Purification and characterization of phenoloxidase from the hemolymph of healthy and diseased Antheraea assamensis Helfer (Lepidoptera: Saturniidae): Effects of certain biological components and chemical agents on enzyme activity

In the current study, a dimeric phenoloxidase (PO) from the hemolymph of healthy and diseased (pebrine infected) larvae of Antheraea assamensis Helfer was extracted and purified. The protein was subjected to purification using Sephacryl S‐100 and CM Sepharose chromatography. The enzyme comprised of two subunits of ~76.8 and 76 kDa that showed PO activity in 6 mM l ‐3,4‐dihydroxyphenylalanine (L ‐DOPA) and 8 mM catechol but not in hydroquinone. Optimum temperature for PO activity was 30°C in l ‐DOPA and 37°C in catechol. Optimum pH ranged from 6.8 to 7.0 in L ‐DOPA and 7.0–7.2 in catechol. Specific activity of the purified PO from healthy larvae was 53.9 µM/min per mg of protein per ml in L ‐DOPA and 50.77 µM/min per mg of protein per ml in catechol. Specific activity of PO from diseased larvae was 30.0 µM/min per mg of protein per ml in L ‐DOPA and 28.55 µM/min per mg of protein per ml in catechol. Purification fold was 3.27–4.21 for healthy and 2.38–2.56 for diseased fractions. The enzyme showed the Michaelis constant (K_m) of 2.46–2.85 mM for healthy and diseased fractions in L ‐DOPA. In catechol K_m of 9.23–17.71 mM was observed. Peptidoglycan was the best activator of purified PO from both healthy and diseased fractions. Interactions between controls and activators appeared statistically significant (F = 767.5; df = 3; P < 0.0001). Na⁺, K⁺, and Cu²⁺ increased, whereas Ca²⁺, Zn²⁺, Mg²⁺, and Co²⁺ decreased PO activity. The overall interactions appeared highly significant (F = 217.0; df = 27; P < 0.0001). Kojic acid, dithiothreitol, thiourea, phenylthiourea, carbendazim, N‐bromosuccinimide, N,N,N′,N′‐tetraacetic acid, and diethyldithiocarbamate inhibited PO activity.     

Resveratrol induces cell‐cycle disruption and apoptosis in chemoresistant B16 melanoma

Resveratrol, a naturally occurring polyphenol, has been shown to possess chemopreventive activities. In this study, we show that resveratrol (0–500 µM) inhibits the growth of a doxorubicin‐resistant B16 melanoma cell subline (B16/DOX) (IC₅₀ = 25 µM after 72 h, P < 0.05). This was accomplished by imposing an artificial checkpoint at the G₁–S phase transition, as demonstrated by cell‐cycle analysis and down‐regulation of cyclin D1/cdk4 and increased of p53 expression level. The G₁‐phase arrest of cell cycle in resveratrol‐treated (10–100 µM) B16/DOX cells was followed by the induction of apoptosis, which was revealed by pyknotic nuclei and fragmented DNA. Resveratrol also potentiated at subtoxic dose (25 µM for 24 h) doxorubicin cytotoxicity in the chemoresistant B16 melanoma (P < 0.01). When administered to mice, resveratrol (12.5 mg/kg) reduced the growth of an established B16/DOX melanoma and prolonged survival (32% compared to untreated mice). All these data support a potential use of resveratrol alone or in combination with other chemotherapeutic agents in the management of chemoresistant tumors. J. Cell. Biochem. 110: 893–902, 2010. © 2010 Wiley‐Liss, Inc.     

Establishment and characterization of Stevia rebaudiana (Bertoni) cell suspension culture: an in vitro approach for production of stevioside

A protocol has been standardized for establishment and characterization of cell suspension cultures of Stevia rebaudiana in shake flasks, as a strategy to obtain an in vitro stevioside producing cell line. The effect of growth regulators, inoculum density and various concentrations of macro salts have been analyzed, to optimize the biomass growth. Dynamics of stevioside production has been investigated with culture growth in liquid suspensions. The callus used for this purpose was obtained from leaves of 15-day-old in vitro propagated plantlets, on MS medium fortified with benzyl aminopurine (8.9 μM) and naphthalene acetic acid (10.7 μM). The optimal conditions for biomass growth in suspension cultures were found to be 10 g l^?1 of inoculum density on fresh weight basis in full strength MS liquid basal medium of initial pH 5.8, augmented with 2,4-dichlorophenoxy acetic acid (0.27 μM), benzyl aminopurine (0.27 μM) and ascorbic acid (0.06 μM), 1.0× NH₄NO₃ (24.7 mM), 3.0× KNO₃ (56.4 mM), 3.0× MgSO₄ (4.5 mM) and 3.0× KH₂PO₄ (3.75 mM), in 150 ml Erlenmeyer flask with 50 ml media and incubated in dark at 110 rpm. The growth kinetics of the cell suspension culture has shown a maximum specific cell growth rate of 3.26 day^?1, doubling time of 26.35 h and cell viability of 75 %, respectively. Stevioside content in cell suspension was high during exponential growth phase and decreased subsequently at the stationary phase. The results of present study are useful to scale-up process and augment the S. rebaudiana biological research.     

EFFECTS OF LIGHT AND TEMPERATURE ON GROWTH,NITRATE UPTAKE,AND TOXIN PRODUCTION OF TWO TROPICAL DINOFLAGELLATES: ALEXANDRIUM TAMIYAVANICHII AND ALEXANDRIUM MINUTUM (DINOPHYCEAE)1

The two tropical estuarine dinoflagellates, Alexandrium tamiyavanichii Balech and A. minutum Halim, were used to determine the ecophysiological adaptations in relation to their temperate counterparts. These species are the two main causative organisms responsible for the incidence of paralytic shellfish poisoning (PSP) in Southeast Asia. The effects of light (10, 40, 60, and 100 μmol photons·m^?2·s^?1) and temperature (15, 20, and 25°C) on the growth, nitrate assimilation, and PST production of these species were investigated in clonal batch cultures over the growth cycle. The growth rates of A. tamiyavanichii and A. minutum increased with increasing temperature and irradiance. The growth of A. tamiyavanichii was depressed at lower temperature (20°C) and irradiance (40 μmol photons·m^?2·s^?1). Both species showed no net growth at 10 μmol photons·m^?2·s^?1 and a temperature of 15°C, although cells remained alive. Cellular toxin quotas (Q_t) of A. tamiyavanichii and A. minutum varied in the range of 60–180 and 10–42 fmol PST·cell^?1, respectively. Toxin production rate, R_tox, increased with elevated light at both 20 and 25°C, with a pronounced effect observed at exponential phase in both species (A. tamiyavanichii, r²=0.95; A. minutum, r²=0.96). Toxin production rate also increased significantly with elevated temperature (P<0.05) for both species examined. We suggest that the ecotypic variations in growth adaptations and toxin production of these Malaysian strains may reveal a unique physiological adaptation of tropical Alexandrium species.     

Antioxidative iridoid glycosides from the sky flower (Duranta repens Linn)

Phytochemical investigations were performed on the EtOAc-soluble fraction of the whole plant of the sky flower (Duranta repens) which led to the isolation of the iridoid glycosides 1–6. Their structures were elucidated by both 1D and 2D NMR spectroscopic analysis. All the compounds showed potent antioxidative scavenging activity in four different tests, with half maximal inhibitory concentration (IC₅₀) values in the range 0.481–0.719?mM against DPPH radicals, 4.07–17.21 µM for the hydroxyl radical (^?OH) inhibitory activity test, 43.3–97.37 µM in the total reactive oxygen species (ROS) inhibitory activity test, and 3.39–18.94 µM in the peroxynitrite (ONOO^?) scavenging activity test. Duranterectoside A (1) displayed the strongest scavenging potential with IC₅₀ values of (0.481?±?0.06?mM, 4.07?±?0.03, 43.30?±?0.05, 3.39?±?0.02?µM) for the DPPH radicals, ^?OH inhibitory activity test, total ROS inhibitory activity test and the ONOO^? scavenging activity test, respectively.     

Effect of stressful conditions on the carotenogenic activity of a Colombian strain of Dunaliella salina

The objective was evaluate the carotenogenic activity of Dunaliella salina isolated from the artificial salt flats of municipality of Manaure (Department of La Guajira, Colombia). Two experimental testings were designed, in triplicate, to induce the reversibility of the cell tonality depending on the culture conditions. In the first test (A), to induce the reversibility from green to red tonality in D. salina cells, these were cultured in J/1 medium at a concentration of 4.0 M NaCl, 390 µmol m^?2 s^?1, 0.50 mM KNO₃. In the second test (B), to induce the reversibility from red to green cell tonality, the cultures were maintained in J/1 medium 1 M NaCl, 190 µmol m^?2 s^?1, 5.0 mM KNO₃ and pH 8.2. The population growth was evaluated by cell count and the pigment content was performed by spectrophotometric techniques. It was found that in both tests the culture conditions influenced the population growth and the pigments production of D. salina. There was a significant difference between the mean values of total carotenoids in the test A with 9.67 ± 0.19 μg/ml and second test with 1.54 ± 0.08 μg/ml at a significance level of p < 0.05. It was demonstrated that the culture conditions of test A induce the production of lipophilic antioxidants, among these carotenoids. The knowledge of the stressful conditions for the production of carotenoids from D. salina isolated from artificial saline of Manaure opens a field in implementation of this biotic resource for biotechnological purposes, production of new antibiotics, nutraceuticals and/or biofuels production.     

Inward rectifier potassium channels in the HL‐1 cardiomyocyte‐derived cell line

HL‐1 is a line of immortalized cells of cardiomyocyte origin that are a useful complement to native cardiomyocytes in studies of cardiac gene regulation. Several types of ion channel have been identified in these cells, but not the physiologically important inward rectifier K⁺ channels. Our aim was to identify and characterize inward rectifier K⁺ channels in HL‐1 cells. External Ba²⁺ (100 µM) inhibited 44 ± 0.05% (mean ± s.e.m., n = 11) of inward current in whole‐cell patch‐clamp recordings. The reversal potential of the Ba²⁺‐sensitive current shifted with external [K⁺] as expected for K⁺‐selective channels. The slope conductance of the inward Ba²⁺‐sensitive current increased with external [K⁺]. The apparent Kd for Ba²⁺ was voltage dependent, ranging from 15 µM at ?150 mV to 148 µM at ?75 mV in 120 mM external K⁺. This current was insensitive to 10 µM glybenclamide. A component of whole‐cell current was sensitive to 150 µM 4,4′‐diisothiocyanatostilbene‐2,2′‐disulfonic acid (DIDS), although it did not correspond to the Ba²⁺‐sensitive component. The effect of external 1 mM Cs⁺ was similar to that of Ba²⁺. Polymerase chain reaction using HL‐1 cDNA as template and primers specific for the cardiac inward rectifier K_ir2.1 produced a fragment of the expected size that was confirmed to be K_ir2.1 by DNA sequencing. In conclusion, HL‐1 cells express a current that is characteristic of cardiac inward rectifier K⁺ channels, and express K_ir2.1 mRNA. This cell line may have use as a system for studying inward rectifier gene regulation in a cardiomyocyte phenotype. J. Cell. Physiol. 225: 751–756, 2010. © 2010 Wiley‐Liss, Inc.     

Studies on carrageenans and effects of seawater phosphorus concentration on carrageenan content and growth ofAgardhiella subulata (C. Agardh) Kraft and Wynne (Rhodophyceae,Solieriaceae)

Gas liquid chromatography, chemical analyses, and infrared and¹³C-NMR spectroscopies indicated that phycocolloids extracted fromAgardhiella subulata had a dominant ι-carrageenan feature with less deviant ι-carrageenan and υ-carrageenan. The presence of methylated galactose and a small contamination by xylose were registered. Unattached plants were cultivated for 4 weeks in tanks receiving seawater enriched with 53.5 µM nitrate and 0 to 20 µM phosphate (P_i) week^?1. The growth was phosphorus (P)-limited up to a tissue P content of 0.14 ± 0.03% dry weight. Maximal specific growth rate and carrageenan content were observed with enrichments of 6 µM P_i and 3 µM P_i, respectively. Hence carrageenan production was promoted in the range of 3–6 µM P_i. Further P_i enrichment was useless. This phenomenon, observed with P nutrition, is comparable to the ‘Neish effect’ in nitrogen nutrition studies.     

Discontinuous gas exchange patterns of beet armyworm pupae, Spodoptera exigua (Lepidoptera: Noctuidae): effects of Bacillus thuringiensis Cry1C toxin, pupal age and temperature

Abstract. Changes in the discontinuous gas exchange cycle of pupal beet armyworm, Spodoptera exigua (Hübner) (Lepidoptera: Noctuidae), exposed or not to Cry1C Bacillus thuringiensis toxin, are examined against developmental age (1–7 days) and at different temperatures (10–25 °C) using flow through respirometry. Both exposed and nonexposed pupae exhibit discontinuous gas exchange, but only at 10 °C; the frequency of cyclic release of CO₂ increases with increasing temperatures. The three phases of the discontinuous gas exchange cycle are distinct for both treatment groups. However, the duration of each phase is significantly greater for pupae exposed previously to toxin. The closed phase is 40 ± 14% longer, the flutter phase 23 ± 19% longer, and the open phase is 28 ± 12% longer when pupae were exposed to toxin. Respiratory water loss is 4.5 ± 1.3% for toxin exposed pupae and 2.1 ± 2.4% for unexposed pupae. Furthermore, the exposed pupae have significantly greater cuticular permeability (26.01 ± 1.9 µg cm⁻² h⁻¹ mmHg⁻¹) than the nonexposed pupae (9.64 ± 0.9 µg cm⁻² h⁻¹ mmHg⁻¹). However, in both strains, cuticular transpiration (>93%) far exceeds respiratory transpiration. Overall, total water loss is significantly greater in pupae whose larvae are exposed to toxin compared with pupae from nontreated larvae. Toxin exposed pupae have a mean cycle duration of 60 ± 2.5 min whereas that of nonexposed pupae is 42 ± 1.8 min.(ml g⁻¹ h⁻¹) of the open phase is greater earlier in pupal life followed by a minimum at mid-pupal stage and an increase at late-pupal development in both treatment groups. Combining all 7 days, closed, flutter and open phase (ml g⁻¹ h⁻¹), pupae exposed to toxin produce significantly more CO₂ during each phase. On average, toxin exposed pupae produce 52 ± 12, 43 ± 10 and 15 ± 37% more CO₂ than the untreated pupae during the closed, flutter and open phases, respectively. Therefore, the present study reinforces the need to use insects of similar developmental age in studies of insect respiration patterns and energy metabolism.     

In vitro effects of tetraiodothyroacetic acid combined with X-irradiation on basal cell carcinoma cells

We investigated radiosensitization in an untreated basal cell carcinoma (TE.354.T) cell line and post-pretreatment with tetraiodothyroacetic acid (tetrac) X 1 h at 37°C, 0.2 and 2.0 µM tetrac. Radioresistant TE.354.T cells were grown in modified medium containing fibroblast growth factor-2, stem cell factor-1 and a reduced calcium level. We also added reproductively inactivated (30 Gy) “feeder cells” to the medium. The in vitro doubling time was 34.1 h, and the colony forming efficiency was 5.09 percent. These results were therefore suitable for clonogenic radiation survival assessment. The 250 kVp X-ray survival curve of control TE.354.T cells showed linear-quadratic survival parameters of α_X-ray = 0.201 Gy^?1 and β_X-ray = 0.125 Gy^?2. Tetrac concentrations of either 0.2 or 2.0 µM produced α_X-ray and β_X-ray parameters of 2.010 and 0.282 Gy^?1 and 2.050 and 0.837 Gy^?2, respectively. The surviving fraction at 2 Gy (SF₂) for control cells was 0.581, while values for 0.2 and 2.0 µM tetrac were 0.281 and 0.024. The SF₂ data show that tetrac concentrations of 0.2 and 2.0 µM sensitize otherwise radioresistant TE.354.T cells by factors of 2.1 and 24.0, respectively. Thus, radioresistant basal cell carcinoma cells may be radiosensitized pharmacologically by exposure to tetrac.     

Effects of light,temperature and salinity on the growth rate of harmful marine diatoms,Chaetoceros convolutus and C. concavicornis that kill netpen salmon

Chaetoceros convolutus and C. concavicornis have been implicated in the death of salmon in netpens in the Pacific Northwest by damaging the salmon's gills. To better understand how environmental factors affect the distribution of these two species, the interacting effects of light, temperature and salinity on growth rate were examined by growing these species under a range of temperatures (4–18 °C), light (10–175 μmol photon m⁻² s⁻¹) and salinities (10–30‰). For C. convolutus, the growth rate showed a hyperbolic relationship with irradiance at 8, 14 and 18 °C and light saturation occurred at 9, 14 and 20 μmol photon m^t s⁻¹ respectively. At 4 °C for C. convolutus and 8 °C for C. concavicornis, cells grew at μ_max, even at the lowest irradiances tested (10 μmol photon m⁻² s⁻¹). For C. convolutus, the amount of light required to saturate growth rate increased with temperature in an approximately linear fashion. The Q₁₀ was 1.88, calculated by averaging over both species. C. concavicornis was the more euryhaline species growing at salinities as low as 17.5‰, while C. convolutus grew only at 25‰ and above.     

Cholera Toxin Induces Cyclic AMP-Independent Down-Regulation of Gsα and Sensitization of α2-Autoreceptors in Chick Sympathetic Neurons

Abstract: The role of the stimulatory GTP-binding protein (G_S) in the α₂-autoinhibitory modulation of noradrenaline release was investigated in cultured chick sympathetic neurons. The α₂-adrenoceptor agonist UK 14,304 caused a concentration-dependent reduction of electrically evoked [³H]noradrenaline release with half-maximal effects at 14.0 ± 5.5 nM. In neurons treated with 100 ng/ml cholera toxin for 24 h, the half-maximal concentration was lowered to 3.2 ± 1.4 nM without changes in the maximal effect of UK 14,304. The pretreatment with cholera toxin also increased the inhibitory action of 10 nM UK 14,304 when compared with the inhibition of noradrenaline release in untreated cultures derived from the same cell population. In cultures treated with either 10 µM forskolin or 100 µM 8-bromo-cyclic AMP, neither the half-maximal concentration nor the maximal effect of UK 14,304 was altered. Cholera toxin, forskolin, and 8-bromo-cyclic AMP all induced an increase in spontaneous outflow and a reduction in electrically evoked overflow, effects not observed after a pretreatment with dideoxyforskolin. Exposure of neurons to cholera toxin, but not to forskolin or 8-bromo-cyclic AMP, induced a translocation of α-subunits of G_s (G_sα) from particulate to soluble fractions and led ultimately to a complete loss of G_sα from the neurons. In contrast, no effect was seen on the distribution of either α-subunits of G_i- or G_o-type G proteins or of β-subunits. These results indicate that cholera toxin causes a selective, cyclic AMP-independent down-regulation of G_sα. This down-regulation of G_sα is associated with the sensitization of α₂-autoreceptors.     

A possible modulation of acetylcholine receptors of embryonic chick muscle cells by α-bungarotoxin

Acetylcholine receptors were assayed with α-bugarotoxin on embryonic chick skeletal muscle growing in primary cell culture. Toxin was bound specifically to muscle cells and could be competed with D-tubocurarine. Two dissociation constants were obtained by equilibrium binding: 7.2 × 10^?9M and 2.7 × 10^?7M at 25°C. Two sets of rate constants were also obtained from dissociation kinetics. There are five times more low affinity sites on cells than high affinity sites. The average density of high-affinity receptors is about 200/μm². A time course of toxin binding to receptors at 37°C vs 25°C in growth medium revealed that under conditions permitting growth and metabolism, toxin bound to cells was lost. The possibility that the growth medium was in-activating toxin molecules was ruled out by showing that unbound toxin molecules in the medium were fully capable of binding to fresh cultures.     

Isber annual meeting program biodiversity and international regulations May 4–7, 2003 Adam’s Mark Hotel,Philadelphia, PA

It has been reported that when ovarian carcinoma cell lines are exposed to various concentrations of celecoxib, a COX-2 inhibitor, cell growth is decreased in a dose dependant manner. To examine further the effect of celecoxib, different cell densities of two carcinoma cell lines were exposed to various concentrations of celecoxib. LNCAP prostate and CAOV3 ovarian carcinoma cells were obtained from the American Type Culture Collection and maintained in Rosewell Park Memorial Institute 1640 and Dulbeceo's modified Eagle's medium, respectively. Each cell line was supplemented with 10% fetal bovine serum, 2 mM L-glutamine, and antibiotic-antimycotic solution, and placed in a humidified atmosphere containing 5% CO₂ at 37° C. After each cell line reached a confluency of 70–80%, 1000, 2000, 3000, 5000, 7000 and 10,000 cells/well were seeded in 96 well plates in 100?µl medium/per well for 24 h. Each cell line was exposed to the same concentrations of celecoxib (10–100?µM) at each cell density for 72 h. Cell growth was assessed using a tetrazolium conversion assay. A significant decrease compared to controls was observed in cell growth at each cell density of LNCAP and CAOV3 cells plated with ≥30?µM and ≥50?µM celecoxib, respectively. When the cell growth curves were compared for each cell density at the same concentration of celecoxib, a significant decrease in cell growth was observed when LNCAP cells were plated at 10,000 cells/well and exposed to 10–100?µM celecoxib. At a cell density?≥?5000 LNCAP cells/well, the inhibitory effect of celecoxib was less. Similarly, a significant decrease in cell growth was observed in CAOV3 cells plated at 1000 cells/well compared to other cell numbers plated at the same drug concentrations. At a cell density of?>?5000 CAOV3 cells/well, the inhibitory effect of celecoxib was significantly less compared to other cell densities at the same concentration. We observed a more sensitive decrease in cell growth in both carcinoma lines studied at a cell density of 1000 cells/well with exposure to 10–100?µM celecoxib. Both carcinoma cell lines were less sensitive at a cell density of 5000 cells/well. Our results suggest that the inhibitory effect of celecoxib may be affected by cell density. Therefore, careful attention must be paid to determining the appropriate cell density for cytotoxicity studies.     

Growth ofDunaliella viridis Teodoresco: effect of salinity,temperature and nitrogen concentration

The growth of a strain ofD. viridis has been studied in batch culture under different combinations of temperature, salinity and nitrogen concentrations. Changes in these variables have a significant effect on cell division, biomass production, cell volume and pigment yield. This strain grows optimally at 1 M NaCl and 30 °C. Increasing salinity up to 4 M NaCl leads to a significant decrease of cell division rate and maximal population; growth at lower temperature decreases the rate of division of the cells but increases maximal cell density. Pigment yield decreases with increasing salinity and increases with increasing temperature. Nitrogen concentration has a large effect on total cell biomass and pigment production, but not on cell division rate. Saturation of growth occurs at 5 mM NO ₃ ^? ; higher concentration (e.g. 10 mM) leads to a decrease of maximal cell density and photosynthetic pigment content.     

Comparative Effects of Hydrogen Sulfide-Releasing Compounds on [<Superscript>3</Superscript>H]D-Aspartate Release from Bovine Isolated Retinae

We investigated the pharmacological actions of a slow-releasing H₂S donor, GYY 4137; a substrate for the biosynthesis of H₂S, l-cysteine and its precursor, N-acetylcysteine on potassium (K⁺; 50 mM)-evoked [³H]D-aspartate release from bovine isolated retinae using the Superfusion Method. GYY 4137 (10 nM–10 µM), l-cysteine (100 nM–10 µM) and N-acetylcysteine (10 µM–1 mM) elicited a concentration-dependent decrease in K⁺-evoked [³H]D-aspartate release from isolated bovine retinae without affecting basal tritium efflux. At equimolar concentration of 10 µM, the rank order of activity was as follows: l-cysteine?>?GYY 4137?>?N-acetylcysteine. A dual inhibitor of the biosynthetic enzymes for H₂S, cystathionine β-synthase (CBS) and cystathionine γ-lyase (CSE), amino-oxyacetic acid (AOA; 3 mM) reversed the inhibitory responses caused by GYY 4137, l-cysteine and N-acetylcysteine on K⁺-evoked [³H]D-aspartate release. Glibenclamide (300 µM), an inhibitor of K_ATP channels blocked the inhibitory action of GYY 4137 and l-cysteine but not that elicited by N-acetylcysteine on K⁺-induced [³H]D-aspartate release. The inhibitory effect of GYY 4137 and l-cysteine on K⁺-evoked [³H]D-aspartate release was reversed by the non-specific inhibitor of nitric oxide synthase (NOS), l-NAME (300 µM). Furthermore, a specific inhibitor of inducible NOS (iNOS), aminoguanidine (10 µM) blocked the inhibitory action of l-cysteine on K⁺-evoked [³H]D-aspartate release. We conclude that both donors and substrates for H₂S production can inhibit amino acid neurotransmission in bovine isolated retinae, an effect that is dependent, at least in part, upon the intramural biosynthesis of this gas, and on the activity of K_ATP channels and NO synthase.     

Riluzole suppresses postinhibitory rebound in an excitatory motor neuron of the medicinal leech

Postinhibitory rebound (PIR) is an intrinsic property often exhibited by neurons involved in generating rhythmic motor behaviors. Cell DE-3, a dorsal excitatory motor neuron in the medicinal leech exhibits PIR responses that persist for several seconds following the offset of hyperpolarizing stimuli and are suppressed in reduced Na⁺ solutions or by Ca²⁺ channel blockers. The long duration and Na⁺ dependence of PIR suggest a possible role for persistent Na⁺ current (I _NaP). In vertebrate neurons, the neuroprotective agent riluzole can produce a selective block of I _NaP. This study demonstrates that riluzole inhibits cell DE-3 PIR in a concentration- and Ca²⁺-dependent manner. In 1.8 mM Ca²⁺ solution, 50–100 µM riluzole selectively blocked the late phase of PIR, an effect similar to that of the neuromodulator serotonin. However, 200 µM riluzole blocked both the early and late phases of PIR. Increasing extracellular Ca²⁺ to 10 mM strengthened PIR, but high riluzole concentrations continued to suppress both phases of PIR. These results indicate that riluzole may suppress PIR via a nonspecific inhibition of Ca²⁺ conductances and suggest that a Ca²⁺-activated nonspecific current (I _CAN), rather than I _NaP, may underlie the Na⁺-dependent component of PIR.     

TEMPERATURE EFFECTS ON SILICON LIMITED GROWTH OF THE LAKE MICHIGAN DIATOM STEPHANODISCUS MINUTUS (BACILLARIOPHYCEAE)1

The effect of temperature on the silicon limited growth and nutrient kinetics of Stephanodiscus minutus Grun. was examined using batch and semicontinuous culture methods. Short-term batch culture methods gave maximum growth rates which were essentially constant over the temperature range of 10° to 20°C (μ₃= 0.71–0.80 d^?1). The half-saturation constant for growth (K_s) was significantly lowest at 10°C (K_s= 0.31 μM Si; 0.22–0.41), and higher at both 15°C (K_s= 1.03 μM Si; 0.68–1.47) and 20°C (K_s= 0.88 μM Si; 0.60–1.22). Two methods were used to evaluate the semicontinuous experiments. The Droop relationship showed that the minimum cell quota was about 1.50 × 10^?7 nmol Si cell^?1, but there was much overlap in the results at all three temperatures. The Monod growth relationship for the semicontinuous experiments gave estimates of K_s which were lowest at 15°C (K_s= 0.12 μM Si), and higher at 10°C (K_s= 0.68 μM Si) and 20°C (K_s= 1.24 μM Si), although 95% confidence intervals overlapped. The maximum growth rate estimates for the semicontinuous experiments were similar at 10° and 15°, and higher at 20°C, but the number of points used in making the calculations makes the results less reliable than those from batch cultures. Generally, there were no consistent significant differences in the silicon limited growth of S. minutus over the temperature range studied. Our values of K_s for S. minutus are the lowest recorded for a freshwater diatom, and are consistent with the distribution of this species in nature. Generally, this species becomes abundant in areas with high phosphorus loading and very low silicon levels (low Si:P loading rates). Stephanodiscus species are also fossil indicators of eutrophication in north temperate lakes.     

Characterization of phosphate absorption in maize root cortex segments

Uptake of phosphate ions by 1 mm segments of isolated maize root cortex layers was studied. Cortex segments (from roots of 8 days old maize plants) absorb phosphate ions from 1 mM KH₂PO₄ in 0.2 mM CaSCO₄ at the average rate of 34.3 ±3.2 μg P_i g^?1 (fr. m.) h^?1,i.e. 0.35± 0.02 μmol P_i g^?1 (fr. m.) h^?1. Phosphate uptake considerably increases after a certain period of “augmentation”,i.e. washing in aerated 0.2 mM CaSO₄. This increase is completely blocked by the presence of 10 μg ml^?1 cycloheximide. The relation of uptake rate to phosphate concentration in the medium was shown to have 3 phases in the concentration range of 0.02 - 40 mM. Transition points were found between 0.8–1 mM and 10–20 mM. Following K_m and V_max values were found: K_m[mM] : 0.37 - 3.82 - 27.67 V_max[μg P_i g^?1 (fr. m.) h^?1] : 3.33 - 39.40 - 66.67 We have found no sharp pH optimum for phosphate uptake. It proceeds at almost constant rate till pH 6.0 and then the uptake rate drops with increasing pH. At low phosphate concentrations (1 mM) the lowest uptake rate was found at 5 and 13 °C, while the uptake is higher at 5 °C than at 13 °C at phosphate concentrations higher than 1 mM. At these concentrations uptake rate at 35 °C is lower than at 25 °C. Phosphate uptake considerably decreased in anaerobic conditions. DNP and iodoacetate (0.1 mM) completely blocked phosphate uptake from 1 mM KH₂PO₄, while uptake from 5 and 10 mM KH₂PO₄ was left unaffected by these substances. The inhibitors of active - SH groups NEM and PCMB inhibited phosphate uptake: 10^?3 M NEM by 81.6%, 10⁴ M NEM by 42% and 10^?4 M PCMB by 42%.     

K+ channels of stomatal guard cells: bimodal control of the K+ inward-rectifier evoked by auxin

The influence of the auxins indole-3-acetic acid (IAA) and 1-napthylene acetic acid (NAA) on K⁺ channels and their control was examined in stomatal guard cells of Vicia faba L. Intact guard cells were impaled with multibarrelled microelectrodes to record membrane potentials and to monitor K⁺ channel currents under voltage clamp during exposures to 0.1–100 µM IAA and NAA. Following impalements, challenge with either IAA or NAA in the presence of 10 mM KCl resulted in the concerted modulation of at least four different currents with distinct kinetic characteristics and concentration dependencies. Equivalent concentrations of benzoic acid were wholly without effect. Most striking, current carried by inward-rectifying K⁺ channels (I_K,in) exhibited a bimodal response to both IAA and NAA which was reversed on washing the auxins from the bathing medium. The steady-state current was augmented 1.3- to 2-fold at concentrations between 0.1 and 10 µM and antagonized at concentrations near 30 µM and above. Auxin agonism of I_K,in was time- and voltage-independent. By contrast, I_K,in inactivation at the higher auxin concentrations was marked by a voltage-dependence and slowing of the kinetics for current activation. Inactivation of I_K,in by the auxins was relieved when cytoplasmic pH (pH_i) was clamped near 7.0 in the presence of 30 mM Na⁺-butyrate. In addition to the control of I_K,in, current carried by a second class of (outward-rectifying) K⁺ channels rose in a monotonic and largely voltage-independent manner with auxin concentrations about 10 µM and above, and IAA and NAA also activated an inward-going current with a voltage dependence characteristic of guard cell anion channels. Further changes in background current were consistent with a limited activation of the H⁺-ATPase. Over the concentration range examined, the auxins evoked membrane hyperpolarizations and depolarizations of up to ±12–19 mV, depending on the free-running membrane potential prevailing before auxin additions. Prolonging exposures to 100 µM auxin beyond 3–5 min frequently elicited rapid transitions to voltages near E_K as well as regenerative action potentials. However, in every case the voltage response was a predictable consequence of auxin action on the K⁺ channels and, at 100 µM auxin, on the anion current. These results demonstrate a control of K⁺ channel activity by auxin, consistent with the roles of these channels in mediating K⁺ flux for stomatal movements; the data associate a bimodal characteristic with the activity of I_K,in, implicating pH_i as a putative intermediate in its control, and offer strong evidence for a multiplicity of signal cascades evoked by auxin; finally, they highlight a coordinate modulation of transport activities by auxin, thereby drawing a close analogy to the pattern of stimulus-response coupling in abscisic acid.