Effects of some SH-inhibitors and EDTA on flowering in Lemna perpusilla 6746

Lemna perpusilla 6746, a short-day duckweed, flowered undercontinuous illumination on M-sucrose medium containing CuSO₄,AgNO₃ and HgCl₂, which are SH-inhibitors. The optimum concentrationsof CuSO₄, AgNO₃ and HgCl₂ were 5, 1 and 20 µM, respectively.Other metal ions tested were ineffective, but at least two otherSHinhibitors, potassium ferricyanide and iodoacetamide, alsoinduced long-day flowering at the concentrations of 0.1-1 µM. Adding 50 µM EDTA to the medium prevented the effect ofcupric ion, but not that of other SH-inhibitors. EDTA at 200µM induced some long-day flowering when added to a mediumwith no SH-inhibitors. It also permitted some flowering whenadded together with cupric ion, and accelerated flowering inthe presence of the other SHinhibitors listed above. EDTA andSH-inhibitor effects appeared to be additive. (Received May 25, 1973; )     

ATP and PIP2 dependence of the magnesium-inhibited, TRPM7-like cation channel in cardiac myocytes

The Mg²⁺-inhibited cation (MIC) current (I_MIC) in cardiac myocytes biophysically resembles currents of heterologously expressed transient receptor potential (TRP) channels, particularly TRPM6 and TRPM7, known to be important in Mg²⁺ homeostasis. To understand the regulation of MIC channels in cardiac cells, we used the whole cell voltage-clamp technique to investigate the role of intracellular ATP in pig, rat, and guinea pig isolated ventricular myocytes. I_MIC, studied in the presence or absence of extracellular divalent cations, was sustained for 50 min after patch rupture in ATP-dialyzed cells, whereas in ATP-depleted cells I_MIC exhibited complete rundown. Equimolar substitution of internal ATP by its nonhydrolyzable analog adenosine 5'-(,-imido)triphosphate failed to prevent rundown. In ATP-depleted cells, inhibition of lipid phosphatases by fluoride + vanadate + pyrophosphate prevented I_MIC rundown. In contrast, under similar conditions neither the inhibition of protein phosphatases 1, 2A, 2B or of protein tyrosine phosphatase nor the activation of protein kinase A (forskolin, 20 µM) or protein kinase C (phorbol myristate acetate, 100 nM) could prevent rundown. In ATP-loaded cells, depletion of phosphatidylinositol 4,5-bisphosphate (PIP₂) by prevention of its resynthesis (10 µM wortmannin or 15 µM phenylarsine oxide) induced rundown of I_MIC. Finally, loading ATP-depleted cells with exogenous PIP₂ (10 µM) prevented rundown. These results suggest that PIP₂, likely generated by ATP-utilizing lipid kinases, is necessary for maintaining cardiac MIC channel activity. cation channels; hydrolysis; phosphoinositides; rundown     

EFFECTS OF TEMPERATURE ON CHRONIC HYPOXIA TOLERANCE IN THE NON-INDIGENOUS BROWN MUSSEL, PERNA PERNA (BIVALVIA: MYTILIDAE) FROM THE TEXAS GULF OF MEXICO

Effects of temperature (15°, 20° and 25°C), O₂ partialpressure (P_O2=0, 1, 2, 4, and 6 kPa), and individual size(12–79 mm shell length; SL) on survivorship of specimensof the non-indigenous, marine, brown mussel, Perna perna, fromTexas were investigated to assess its potential distributionin North America. Its hypoxia tolerance was temperature-dependent,survivorship being significantly extended at lower temperaturesunder all tested lethal P_O2. Incipient tolerated P_O2 was 4 and6 kPa at 15 and 20°C, respectively, with >50% mortalityoccurring at 25°C at all tested levels of hypoxia. P_O2 hadless of an effect on survival of hypoxia than temperature. At25°C, survivorship was not different over a P_O2 range of0–2 kPa and increased only at 4 and 6 kPa. Survivorshipwas size-dependent. Median survival times increased with increasingSL in anoxia and P_O2=1 kPa, but at 2, 4 and 6 kPa,smaller individuals survived longer than larger individuals.With tolerance levels similar to other estuarine bivalve species,P. perna should withstand hypoxia encountered in estuarine environments.Thus, its restriction to intertidal rocky shores may be dueto other parameters, particularly its relatively low temperaturetolerance. (Received 26 January 2004; accepted 31 March 2005)     

Cu2+-induced modification of the kinetics of A beta(1-42) channels

We found that the amyloid peptide A(1-42) is capable of interacting with membrane and forming heterogeneous ion channels in the absence of any added Cu²⁺ or biological redox agents that have been reported to mediate A(1-42) toxicity. The A(1-42)-formed cation channel was inhibited by Cu²⁺ in cis solution ([Cu²⁺]_cis) in a voltage- and concentration-dependent manner between 0 and 250 µM. The [Cu²⁺]_cis-induced channel inhibition is fully reversible at low concentrations between 50 and 100 µM [Cu²⁺]_cis and partially reversible at 250 µM [Cu²⁺]_cis. The inhibitory effects of [Cu²⁺]_cis between 50 and 250 µM on the channel could not be reversed with addition of Cu²⁺-chelating agent clioquinol (CQ) at concentrations between 64 and 384 µM applied to the cis chamber. The effects of 200-250 µM [Cu²⁺]_cis on the burst and intraburst kinetic parameters were not fully reversible with either wash or 128 µM [CQ]_cis. The kinetic analysis of the data indicate that Cu²⁺-induced inhibition was mediated via both desensitization and an open channel block mechanism and that Cu²⁺ binds to the histidine residues located at the mouth of the channel. It is proposed that the Cu²⁺-binding site of the A(1-42)-formed channels is modulated with Cu²⁺ in a similar way to those of channels formed with the prion protein fragment PrP(106-126), suggesting a possible common mechanism for Cu²⁺ modulation of A and PrP channel proteins linked to neurodegenerative diseases. neurodegenerative diseases; transitional metals; ion channel pathologies; membrane injuries; calcium homeostasis     

Distinct K+ conductive pathways are required for Cl- and K+ secretion across distal colonic epithelium

Secretion of Cl^– and K⁺ in the colonic epithelium operates through a cellular mechanism requiring K⁺ channels in the basolateral and apical membranes. Transepithelial current [short-circuit current (I_sc)] and conductance (G_t) were measured for isolated distal colonic mucosa during secretory activation by epinephrine (Epi) or PGE₂ and synergistically by PGE₂ and carbachol (PGE₂ + CCh). TRAM-34 at 0.5 µM, an inhibitor of K_Ca3.1 (IK, Kcnn4) K⁺ channels (H. Wulff, M. J. Miller, W. Hänsel, S. Grissmer, M. D. Cahalan, and K. G. Chandy. Proc Natl Acad Sci USA 97: 8151–8156, 2000), did not alter secretory I_sc or G_t in guinea pig or rat colon. The presence of K_Ca3.1 in the mucosa was confirmed by immunoblot and immunofluorescence detection. At 100 µM, TRAM-34 inhibited I_sc and G_t activated by Epi (4%), PGE₂ (30%) and PGE₂ + CCh (60%). The IC₅₀ of 4.0 µM implicated involvement of K⁺ channels other than K_Ca3.1. The secretory responses augmented by the K⁺ channel opener 1-EBIO were inhibited only at a high concentration of TRAM-34, suggesting further that K_Ca3.1 was not involved. Sensitivity of the synergistic response (PGE₂ + CCh) to a high concentration TRAM-34 supported a requirement for multiple K⁺ conductive pathways in secretion. Clofilium (100 µM), a quaternary ammonium, inhibited Cl^– secretory I_sc and G_t activated by PGE₂ (20%) but not K⁺ secretion activated by Epi. Thus Cl^– secretion activated by physiological secretagogues occurred without apparent activity of K_Ca3.1 channels but was dependent on other types of K⁺ channels sensitive to high concentrations of TRAM-34 and/or clofilium. epinephrine; prostaglandin E₂; cholinergic; Kcnn4; TRAM-34; clofilium     

Nitric oxide regulates oxygen uptake and hydrogen peroxide release by the isolated beating rat heart

Isolated rat heart perfused with 1.5-7.5µM NO solutions or bradykinin, which activates endothelial NOsynthase, showed a dose-dependent decrease in myocardial O₂uptake from 3.2 ± 0.3 to 1.6 ± 0.1 (7.5 µM NO, n = 18,P < 0.05) and to 1.2 ± 0.1 µM O₂ · min¹ · gtissue¹ (10 µM bradykinin, n = 10,P < 0.05). Perfused NO concentrations correlated with aninduced release of hydrogen peroxide (H₂O₂) inthe effluent (r = 0.99, P < 0.01). NO markedlydecreased the O₂ uptake of isolated rat heart mitochondria(50% inhibition at 0.4 µM NO, r = 0.99,P < 0.001). Cytochrome spectra in NO-treated submitochondrial particles showed a double inhibition of electron transfer at cytochrome oxidase and between cytochrome b andcytochrome c, which accounts for the effects in O₂uptake and H₂O₂ release. Most NO was bound tomyoglobin; this fact is consistent with NO steady-state concentrationsof 0.1-0.3 µM, which affect mitochondria. In the intact heart,finely adjusted NO concentrations regulate mitochondrial O₂uptake and superoxide anion production (reflected byH₂O₂), which in turn contributes to thephysiological clearance of NO through peroxynitrite formation.

     

Fluid pressure in human dermal fibroblast aggregates measured with micropipettes

Previous studies indicated that connective tissue cells in dermis are involved in control of interstitial fluid pressure (P_if). We wanted to develop and characterize an in vitro model representative of loose connective tissue to study dynamic changes in fluid pressure (P_f) over a time course of a few minutes. P_f was measured with micropipettes in human dermal fibroblast cell aggregates of varying size (<100- and >100-µm diameter) and age (days 1-4) kept at different temperatures (15, 25, and 35°C). Pressures were measured at different depths of micropipette penetration and after treatment with prostaglandin E₁ isopropyl ester (PGE₁), latanoprost (PGF₂), and ouabain. P_f was positive (more than +2 mmHg) during control conditions and increased with increasing aggregate size (day 2), age (day 4 vs. day 1), temperature, and depth of micropipette penetration. P_f decreased from 2.9 to 2.0 mmHg during the first 10 min after application of 10 µl of 1 mM PGE₁ (P < 0.001). P_f increased from 3.0 to 4.8 mmHg (P < 0.01) after administration of 10 µl of 1.4 µM ouabain and from 3.1 to 4.4 mmHg after addition of 5 µl of 1.42 mM PGF₂ (P > 0.05). In conclusion, we have developed and validated a new in vitro method for studying fluid pressure in loose connective tissue elements with the advantage of allowing reliable and rapid screening of substances that have a potential to modify P_f and studying in more detail specific cell types involved in control of P_f. This study also provides evidence that fibroblasts in the connective tissue can actively modulate P_f. micropuncture; prostaglandin E₁; prostaglandin F₂; ouabain; integrins     

Growth Response to Salinity at High Levels of Carbon Dioxide

Plants of the C₃ species Phaseolus vulgaris and Xanthium strumariumand of the C₄ salt-sensitive Zea mays and the C₄ halophyte Atriplexhalimus were grown with and without NaCl salt-stress at normal(340 µl I^–1) and at high (2500 µl I^–1)ambient CO₂. In all four species growth (dry weight increment)was enhanced by CO₂ supplementation. The relative response wasgreater in the salinized than in the control plants. Plant topsresponded more to CO, than the roots. CO₂ supplementation appearsto increase plant tolerance of low levels of salinity. Key words: Salinity, CO₂, Growth     

Characterization of Sulfate Transport in the Green Alga Chlorella ellipsoidea

A rapid induction of sulfate transport was observed in the greenalga Chlorella ellipsoidea during sulfur-limited growth. Bothaffinity and V_max increased about five-fold within 6 h of transferringcells from Bold's basal medium with 350 µM MgSO₄ to sulfur-deficientBold's medium. High affinity sulfate transport was induced within15 min and reached maximum rate within 3 h of transferring cellsto sulfur-deficient condition, indicating that a new, high-affinity-sulfatetransport system is induced by sulfur starvation in C. ellipsoidea.Eadie-Hofstee plots of initial rates of sulfate uptake indicatedthat the K of sulfur-starved cells was about 17 µM. Bothsulfur-starved and unstarved cells grown in air had a V_max of1.5 times higher than that of high-CO₂ grown cells. Sulfatetransport was completely inhibited by 30 µM CCCP or 800µMKCN both in the light and the dark but transport in the lightwas not inhibited by 20 µM DCMU. Treatment with 50 µMor 500 µM vanadate caused 50% inhibition of uptake. Therate of sulfate uptake in the dark was twice that in the lightand was stimulated by low pH. These results suggest that thesulfate transport system in C. ellipsoidea is operated by protonsymport across the plasmamembrane which is partially mediatedby P-type ATPase and that these systems depend exclusively onenergy derived from oxidative phosphorylation in the mitochondria. (Received June 28, 1995; Accepted August 8, 1995)     

On the causes of interspecific differences in the growth-irradiance relationship for phytoplankton. II. A general review

The causes of interspecific differences in the µ-l relationshipare examined in the context of a mechanistic model which relatesµ to irradiance in terms of six factors:, k_c photosyntheticquotient (PQ), Chl a:C, respiration and excretion. The effectof cell size on the light saturated growth rate is also considered.It is shown that photosynthetic efficiency and PQ exhibit remarkablylittle interspecific variability, and average 0.024 ±0.005 µg C(µg Chl a)^–1 h^–1 (µEm^–2 s^–1)^–1 and 1.5 ± 0.2 mol 02 molC^–1 (when NO₃^– is the nitrogen source) respectively.Two useful relationships were derived: (i) between growth efficiency,_g and Chl a:C at µ. = 0; (ii) between the compensationintensity, I_c and the Chl a-specific maintenance respirationrate. Both relationships were independent of temperature anddaylength. Species best adapted to growth at low light werefound to exhibit high Chl a:C ratios and low maintenance respirationrates. As a group, diatoms were consistently the best adaptedfor growth at low irradiance. Chiorophytes, haptophytes, chrysophytesand cryptophytes were intermediate in their performance at lowirradiance. Dinoflagellates exhibited extreme diversity, withspecies spanning the spectrum from very good performance atlow irradiance to very poor. A new µ_max-cell carbon relationshipis given based on growth rates normalized to 15°C. Evidenceis presented to show that noise in this relationship can besignificantly reduced by using only carbon-specific growth ratesand using only data for species grown at the same daylength.     

Potent inhibition of the aortic smooth muscle maxi-K channel by clinical doses of ethanol

We investigated the effects ofclinically relevant ethanol concentrations (5-20 mM) on thesingle-channel kinetics of bovine aortic smooth muscle maxi-K channelsreconstituted in lipid bilayers (1:1palmitoyl-oleoyl-phosphatidylethanolamine:palmitoyl-oleoyl-phosphatidylcholine). Ethanol at 10 and 20 mMdecreased the channel open probability (P_o) by75 ± 20.3% mainly by increasing the mean closed time (+82 to+960%, n = 7). In some instances, ethanol alsodecreased the mean open time (40.8 ± 22.5%). TheP_o-voltage relation in the presence of 20 mMethanol exhibited a rightward shift in the midpoint of voltageactivation (V_1/2  17 mV), a slightlysteeper relationship (change in slope factor, k,  2.5 mV), and a decreased maximum P_o (from~0.82 to ~0.47). Interestingly, channels inhibited by ethanol atlow Ca²⁺ concentrations (2.5 µM) were veryresistant to ethanol in the presence of increased Ca²⁺ ( 20 µM). Alcohol consumption in clinically relevant amounts may alterthe contribution of maxi-K channels to the regulation of arterial tone.

     

Ovine male genital duct epithelial cells differentiate in vitro and express functional CFTR and ENaC

To investigate the biology of the malegenital duct epithelium, we have established cell cultures from theovine vas deferens and epididymis epithelium. These cells develop tightjunctions, high transepithelial electrical resistance, and alumen-negative transepithelial potential difference as a sign of activetransepithelial ion transport. In epididymis cultures the equivalentshort-circuit current (I_sc) averaged 20.8 ± 0.7 µA/cm² (n = 150) and was partially inhibited byapical application of amiloride with an inhibitor concentration of 0.64 µM. In vas deferens cultures, I_sc averaged 14.4 ± 1.1 µA/cm² (n = 18) and was also inhibited byapical application of amiloride with a half-maximal inhibitorconcentration (K_i) of 0.68 µM. The remainingamiloride-insensitive I_sc component in epididymisand vas deferens cells was partially inhibited by apical application ofthe Cl channel blocker diphenylamine-2-carboxylicacid (1 mM). It was largely dependent on extracellularCl and, to a lesser extent, on extracellularHCO₃. It was further stimulated bybasolateral application of forskolin (10⁵ M), which increasedI_sc by 3.1 ± 0.3 µA/cm² (n=65) in epididymis and 0.9 ± 0.1 µA/cm² (n =11) in vas deferens. These findings suggest that cultured ovine vasdeferens and epididymis cells absorb Na⁺ viaamiloride-sensitive epithelial Na⁺ channels (ENaC) andsecrete Cl and HCO₃via apical cystic fibrosis transmembrane conductance regulator (CFTR)Cl channels. This interpretation is supported byRT-PCR data showing that vas deferens and epididymis cells express CFTRand ENaC mRNA.

     

AN f-TYPE CYTOCHROME FROM CHLORELLA VULGARIS

A method for isolating an f-type cytochrome (Chlorella cytochrome554) from Chlorella vulgaris var. viridis (CHODAT) utilizingN, N-diethylaminoethylcellulose is described. The spectrum ofreduced Chlorella cyt. 554 has absorption maxima at 554 mµ(-band), 524 mµ (ß-band), 417 mµ (SORETband), 352 mµ, 319 mµ and 277 mµ (proteinband). The oxidized form has absorption maxima at 554mµ530 mµ, (ß-band), 412 mµ (SORET band),360mµ 322 mµ and 275 mµ (protein band). Thespectral characteristics resembled other f-type cytochromes,e. g. in the high SORET to -extinction ratio (6.8) and an asymmetric-absorption band (especially at liquid N₂ temperature) ; butcharacteristic differences were present. Mitochondria from whitelupine seedlings and sweet potato roots reduced Chlorella cyt.554. From the effects of antimycin A and 2-heptyl-4-hydroxyquinolineN-oxide it appears that Chlorella cyt. 554 was reduced sequentiallybefore cytochrome a+a₃ and near the level of the cytochromesof the b type. Oxidation was slow using lupine mitochondriaand nil with sweet potato mitochondria. The oxidation-reductionpotential at pH 7.2 and 30? was 0.35 V. Ascorbate, cysteine,glutathione and Na₂S₂O₄ readily reduced Chlorella cyt. 554.The cytochrome was not autoxidizable and was slowly oxidizedby excess potassium ferricyanide. The reduced form did not reactwith CO and was not adsorbed by IRC-50 or Cellex-P cation exchangers. ¹ Temporary address until September 1961: Department of HorticulturalScience, University of California, Los Angeles 24, California,U. S. A. ² Present address: Plant Industry Station, Pioneering ResearchLaboratory, Marketing Quality Research Division, AgriculturalMarketing Service, Beltsville, Maryland, U. S. A. (Received January 16, 1961; )     

Paradoxical helium and sulfur hexafluoride single-breath washouts in short-term vs. sustained microgravity

Lauzon, Anne-Marie, G. Kim Prisk, Ann R. Elliott, SylviaVerbanck, Manuel Paiva, and John B. West. Paradoxical helium andsulfur hexafluoride single-breath washouts in short-term vs. sustainedmicrogravity. J. Appl. Physiol. 82(3):859-865, 1997.During single-breath washouts in normal gravity (1 G), the phase III slope of sulfur hexafluoride(SF₆) is steeper than that ofhelium (He). Two mechanisms can account for this:1) the higher diffusivity of Heenhances its homogeneous distribution; and2) the lower diffusivity ofSF₆ results in a more peripherallocation of the diffusion front, where airway asymmetry is larger.These mechanisms were thought to be gravity independent. However, weshowed during the Spacelab Life Sciences-2 spaceflight that insustained microgravity (µG) theSF₆-to-He slope difference isabolished. We repeated the protocol during short periods (27 s) of µG(parabolic flights). The subjects performed a vital-capacityinspiration and expiration of a gas containing 5% He-1.25%SF₆-balanceO₂. As in sustained µG, thephase III slopes of He and SF₆decreased. However, during short-term µG, theSF₆-to-He slope differenceincreased from 0.17 ± 0.03%/l in 1 G to 0.29 ± 0.06%/l inµG, respectively. This is contrary to sustained µG, in which theSF₆-to-He slope difference decreased from 0.25 ± 0.03%/l in 1 G to 0.01 ± 0.06%/lin µG. The increase in phase III slope difference in short-term µGwas caused by a larger decrease of He phase III slope compared with that in sustained µG. This suggests that changes in peripheral gasmixing seen in sustained µG are mainly due to alterations in thediffusive-convective inhomogeneity of He that require >27 s of µGto occur. Changes in pulmonary blood volume distribution or cardiogenicmixing may explain the differences between the results found inshort-term and sustained µG.

     

The Rate of Photosynthesis in Isolated Chloroplasts

Chloroplasts were isolated using aqueous and nonaqueous procedures.Aqueous chloroplasts lost approximately 50 per cent, of theirsoluble proteins during isolation. Nonaqueous chloroplasts retainedall their soluble enzymes, but lost their ability to performthe light reactions of photosynthesis. It was possible to reconstitutea chloroplast system of higher activity by adding soluble enzymesfrom nonaqueous chloroplasts to protein-deficient aqueous chloroplasts.The properties of the reconstituted chloroplast system wereas follows: 1. The CO₂ fixation rate of the reconstituted chloroplast system( 4 µM./. chlorophyll/hr.) was 3–4 times that ofthe aqueous chloroplasts ( I µM./. chlorophyll/hr.). Thefixation of aqueous chloroplasts isapparently limited in partby lack of soluble enzymes. 2. During light-fixation, the reconstituted chloroplast systemaccumulated PGA. This indicates that the reduction of PGA totriosephosphate is a rate-limiting step in this system. 3. It was possible to increase the CO₂ fixation to 12 µM.CO₂/mg. chlorophyll/ hr. by addition of ATP and TPNH to thesystem, but the reduction of PGA was still rate-limiting. 4. Further increase in the fixation rate was obtained by concentratingthe reaction mixture. Part of the striking differences of theCO₂-fixing capabilities of chloroplasts in vivo and in vitrois caused by dilution effects. Extrapolation of the dilutioneffect to the protein concentration which exists in chloroplastsyields a CO₂ fixation rate of approximately 30 µM./mg.chlorophyll/hr. 5. Inhibitors which are located in vivo outside the chloroplastsaffect the CO₂ fixation in vitro. 6. Under consideration of the examined factors which influencethe CO₂ fixation of isolated chloroplasts, it is possible toraise the fixation from approximately 1 per cent, to at least15 per cent, of the fixation in vivo.     

Genistein activates CFTR-mediated Cl(-) secretion in the murine trachea and colon

The action of the isoflavonegenistein on the cystic fibrosis transmembrane conductance regulator(CFTR) has been studied in many cell systems but not in intact murinetissues. We have investigated the action of genistein on murine tissuesfrom normal and cystic fibrosis (CF) mice. Genistein increased theshort-circuit current (I_sc) in tracheal(16.4 ± 2.8 µA/cm²) and colonic (40.0 ± 4.4 µA/cm²) epithelia of wild-type mice. This increase wasinhibited by furosemide, diphenylamine-2-carboxylate, andglibenclamide, but not by DIDS. In contrast, genistein produced nosignificant change in the I_sc of the trachealepithelium (0.9 ± 1.1 µA/cm²) and decreased theI_sc of colons from CF null (13.1 ± 2.3 µA/cm²) and F508 mice (10.3 ± 1.3 µA/cm²). Delivery of a human CFTRcDNA-liposome complex to the airways of CF null mice restored thegenistein response in the tracheas to wild-type levels. Tracheas fromF508 mice were also studied: 46% of trachea showed no response togenistein, whereas 54% gave an increase in I_scsimilar to that in wild type. We conclude that genistein activatesCFTR-mediated Cl secretion in the murine trachea anddistal colon.

     

Transport of thiamine in human intestine: mechanism and regulation in intestinal epithelial cell model Caco-2

The present studyexamined the intestinal uptake of thiamine (vitaminB₁) using the human-derivedintestinal epithelial cells Caco-2 as an in vitro model system.Thiamine uptake was found to be 1)temperature and energy dependent and occurred with minimal metabolicalteration; 2) pH sensitive;3)Na⁺ independent;4) saturable as a function ofconcentration with an apparent Michaelis-Menten constant of 3.18 ± 0.56 µM and maximal velocity of 13.37 ± 0.94 pmol · mgprotein¹ · 3 min¹;5) inhibited by the thiaminestructural analogs amprolium and oxythiamine, but not by unrelatedorganic cations tetraethylammonium, N-methylnicotinamide, and choline; and6) inhibited in a competitive mannerby amiloride with an inhibition constant of 0.2 mM. The role ofspecific protein kinase-mediated pathways in the regulation of thiamineuptake by Caco-2 cells was also examined using specific modulators ofthese pathways. The results showed possible involvement of aCa²⁺/calmodulin (CaM)-mediatedpathway in the regulation of thiamine uptake. No role for proteinkinase C- and protein tyrosine kinase-mediated pathways in theregulation of thiamine uptake was evident. These results demonstratethe involvement of a carrier-mediated system for thiamine uptake byCaco-2 intestinal epithelial cells. This system isNa⁺ independent and is differentfrom the transport systems of organic cations. Furthermore, aCaM-mediated pathway appears to play a role in regulating thiamineuptake in these cells.

     

Rabbit conjunctival epithelium transports fluid, and P2Y22 receptor agonists stimulate Cl{-} and fluid secretion

Rabbit conjunctival epithelium exhibits UTP-dependentCl secretion into the tears. We investigated whetherfluid secretion also takes place. Short-circuit current(I_sc) was 14.9 ± 1.4 µA/cm²(n = 16). Four P2Y₂ purinergic receptoragonists [UTP and the novel compounds INS365, INS306, and INS440(Inspire Pharmaceuticals)] added apically (10 µM) resulted intemporary (~30 min) I_sc increases (88%, 66%,57%, and 28%, respectively; n = 4 each). Importantly, the conjunctiva transported fluid from serosa to mucosa at a rate of6.5 ± 0.7 µl · h¹ · cm² (range2.1-15.3, n = 20). Fluid transport was stimulatedby mucosal additions of 10 µM: 1) UTP, from 7.4 ± 2.3 to 10.7 ± 3.3 µl · h¹ · cm²,n = 5; and 2) INS365, from 6.3 ± 1.0 to 9.8 ± 2.5 µl · h¹ · cm²,n = 5. Fluid transport was abolished by 1 mMouabain (n = 5) and was drastically inhibited by 300 µM quinidine (from 6.4 ± 1.2 to 3.6 ± 1.0 µl · h¹ · cm²,n = 4). We conclude that this epithelium secretes fluidactively and that P2Y₂ agonists stimulate bothCl and fluid secretions.

     

Food and suspended sediment influences on the naupliar and copepodid durations of freshwater copepods: comparative studies on Tropodiaptomus and Metadiaptomus

Post-embryonic durations of Tropodiaptomus spectabilis (Kiefer)and Metadiaptomus colonialis(van Douwe) were determined at 20°Cin laboratory factorial experiments involving four algal foodenrichment levels (0, 100, 500 and 2500 µg l^–1 Cof Selenastrum added to 20 µm filtered water from respectivesource-lakes) and three suspended sediment levels (filtered,natural, and 2- to 3-fold sediment-enriched lake water). Foodeffects (30, 75, 225 and 600 (µg ^–1 C of Scenedesmus)were tested alone at 20°C for Metadiaptomus meridianus (vanDouwe). Total naupliar (D_n) and total copepodid (D_c) developmenttimes [summed to give total post-embryonic duration (D_t)] andmetasome lengths at maturity were measured In all taxa, foodsupply maximally affected D_c values 2- to 3-fold, whereas itsmaximal influence on D_n values was relatively slight (generally25%). The measured effect of food supply on D_t, was as strongas the predicted influence of temperature over an appropriateannual range. Food supply influenced size at maturity, and probablythereby fecundity, thus exerting additional demographic influences.Sediment effects were inconsistent, and quantitatively weakerthan food effects Total development of T.spectabilis was 20%raster, and that of M.colonialis 15% slower in sediment-enrichedthan in natural sediment level treatments; contrasting baselinesediment levels (2–3 times higher for the latter species)and different enrichment procedures confound interpretation.Unexpectedly, and inexplicably, development almost invariablyfailed in sediment-free water, implying an apparent dependencyon inorganic particles in these taxa This contrasts with thegenerally adverse influences of high sediment concentrationsupon zooplankton. Minimal male and female D_t values at 20°Cwere comparable and significantly longer in M.colonialis (15.5and 17 7 days) and M meridianus (16.5 and 21.5 days) than inT.spectabilis (11.7 and 12 2 days). These differences in durationare ecologically incongruous in relation to expected r –K life history strategies of genera characteristic of temporaryor semipermanent waters and permanent waters respectively.     

Intermediate-conductance Ca2+-activated K+ channel is expressed in C2C12 myoblasts and is downregulated during myogenesis

We report here the expression in C₂C₁₂ myoblasts of the intermediate-conductance Ca²⁺-activated K⁺ (IK_Ca) channel. The IK_Ca current, recorded under perforated-patch configuration, had a transient time course when activated by ionomycin (0.5 µM; peak current density 26.2 ± 3.7 pA/pF; n = 10), but ionomycin (0.5 µM) + 5,6-dichloro-1-ethyl-1,3-dihydro-2H-benzimidazol-2-one (100 µM) evoked a stable outward current (28.4 ± 8.2 pA/pF; n = 11). The current was fully inhibited by charybdotoxin (200 nM), clotrimazole (2 µM), and 5-nitro-2-(3-phenylpropylamino)benzoic acid (300 µM), but not by tetraethylammonium (1 mM) or D-tubocurarine (300 µM). Congruent with the IK_Ca channel, elevation of intracellular Ca²⁺ in inside-out patches resulted in the activation of a voltage-insensitive K⁺ channel with weak inward rectification, a unitary conductance of 38 ± 6 pS (at negative voltages), and an IC₅₀ for Ca²⁺ of 530 nM. The IK_Ca channel was activated metabotropically by external application of ATP (100 µM), an intracellular Ca²⁺ mobilizer. Under current-clamp conditions, ATP application resulted in a membrane hyperpolarization of 35 mV. The IK_Ca current downregulated during myogenesis, ceasing to be detectable 4 days after the myoblasts were placed in differentiating medium. Downregulation was prevented by the myogenic suppressor agent basic FGF (bFGF). We also found that block of the IK_Ca channel by charybdotoxin did not inhibit bFGF-sustained myoblast proliferation. These observations show that in C₂C₁₂ myoblasts the IK_Ca channel expression correlates inversely with differentiation, yet it does not appear to have a role in myoblast proliferation. ATP; cell proliferation