 45Ca from the stroma was measured in vitro. This efflux of the isotope was enhanced by multivalent ions and was greatest when Ca2+ or La3+ was present in the external media. Other alkaline earth metal ions were not as effective. The relative effectiveness of this displacement of 45Ca was Ca = La greater than Sr greater than Ba greater than Mg. 5. The results suggest that the Ca2+ is bound by the amphibian stroma at sites that have a preference or specificity for this divalent ion as compared to the other alkaline earth metals. 6. The possible functional role of this bound Ca is discussed.     

Bioenergetic Investigation of the Effects of La(III) and Ca(II) on the Metabolic Activity of Tetrahymena thermophila BF5

The heat flux of Tetrahymena thermophila BF5 during growth and the effects of La³⁺ and Ca²⁺ on them were investigated with microcalorimetry; simultaneously, morphological changes of T. thermophila were obtained by light microscope. La³⁺ in low concentration (0–5.0 × 10^–4 mol/l) remarkably stimulated T. thermophila metabolism, but high dose of La³⁺ (5.8–8.6 × 10^–4 mol/l) restrained it in a linear manner with IC₅₀ being 7.2 × 10^–4 mol/l. In contrast, low concentration of Ca²⁺ did not manifest obvious stimulation on T. thermophila metabolism; moreover, the IC₅₀ of Ca²⁺ was much higher than that of La³⁺. Low concentration of La³⁺ did not lead to changes in appearance of T. thermophila, but low dose of Ca²⁺ clearly promoted the cell proliferation. In addition, the morphological changes of T. thermophila evoked by high concentrations of La³⁺ and Ca²⁺ were consistent with relevant microcalorimetric results. It is concluded that La and Ca influence T. thermophila via different pathways, and La represents toxic action rather than Ca analogy.     

Zinc biosorption by a zinc-resistant bacterium, Brevibacterium sp. strain HZM-1

A zinc-resistant bacterium, Brevibacterium sp. strain HZM-1 which shows a high Zn²⁺-adsorbing capacity, was isolated from the soil of an abandoned zinc mine. Kinetic analyses showed that Zn²⁺ binding to HZM-1 cells follows Langmuir isotherm kinetics with a maximum metal capacity of 0.64 mmol/g dry cells and an apparent metal dissociation constant of 0.34 mM. The observed metal-binding capacity was one of the highest values among those reported for known microbial Zn²⁺ biosorbents. The cells could also adsorb heavy metal ions such as Cu²⁺. HZM-1 cells could remove relatively low levels of the Zn²⁺ ion (0.1 mM), even in the presence of large excess amounts (total concentration, 10 mM) of alkali and alkali earth metal ions. Bound Zn²⁺ ions could be efficiently desorbed by treating the cells with 10 mM HCl or 10 mM EDTA, and the Zn²⁺-adsorbing capacity of the cells was fully restored by treatment of the desorbed cells with 0.1 M NaOH. Thus, HZM-1 cells can serve as an excellent biosorbent for removal of Zn²⁺ from natural environments. The cells could grow in the presence of significant concentrations of ZnCl₂ (at least up to 15 mM) and thus is potentially applicable to in situ bioremediation of Zn²⁺-contaminated aqueous systems. Received: 1 February 2000 / Received revision: 31 March 2000 / Accepted: 1 May 2000     

Nitrate and phosphate ion removal from water by Phormidium laminosum immobilized on hollow fibres in a photobioreactor

Removal of nitrate and phosphate ions from water, by using the thermophilic cyanobacterium Phormidium laminosum, immobilized on cellulose hollow fibres in the tubular photobioreactor at 43 °C, was studied by continuously supplying dilute growth medium for 7 days and then secondarily treated sewage (STS) for 12 days. The concentrations of NO⁻ ₃ and PO³⁻ ₄ in the effluent from the dilute growth medium decreased from 5.0 mg N/l to 3.1 mg N/l, and from 0.75 mg P/l to 0.05 mg P/l respectively, after a residence time of 12 h. The concentrations of NO⁻ ₃ and PO³⁻ ₄ in the effluent from STS decreased from 11.7 mg N/l to 2.0 mg N/l, and from 6.62 mg P/l to 0.02 mg P/l respectively, after a residence time of 48 h. The removal rates of nitrogenous␣and phosphate ions from STS were 0.24 and 0.11 mmol day⁻¹ l reactor⁻¹ respectively, under the same conditions. Although, among nitrogenous ions, nitrate and ammonium ions were efficiently removed by P.␣laminosum, the nitrite ion was released into the effluent when STS was used as influent. Treatment of water with thermophilic P. laminosum immobilized on hollow fibres thus appears to be an appropriate means for the removal of inorganic nitrogen and phosphorus from treated wastewater. Received: 15 August 1997 / Received last revision: 18 November 1997 / Accepted: 29 November 1997     

Intracellular site of Sr2+ and Ba2+ accumulation in frog twitch muscle fibres as determined by electron probe X-ray microanalysis

Strontium and barium can substitute for calcium at different levels of the excitation-contraction-relaxation cycle. The problem of sequestration of these ions in cellular microcompartments may be settled only by direct evidence obtained with analytical methods. Isolated frog twitch muscle fibres were perfused with increasing concentrations of potassium in Ca-free solution supplemented with Sr2+ (10 mmol/l) or Ba2+ (5 mmol/l). After equilibration in a Ca-free Ringer with Sr2+ or Ba2+ for 30 to 60 min the fibres were frozen in liquid propane (at 80 K) to immobilise ions. Ultrathin (150 nm) cryosections were cut at 170 K, freeze-dried, carbon-coated and analysed in an electron microscope equipped with an X-ray spectrometer. The ultrastructure of the superficial layer of the fibres was satisfactorily preserved. The terminal cisternae (t.c.) of the sarcoplasmic reticulum (SR) were dark and contained various amounts of Sr or Ba in addition to Ca. In Sr loaded fibres the longitudinal SR occasionally showed electron dense content with significant amounts of Ca; no Sr was present. The results suggest that t.c. is the common sequestering compartment for Ca, Sr and Ba. Essentially the same distribution pattern of Sr was found following precipitation of Sr with a solution containing digitonin and Koxalate.     

Metabolic, cationic and secretory response to D-glucose in depolarized and Ca(2+)-deprived rat islets exposed to diazoxide

D-glucose stimulates insulin release from islets exposed to both diazoxide, to activate ATP-responsive K+ channels, and a high concentration of K+, to cause depolarization of the B-cell plasma membrane. Under these conditions, the insulinotropic action of D-glucose is claimed to occur despite unaltered cytosolic Ca2+ concentration, but no information is so far available on the changes in Ca2+ fluxes possibly caused by the hexose. In the present experiments, we investigated the effect of D-glucose upon 45Ca efflux from islets exposed to both diazoxide and high K+ concentrations. In the presence of diazoxide and at normal extracellular Ca2+ concentration, D-glucose (16.7 mmol/l) inhibited insulin release at 5 mmol/l K+, but stimulated insulin release of 90 mmol/l K+. In both cases, the hexose inhibited 45Ca outflow. In the presence of diazoxide, but absence of Ca2+, D-glucose (8.3 to 25.0 mmol/l) first caused a rapid decrease in insulin output followed by a progressive increase in secretory rate. This phenomenon was observed both at 5 mmol/l or higher concentrations (30, 60 and 90 mmol/l) of extracellular K+. It coincided with a monophasic decrease in 45Ca efflux and either a transient (at 5 mmol/l K+) or sustained (at 90 mmol/l K+) decrease in overall cytosolic Ca2+ concentration. The decrease in 45Ca efflux could be due to inhibition of Na(+)-Ca2+ countertransport with resulting localized Ca2+ accumulation in the cell web of insulin-producing cells. A comparable process may be involved in the secretory response to D-glucose in islets exposed to diazoxide and a high concentration of K+ in the presence of extracellular Ca2+.     

Increase of xylitol yield by feeding xylose and glucose in Candida tropicalis

Candida tropicalis, a strain isolated from the sludge of a factory manufacturing xylose, produced a high xylitol concentration of 131 g/l from 150 g/l xylose at 45 h in a flask. Above 150 g/l xylose, however, volumetric xylitol production rates decreased because of a lag period in cell growth. In fed-batch culture, the volumetric production rate and xylitol yield from xylose varied substantially with the controlled xylose concentration and were maximum at a controlled xylose concentration of 60 g/l. To increase the xylitol yield from xylose, feeding experiments using different ratios of xylose and glucose were carried out in a fermentor. The maximum xylitol yield from 300 g/l xylose was 91% at a glucose/xylose feeding ratio of 15%, while the maximum volumetric production rate of xylitol was 3.98 g l⁻¹ h⁻¹ at a glucose/xylose feeding ratio of 20%. Xylitol production was found to decrease markedly as its concentration rose above 250 g/l. In order to accumulate xylitol to 250 g/l, 270 g/l xylose was added in total, at a glucose/xylose feeding ratio of 15%. Under these conditions, a final xylitol production of 251 g/l, which corresponded to a yield of 93%, was obtained from 270 g/l xylose in 55 h. Received: 20 April 1998 / Received revision: 29 May 1998 / Accepted: 19 June 1998     

The effect of growth conditions on the biodegradation of tributyl phosphate and potential for the remediation of acid mine drainage waters by a naturally-occurring mixed microbial culture

The biodegradation of tributyl phosphate (Bu₃-P, TBP), releasing phosphate at a high enough concentration locally to precipitate uranium from solution, was demonstrated by a mixed culture consisting primarily of pseudomonads. The effect of various parameters on Bu₃-P biodegradation by growing cells is described. Growth at the expense of Bu₃-P as the carbon and phosphorus source occurred over a pH range from 6.5 to 8, and optimally at pH 7. Bu₃-P biodegradation was optimal at 30 °C, reduced at 20 °C and negligible at 4 °C and 37 °C. Incorporation of Cu or Cd inhibited, and Ni, Co and Mn reduced its degradation. Inorganic phosphate (above 10 mM) and kerosene (up to 1 g/l) reduced Bu₃-P biodegradation significantly, but nitrate had no effect. Sulphate (10–100 mM) was inhibitory. When pregrown biomass was used the fastest rates of tributyl and dibutyl phosphate biodegradation were 25 μmol h⁻¹ mg protein⁻¹ and 37 μmol h⁻¹ mg protein⁻¹ respectively. Microcarrier-immobilised biomass decontaminated uranium-bearing acid mine waste water by uranium phosphate precipitation at the expense of Bu₃-P hydrolysis in the presence of 35 mM SO₄ ²⁻. At pH 4.5, 79% of the UO₂ ²⁺ was removed at a flow rate of 1.4 ml/h on a 7-ml test column. Received: 2 June 1997 / Received revision: 15 September 1997 / Accepted: 19 September 1997     

Amberlite IR-120 Modified with 8-Hydroxyquinoline as Efficient Adsorbent for Solid-Phase Extraction and Flame Atomic Absorption Determination of Trace Amounts of Some Metal Ions

In this study, a solid-phase extraction method combined with atomic absorption spectrometry for extraction, preconcentration, and determination of iron (Fe³⁺), copper (Cu²⁺), and lead (Pb²⁺) ions at trace levels in water samples has been reported. The influences of effective parameters such as flow rate, pH, eluent conditions (type, volume, and concentration), sample volumes, and interference of matrix ions on metal ions recoveries were studied. Under optimized conditions, the limits of detection were found in the range of 0.7–2.2 μg L⁻¹, while preconcentration factors for Fe³⁺, Cu²⁺, and Pb²⁺ ions were found to be 166, 200, and 250, respectively, and loading half time (t _1/2) values were less than 2 min for all analyte ions. The proposed procedure was applied for the determination of metal ions in different water samples with recovery of >94.4% and relative standard deviation less than 4.4% for N = 5.     

Influence of inorganic phosphate and energy state on force in skinned cardiac muscle from freshwater turtle and rainbow trout

Inorganic phosphate, which increases in the hypoxic cardiac cell, depresses force development. The cardiac muscle of freshwater turtle maintains a remarkably high contractility during hypoxia; this may involve a low sensitivity to phosphate. Therefore, freshwater turtle and rainbow trout were compared with regard to Ca²⁺-activated force in skinned atrial trabeculae in a bath containing 3 mM ATP buffered by 15 mM creatine phosphate in the presence of creatine kinase. For turtle, an increase in phosphate from 0 mM to either 6 mM or 12 mM reduced maximal force by 50% and 80% respectively, whereas the Ca²⁺ activity eliciting half maximal force (Ca_0.5) was increased by 70% in 6 mM and could not be reliably recorded in 12 mM. For trout, the effects of phosphate were less pronounced. An increase from 0 mM to 12 mM did not affect maximal force significantly, but elevated Ca_0.5 by 70%. Hypoxia increases ADP as creatine phosphate is shifted to creatine, therefore, creatine phosphate was changed from 15 mM to 3 mM and creatine from 0 mM to 12 mM. After these changes, the elevation of phosphate from 0 mM to 12 mM had no significant effects for either turtle or trout. In conclusion, the high performance of turtle cardiac muscle during hypoxia does not involve a low sensitivity of the contractile system to phosphate. In addition, the effect of increased phosphate seems to be offset by a concomitant increase in ADP. Accepted: 28 June 1999     

The effects of Weichangshu tablet on intracellular Ca<Superscript>2+</Superscript> concentration in cultured rat gastrointestinal smooth muscle cells

The objective of this study was to explore the effects of Weichangshu tablets on free Ca²⁺ concentration of the gastrointestinal smooth muscle cells of rats and the molecular mechanism of the Weichangshu tablets. Cultured SD rat gastrointestinal smooth muscle cells were divided into control group, Cisapride group, Weichangshu group, and control + ethylene glycol tetraacetic acid (EGTA) group, Cisapride + EGTA group, and Weichangshu + EGTA group. Laser scanning microscope and spectrophotometer detection were applied to detect the calcium concentration. The calcium concentrations in Weichangshu group and Cisapride group significantly increased vs. control, and those in Weichangshu group were higher than those in Cisapride group. Ca²⁺ concentration in Weichangshu + EGTA group, Cisapride + EGTA group vs. control + EGTA group were not significantly different. Weichangshu could increase gastrointestinal smooth muscle free Ca²⁺ concentration, and this role may be achieved through the promotion of cells within the flow of calcium ions.     

Salt gland blood flow in the hatchling green turtle, Chelonia mydas

Microsphere and morphometric techniques were used to investigate any circulatory changes that accompany secretion by the salt glands of hatchling Chelonia mydas. Salt glands were activated by a salt load of 27.0 mmol NaCl kg body mass (BM)⁻¹, resulting in a mean sodium secretion rate of 4.14 ± 0.11 mmol Na kg BM⁻¹ h⁻¹ for a single gland. Microsphere entrapment was approximately 160–180 times greater in the active salt gland than the inactive gland, inferring a similar change in blood flow through salt gland capillaries. The concentration of microspheres trapped in the salt gland was significantly correlated with the rate of tear production (ml kg BM⁻¹ h⁻¹) and the total rate of sodium secretion (mmol Na kg BM⁻¹ h⁻¹) but not with tear sodium concentration (mmol Na l⁻¹). Adrenaline (500 μg kg BM⁻¹) inhibited tear production within 2 min and reduced microsphere entrapment by approximately 95% compared with active glands. The volume of filled blood vessels increased from 0.03 ± 0.01% of secretory lobe volume in inactive salt gland sections to 0.70 ± 0.11% in active gland sections. The results demonstrate that capillary blood flow in the salt gland of C. mydas can regulate the activity of the gland as a whole. Accepted: 12 July 2000     

Ca2+sensitivity and caffeine-induced changes in skinned cardiac muscle fibers of the carp,Cyprinus carpio

 Ca²⁺ sensitivity and caffeine-induced sensitivity changes in skinned carp heart fibers were compared with those of guinea pig and rat heart. The Ca²⁺ concentration-response curves of saponin-treated left atrial skinned fibers obtained from guinea pig and rat were almost identical. Doses of 5 and 20 mmol ⋅ l^-1 caffeine shifted this curve to the left. However, when a relatively high concentration (50 mmol ⋅ l^-1) of caffeine was used, the left-ward shift was reduced. Caffeine reduced the peak of the Ca²⁺ concentration-response curve. The Ca²⁺ concentration-response curve of carp atrial skinned fiber is almost identical to that of guinea pig and rat. However, a further increase in Ca²⁺ sensitivity was observed even when 50 mmol ⋅ l^-1 caffeine was added. Similarly, a decrease in the response curve peak was also observed. Ca²⁺ sensitivity in ventricular skinned fibers obtained from carp was almost the same as that observed for the atrial, but the increase in Ca²⁺ sensitivity due to caffeine was larger. In addition, a further increase was also observed when 50 mmol ⋅ l^-1 caffeine was added. These results indicate that the Ca²⁺ sensitivity of contractile proteins in atrial muscles from carp heart is the same as that of guinea pig and rat. It is, however, assumed that there are some differences in properties in the contractile proteins. It is also assumed that there are some differences between the atrial and ventricular muscles of carp heart. Accepted: 17 May 1996     

Spectroscopic characterization and intramolecular electron transfer processes of native and type 2 Cu-depleted nitrite reductases

 Native nitrite reductases (NIRs) containing both type 1 and 2 Cu ions and type 2 Cu-depleted (T2D) NIRs from three denitrifying bacteria (Achromobacter cycloclastes IAM 1013, Alcaligenes xylosoxidans NCIB 11015, and Alcaligenes xylosoxidans GIFU 1051) have been characterized by electronic absorption, circular dichroism, and electron paramagnetic resonance spectra. The characteristic visible absorption spectra of these NIRs are due to the type 1 Cu centers, while the type 2 Cu centers hardly contribute in the same region. The intramolecular electron transfer (ET) process from the type 1 Cu to the type 2 Cu in native NIRs has been observed as the reoxidation of the type 1 Cu(I) center by pulse radiolysis, whereas no type 1 Cu in T2D NIRs exhibits the same reoxidation. The ET process obeys first-order kinetics, and observed rate constants are 1400–1900 s^–1 (t_1/2 = ca. 0.5 ms) at pH 7.0. In the presence of nitrite, the ET process also obeys first-order kinetics, with rate constants decreased by factors of 1/12–1/2 at the same pH. The redox potential of the type 2 Cu site is estimated to be +0.24 - +0.28 V, close to that of the type 1 Cu site. Nitrate and azide ions bound to the type 2 Cu site change the redox potential. Nitrite also would shift the redox potential of the type 2 Cu by coordination, and hence the intramolecular ET rate constant is decreased. Pulse radiolysis experiments on T2D NIRs in the presence of nitrite demonstrate that the type 1 Cu(I) site is slowly oxidized with a first-order rate constant of 0.03 s^–1 at pH 7.0, suggesting that nitrite bound to the protein accepts an electron from the type 1 Cu. This result is in accord with the finding that T2D NIRs show enzymatic activities, although they are lower than those of the native enzymes. Received: 9 July 1996 / Accepted: 30 January 1997