H2O2 increases sheep tracheal blood flow, permeability, and vascular response to luminal capsaicin

Wells, U. M., S. Duneclift, and J. G. Widdicombe.H₂O₂increases sheep tracheal blood flow, permeability, and vascular response to luminal capsaicin. J. Appl.Physiol. 82(2): 621-631, 1997.Exogenous hydrogenperoxide(H₂O₂)causes airway epithelial damage in vitro. We have studied the effectsof luminalH₂O₂in the sheep trachea in vivo on tracheal permeability tolow-molecular-weight hydrophilic (technetium-99m-labeleddiethylenetriamine pentaacetic acid;^99mTc-DTPA) and lipophilic([¹⁴C]antipyrine;[¹⁴C]AP) tracers andon the tracheal vascular response to luminal capsaicin, whichstimulates afferent nerve endings. A tracheal artery was perfused, andtracheal venous blood was collected. H₂O₂exposure (10 mM) reduced tracheal potential difference(42.0 ± 6.4 mV) to zero. It increased arterial andvenous flows (56.7 ± 6.1 and 57.3 ± 10.0%,respectively; n = 5, P < 0.01, paired t-test) but not tracheal lymph flow(unstimulated flow 5.0 ± 1.2 µl ^· min^{1 ·} cm¹,n = 4). DuringH₂O₂exposure, permeability to ^99mTc-DTPA increased from2.6 to 89.7 × 10⁷ cm/s(n = 5, P < 0.05), whereas permeability to[¹⁴C]AP (3,312.6 × 10⁷ cm/s,n = 4) was not altered significantly(2,565 × 10⁷cm/s). Luminal capsaicin (10 µM) increased tracheal blood flow (10.1 ± 4.1%, n = 5)and decreased venous ^99mTc-DTPAconcentration (19.7 ± 4.0, P < 0.01), and these effects weresignificantly greater after epithelial damage (28.1 ± 6.0 and45.7 ± 4.3%, respectively,P < 0.05, unpairedt-test). Thus H₂O₂increases the penetration of a hydrophilic tracer into tracheal bloodand lymph but has less effect on a lipophilic tracer. It also enhancesthe effects of luminal capsaicin on blood flow and tracer uptake.

     

Mast cell activation is not required for induction of airway hyperresponsiveness by ozone in mice

Exposure to ambient ozone(O₃) is associated withincreased exacerbations of asthma. We sought to determine whether mastcell degranulation is induced by in vivo exposure toO₃ in mice and whether mast cellsplay an essential role in the development of pulmonarypathophysiological alterations induced byO₃. For this we exposed mastcell-deficientWBB6F₁-kit^W/kit^W-v(kit^W/kit^W-v)mice and the congenic normalWBB6F₁ (+/+) mice to air or to 1 or 3 parts/million O₃ for 4 h andstudied them at different intervals from 4 to 72 h later. We foundevidence of O₃-induced cutaneous,as well as bronchial, mast cell degranulation. Polymorphonuclear cellinflux into the pulmonary parenchyma was observed after exposure to 1 part/milllion O₃ only in mice thatpossessed mast cells. Airway hyperresponsiveness to intravenousmethacholine measured in vivo under pentobarbital anesthesia wasobserved in bothkit^W/kit^W-vand +/+ mice after exposure to O₃.Thus, although mast cells are activated in vivo byO₃ and participate inO₃-induced polymorphonuclear cellinfiltration into the pulmonary parenchyma, they do not participate detectably in the development ofO₃-induced airwayhyperresponsiveness in mice.

     

Estimation of thickness of airwaysurface liquid in ferret trachea in vitro

Duneclift, S., U. Wells, and J. Widdicombe. Estimationof thickness of airway surface liquid in ferret trachea in vitro. J. Appl. Physiol. 83(3): 761-767, 1997.The tracheae of ferrets and rabbits were mounted in vitro inorgan baths. While the tracheae were liquid filled, the permeabilitycoefficient ( P) was determined, and then while thetracheae were air filled, the percent clearance for^99mTc-labeleddiethylenetriaminepentaacetic acid (DTPA) was determined. The thicknessof airway surface liquid (ASL) was estimated by three methods.1) The initial concentration of^99mTc-DTPA and the total amount of^99mTc-DTPA (the sum of thatentering the outside medium, that draining from the trachea, and thatwashed out at the end of 40 min) gave the initial volume of ASL andthus its thickness. Mean values were 45.7 µm for the ferret and 41.9 µm for the rabbit. 2) Estimates ofASL thickness at the end of the 40-min period, based on the final^99mTc-DTPA concentration and theamount in the washout, were 42.9 µm for ferret and 45.4 µm forrabbit. 3) The ratio of Pto percent clearance gave mean ASL thickness values of 49.2 µm forthe ferret and 40.3 µm for the rabbit. Thus three separate methodsfor determining ASL thickness give very similar results, with means inthe range 40-49 µm. Administration of methacholine or atropineto ferret tracheae did not significantly change ASL thickness.

     

ATP-dependent regulation of inwardly rectifying K+ current in bovine retinal pigment epithelial cells

Inwardlyrectifying K⁺ current(I_Kir) infreshly isolated bovine retinal pigment epithelial (RPE) cells wasstudied in the whole cell recording configuration of the patch-clamptechnique. When cells were dialyzed with pipette solution containing noATP, I_Kir randown completely in <10 min [half time(t_1/2) = 1.9 min]. In contrast, dialysis with 2 mM ATP sustainedI_Kir for 10 min or more. Rundown was also prevented with 4 mM GTP or ADP. When 0.5 mMATP was used,I_Kir ran down by~71%. Mg²⁺ was a criticalcofactor because rundown occurred when the pipette solution contained 4 mM ATP but no Mg²⁺(t_1/2 = 1.8 min).I_Kir also randown when the pipette solution contained 4 mMMg²⁺ + 4 mM5'-adenylylimidodiphosphate(t_1/2 = 2.7 min)or 4 mM adenosine 5'-O-(3-thiotriphosphate)(t_1/2 = 1.9 min),nonhydrolyzable and poorly hydrolyzable ATP analogs, respectively. Weconclude that the sustained activity ofI_Kirin bovine RPE requires intracellular MgATP and that the underlyingmechanism may involve ATP hydrolysis.

     

Nociceptive mechanisms modulate ozone-induced human lung function decrements

We have previously suggested that ozone(O₃)-induced pain-relatedsymptoms and inhibition of maximal inspiration are due to stimulationof airway C fibers (M. J. Hazucha, D. V. Bates, and P. A. Bromberg.J. Appl.Physiol. 67: 1535-1541, 1989). If this were so,pain suppression or inhibition by opioid-receptor agonists shouldpartially or fully reverseO₃-induced symptomatic and lung functional responses. The objectives of this study were to determine whether O₃-induced pain limitsmaximal inspiration and whether endogenous opioids contribute tomodulation of the effects of inhaledO₃ on lung function. Theparticipants in this double-blind crossover study were healthyvolunteers (18-59 yr) known to be "weak" (WR;n = 20) and "strong"O₃ responders (SR;n = 42). They underwent either two 2-hexposures to air or two 2-h exposures to 0.42 parts/millionO₃ with moderate intermittentexercise. Immediately afterpost-O₃ spirometry, the WR wererandomly given either naloxone (0.15 mg/kg iv) or saline, whereas SRrandomly received either sufentanil (0.2 µg/kg iv) or saline.O₃ exposure significantly(P < 0.001) impaired lung function.In SR, sufentanil rapidly, although not completely, reversed both thechest pain and spirometric effects (forced expiratory volume in 1 s;P < 0.0001) compared with saline.Immediate postexposure administration of saline or naloxone had nosignificant effect on WR. Plasma -endorphin levels were not relatedto an individual's O₃responsiveness. Cutaneous pain variables showed a nonsignificantweak association with O₃responsiveness. These observations demonstrate that nociceptive mechanisms play a key role in modulatingO₃-induced inhibition ofinspiration but not in causing lack of spirometric response toO₃ exposure in WR.

     

Two-photon molecular excitation imaging of Ca2+ transients in Langendorff-perfused mouse hearts

The ability to image calciumsignals at subcellular levels within the intact depolarizing heartcould provide valuable information toward a more integratedunderstanding of cardiac function. Accordingly, a system combiningtwo-photon excitation with laser-scanning microscopy was developed tomonitor electrically evoked [Ca²⁺]_itransients in individual cardiomyocytes within noncontracting Langendorff-perfused mouse hearts. [Ca²⁺]_itransients were recorded at depths 100 µm from the epicardial surface with the fluorescent indicators rhod-2 or fura-2 in the presence of the excitation-contraction uncoupler cytochalasin D. Evoked[Ca²⁺]_i transients were highly synchronizedamong neighboring cardiomyocytes. At 1 Hz, the times from 90 to 50%(t_90-50%) and from 50 to 10%(t_50-10%) of the peak[Ca²⁺]_i were (means ± SE) 73 ± 4 and 126 ± 10 ms, respectively, and at 2 Hz, 62 ± 3 and94 ± 6 ms (n = 19, P < 0.05 vs.1 Hz) in rhod-2-loaded cardiomyocytes.[Ca²⁺]_i decay was markedly slower infura-2-loaded hearts (t_90-50% at 1 Hz,128 ± 9 ms and at 2 Hz, 88 ± 5 ms;t_50-10% at 1 Hz, 214 ± 18 ms and at2 Hz, 163 ± 7 ms; n = 19, P < 0.05 vs. rhod-2). Fura-2-induced deceleration of[Ca²⁺]_i decline resulted from increasedcytosolic Ca²⁺ buffering, because the kinetics of rhod-2decay resembled those obtained with fura-2 after incorporation of theCa²⁺ chelator BAPTA. Propagating calcium waves and[Ca²⁺]_i amplitude alternans were readilydetected in paced hearts. This approach should be of general utility tomonitor the consequences of genetic and/or functional heterogeneity incellular calcium signaling within whole mouse hearts at tissue depthsthat have been inaccessible to single-photon imaging.

     

Ozone enhances excitabilities of pulmonary C fibers to chemical and mechanical stimuli in anesthetized rats

Acute exposureto ozone (O₃) enhances pulmonarychemoreflex response to capsaicin, and an increased sensitivity ofbronchopulmonary C-fiber afferent endings may be involved. The presentstudy was aimed at determining the effect ofO₃ on the responses of pulmonary Cfibers to chemical and mechanical stimuli. A total of 31 C fibers werestudied in anesthetized, open-chest, and vagotomized rats. Duringcontrol, right atrial injection of a low dose of capsaicin abruptlyevoked a short and mild burst of discharge [0.77 ± 0.28 impulses (imp)/s, 2-s average]. After acute exposure toO₃ (3 parts/million for 30 min),there was no significant change in arterial blood pressure, trachealpressure, or baseline activity of C fibers. However, the stimulatoryeffect of the same dose of capsaicin on these fibers was markedlyenhanced (6.05 ± 0.88 impulses/s;P < 0.01) and prolonged immediatelyafter O₃ exposure, and returnedtoward control in 54 ± 6 min. Similarly, the pulmonary C-fiberresponse to injection of a low dose of lactic acid was also elevatedafter O₃ exposure. Furthermore,O₃ exposure significantly potentiated the C-fiber response to constant-pressure (tracheal pressure = 30 cmH₂O) lunginflation (control: 0.19 ± 0.07 imp/s; afterO₃: 1.12 ± 0.26 imp/s;P < 0.01). In summary, these results show that the excitabilities of pulmonary C-fiber afferents to lunginflation and injections of chemical stimulants are markedly potentiated after acute exposure toO₃, suggesting a possible involvement of these afferents in theO₃-induced changes in breathing pattern and chest discomfort in humans.

     

Effect of reactive oxygen species on NH4+ permeation in Xenopus laevis oocytes

To investigate theeffects of reactive oxygen species (ROS) on NHpermeation in Xenopus laevis oocytes, we used intracellulardouble-barreled microelectrodes to monitor the changes in membranepotential (V_m) and intracellular pH(pH_i) induced by a 20 mM NH₄Cl-containingsolution. Under control conditions, NH₄Cl exposure induceda large membrane depolarization (to V_m = 4.0 ± 1.5 mV; n = 21) and intracellularacidification [reaching a change in pH_i(pH_i) of 0.59 ± 0.06 pH units in 12 min]; theinitial rate of cell acidification (dpH_i/dt) was0.06 ± 0.01 pH units/min. Incubation of the oocytes in thepresence of H₂O₂ or -amyloid protein had nomarked effect on the NH₄Cl-induced pH_i. Bycontrast, in the presence of photoactivated rose bengal (RB),tert-butyl-hydroxyperoxide (t-BHP), orxanthine/xanthine oxidase (X/XO), the same experimental maneuverinduced significantly greater pH_i anddpH_i/dt. These increases in pH_iand dpH_i/dt were prevented by the ROS scavengershistidine and desferrioxamine, suggesting involvement of the reactivespecies ¹gO₂ and ·OH. Using thevoltage-clamp technique to identify the mechanism underlying theROS-measured effects, we found that RB induced a large increase in theoocyte membrane conductance (G_m). ThisRB-induced G_m increase was prevented by 1 mMdiphenylamine-2-carboxylate (DPC) and by a low Na⁺concentration in the bath. We conclude that RB, t-BHP, andX/XO enhance NH influx into the oocyte via activationof a DPC-sensitive nonselective cation conductance pathway.

     

Oxidative Damages and Repair in Euglena gracilis Exposed to Ozone II. Membrane Permeability and Uptake of Metabolites

Significant injuries to the plasma membrane were detected inEuglena gracilis cells during ozone exposure (240 µ1.liter¹,delivery rate of l µmol.min^–1), as assessed by measuringthe alterations of vitamin B₁₂ and acetate uptakes and the leakageof intracellular K⁺ (Rb⁺). A rapid decrease in the uptake ofvitamin B₁₂ and acetate was observed within 15 min of treatment,indicating that both transport systems are very sensitive toO₃. On the other hand, the leakage of intracellular K⁺ ions,as measured by the efflux of ⁸⁶Rb⁺ from prelabelled cells, couldonly be detected after 30 min of O₃ exposure. These resultssuggest that the initial metabolic symptoms of injury is atthe level of the two transport systems examined and that thealteration of the membrane permeability to K⁺ ions appears asa second step in the cascade of oxidative events at the plasmamembrane level. When Euglena cells were allowed to recover underautotrophic growth conditions following O₃ treatment, vitaminB₁₂ and ⁸⁶Rb⁺ (K⁺) ions uptakes returned gradually to controllevel within 5 h of the recovery period. Acetate uptake returnedto control level at a slower rate and needed 20 h for completerecovery. These results indicate that the cells were able toactively repair most of the initial oxidative damages inducedby O₃. The metabolic significance of the repair mechanism(s)is discussed. (Received December 25, 1989; Accepted July 23, 1990)     

E-C coupling failure in mouse EDL muscle after in vivo eccentric contractions

The objectives of this research were to determine thecontribution of excitation-contraction (E-C) coupling failure to the decrement in maximal isometric tetanic force(P_o) in mouse extensor digitorumlongus (EDL) muscles after eccentric contractions and to elucidatepossible mechanisms. The left anterior crural muscles of femaleICR mice (n = 164) wereinjured in vivo with 150 eccentric contractions.P_o, caffeine-,4-chloro-m-cresol-, andK⁺-induced contracture forces,sarcoplasmic reticulum (SR) Ca²⁺release and uptake rates, and intracellularCa²⁺ concentration([Ca²⁺]_i)were then measured in vitro in injured and contralateral control EDLmuscles at various times after injury up to 14 days. On the basis ofthe disproportional reduction inP_o (~51%) compared with caffeine-induced force (~11-21%), we estimate that E-C coupling failure can explain 57-75% of theP_o decrement from 0 to 5 days postinjury. Comparable reductions inP_o andK⁺-induced force (51%), and minorreductions (0-6%) in the maximal SRCa²⁺ release rate, suggest thatthe E-C coupling defect site is located at the t tubule-SR interfaceimmediately after injury. Confocal laser scanning microscopy indicatedthat resting[Ca²⁺]_iwas elevated and peak tetanic[Ca²⁺]_iwas reduced, whereas peak4-chloro-m-cresol-induced[Ca²⁺]_iwas unchanged immediately after injury. By 3 days postinjury, 4-chloro-m-cresol-induced[Ca²⁺]_ibecame depressed, probably because of decreased SRCa²⁺ release and uptake rates(17-31%). These data indicate that the decrease inP_o during the first several daysafter injury primarily stems from a failure in the E-C couplingprocess.

     

LY-294002-inhibitable PI 3-kinase and regulation of baseline rates of Na(+) transport in A6 epithelia

Blocker-inducednoise analysis of epithelial Na⁺ channels (ENaCs) was usedto investigate how inhibition of an LY-294002-sensitive phosphatidylinositol 3-kinase (PI 3-kinase) alters Na⁺transport in unstimulated and aldosterone-prestimulated A6 epithelia. From baseline Na⁺ transport rates(I_Na) of 4.0 ± 0.1 (unstimulated) and9.1 ± 0.9 µA/cm² (aldosterone), 10 µM LY-294002caused, following a relatively small initial increase of transport, acompletely reversible inhibition of transport within 90 min to 33 ± 6% and 38 ± 2% of respective baseline values. Initialincreases of transport could be attributed to increases of channel openprobability (P_o) within 5 min to 143 ± 17% (unstimulated) and 142 ± 10% of control (aldosterone) frombaseline P_o averaging near 0.5. Inhibition oftransport was due to much slower decreases of functional channeldensities (N_T) to 28 ± 4% (unstimulated)and 35 ± 3% (aldosterone) of control at 90 min. LY-294002 (50 µM) caused larger but completely reversible increases ofP_o (215 ± 38% of control at 5 min) andmore rapid but only slightly larger decreases ofN_T. Basolateral exposure to LY-294002 induced nodetectable effect on transport, P_o or N_T. We conclude that an LY-294002-sensitive PI3-kinase plays an important role in regulation of transport bymodulating N_T and P_o ofENaCs, but only when presented to apical surfaces of the cells.

     

Nitrogen-13 Studies of Nitrate Fluxes in Barley Roots: II. EFFECT OF PLANT N-STATUS ON THE KINETIC PARAMETERS OF NITRATE INFLUX

Influx of nitrate into the roots of intact barley plants wasfollowed over periods of 1–15 min using nitrogen-13 asa tracer. Based on measurements taken over 15 min from a rangeof external nitrate concentrations (0·2–250 mmolm^–3), the kinetic parameters of influx, I_max and K_m, werecalculated. Compared with plants grown in the presence of nitrate throughout,plants that had been starved of N for 3 d showed a significantlygreater value ofI_max for ¹³N-nitrate influx (by a factor of1·4–1·8), but a similar value of K_m (12–14mmol m^–3). Pre-treating N-starved plants with nitratefor about 5 h further increased the subsequent rate of ¹³N-nitrateinflux, but had little effect in the unstarved controls. Allowingfor this induction of additional nitrate transport, the differencein rates of nitrate influx in control and N-starved plants wassufficient to account for the previously-observed differencein net uptake by the two groups of plants. In barley plants grown without any exposure to nitrate, butwith ammonium as N-source, both I_max and K_m for subsequent ¹³N-nitrateinflux were significantly decreased (by about one-half) comparedwith the corresponding nitrate-grown controls. The importance of changes in the rate of influx in the regulationof net uptake of nitrate is discussed. Key words: Ion transport, nitrate, influx, kinetic parameters, N-deficiency     

Calcification in the Green Alga Halimeda: II. THE EXCHANGE OF CA2+ AND THE OCCURRENCE OF AGE GRADIENTS IN CALCIFICATION AND PHOTOSYNTHESIS

In Halimeda cylindracea and H. tuna segments, the concentrationof CaCO₃, MgCO₃, protein, and chlorophyll, as well as segmentvolume and wet and dry weight, increase with ‘age’i.e. from the apex of a branch downwards. Photosynthetic andcalcification rates decrease with age as does the degree oflight stimulation of calcification. Studies of the exchange of ⁴⁵Ca between the Halimeda thallusand the sea water under various conditions showed that mostof the Ca exchange is between the cell walls, the aragonitecrystals, and the intercellular space. The cell wall has twodistinguishable phases with half-times (t_0?5) of 200 and 35min while the CaCO₃ has a rapidly exchanging phase with a t_0?5of approximately 6 min. The t_0?5 of the exchange of Ca betweenthe intercellular space and the external medium is estimatedat about 6 min, on the basis of uptake studies. If the integrityof the barrier between the intercellular space and the externalsea water, created by the adpressed peripheral utricles is destroyedthe t_0?5 is smaller (<<3 min). These kinetic studies as well as comparative measurements ofcalcification rates by both isotopic and chemical methods showthat the ⁴⁵Ca method for measuring calcification rates overestimatesthe calcification rate, due to binding of ⁴⁵Ca in the cell wallsand retention of ⁴⁵Ca in the intercellular space. The ¹⁴C methodgives more accurate results and has the further advantage ofallowing simultaneous measurement of the photosynthetic andcalcification rate on the same segment.     

Differential effects of phorbol ester (PMA) on blocker-sensitive ENaCs of frog skin and A6 epithelia

Activation ofprotein kinase C with phorbol 12-myristate 13-acetate (PMA) causedcomplex transient perturbations of amiloride-sensitive short-circuitNa⁺ currents(I_Na) in A6epithelia and frog skins that were tissue and concentration dependent.A noninvasive channel blocker pulse method of noise analysis (18) wasused to investigate how PMA caused time-dependent changes of apicalmembrane epithelial Na⁺ channel(ENaC) single-channel currents, channel open probabilities (P_o), andchannel densities(N_T). In A6epithelia, 5 and 50 nM PMA caused within 7 min concentration-dependentsustained decreases ofP_o (~55% belowcontrol, 50 nM) and rapid compensatory transient increases ofN_T within 7 min(~220% above control, 50 nM), resulting in either small transientincreases of I_Naat 5 nM PMA or small biphasic decreases ofI_Na at 50 nM PMA.In contrast to A6 epithelia, 50 and 500 nM PMA in frog skin causedafter a delay of at least 10 min transient increases ofN_T to~60-70% above control at 30-60 min. Unlike A6 epithelia,P_o was increased~15% above control within 7 min and remained within±10-15% of control for the duration of the 2-h experiments.Despite differences in the time courses of secondary inhibition oftransport in A6 epithelia and frog skin, the delayed downregulation oftransport was due to time-dependent decreases ofN_T from theirpreelevated levels in both tissues. WhereasP_o is decreasedwithin minutes in A6 epithelia as measured by noise analysis or bypatch clamp (8), the discrepancy in regulation ofN_T in A6epithelia as measured by noise analysis and patch clamp is most likelyexplained by the inability of on-cell patches formed before treatmentof tissues with PMA to respond to regulation of their channeldensities.

     

Age-dependent response of the electrocardiogram to K(+) channel blockers in mice

Developmental changes in electrocardiogram (ECG) andresponse to selective K⁺ channelblockers were assessed in conscious, unsedated neonatal (days 1, 7, 14) and adult male mice(>60 days of age). Mean sinus R-R interval decreased from 120 ± 3 ms in day 1 to 110 ± 3 ms inday 7, 97 ± 3 ms inday 14, and 81 ± 1 ms in adultmice (P < 0.001 by ANOVA; all 3 groups different from day 1). Inparallel, the mean P-R interval progressively decreased duringdevelopment. Similarly, the mean Q-T interval decreased from 62 ± 2 ms in day 1 to 50 ± 2 ms inday 7, 47 ± 8 ms inday 14 neonatal mice, and 46 ± 2 ms in adult mice (P < 0.001 byANOVA; all 3 groups are significantly different fromday 1).Q-T_c was calculated asQ- interval.Q-T_c significantly shortened from179 ± 4 ms in day 1 to 149 ± 5 ms in day 7 mice(P < 0.001). In addition, the J junction-S-T segment elevation observed in day1 neonatal mice resolved by day14. Dofetilide (0.5 mg/kg), the selective blocker ofthe rapid component of the delayed rectifier(I_Kr) abolished S-T segment elevation and prolonged Q-T andQ-T_c intervals in day 1 neonates but not in adult mice.In contrast, 4-aminopyridine (4-AP, 2.5 mg/kg) had no effect onday 1 neonates but in adults prolongedQ-T and Q-T_c intervals andspecifically decreased the amplitude of a transiently repolarizingwave, which appears as an r' wave at the end of the apparent QRSin adult mice. In conclusion, ECG intervals and configuration changeduring normal postnatal development in the mouse.K⁺ channel blockers affect themouse ECG differently depending on age. These data are consistent withthe previous findings that the dofetilide-sensitiveI_Kr is dominantin day 1 mice, whereas 4-AP-sensitivecurrents, the transiently repolarizingK⁺ current, and the rapidlyactivating, slowly inactivating K⁺current are the dominant K⁺currents in adult mice. This study provides background information useful for assessing abnormal development in transgenic mice.

     

Inhibition of Nodule Development in Soybean by Nitrate or Reduced Nitrogen

Imsande, J. 1986. Inhibition of nodule development in soybeanby nitrate or reduced nitrogen.—J. exp. Bot. 37: 348–355. Nodulation of hydroponically grown soybean plants [Glycine max(L.) Merr.] is inhibited by continuous growth in the presenceof 4· mol m^–3 KNO₃ The presence of 4·0 molm^–3 ‘starter nitrate’ for 3-6 d during noduledevelopment, however, subsequently stimulates nodule dry weightaccumulation and nitrogenase activity. These stimulations occureven though 4· mol m^–3 nitrate temporarily delaysnodule development, i.e. the late steps of nodule developmentare reversibly inhibited by a short-term exposure to 4·0mol m^–3 nitrate. On the other hand, treatment with 4·0mol m^–3 nitrate in excess of 14 d significantly reducesnodule dry weight Thus, extended growth in the presence of 4·0mol m^–3 KNO₃ seems to block both early and late stepsof nodule development. Nodulation of hydroponically grown soybeansis also inhibited by continuous growth in the presence of 2·0mol m^–3 (NH₄)₂SO₄ This inhibition is not caused by acidityof the growth medium. On the other hand, nodule development6 d after inoculation with Rhizoblum japonicum is not delayedby a 7-d exposure to 2·0 mol m^–3 (NH₄)₂SO₄ butis partially inhibited by a prolonged exposure to (NH₄)₂SO₄Because repression of nodulation by 4·0 mol m^–3KNO₃ is more severe than that by 2·0 mol m^–3 (NH₄)₂SO₄and because ammonium taken up by the soybean plant is not activelyoxidized to nitrate, it is suggested that there are at leasttwo mechanisms by which nitrate utilization represses noduleformation in soybean. Key words: Glycine max, nitrogen, nitrogen fixation, nodulation     

Regulation of the epithelial Na+ channel by intracellular Na+

The hypothesis that the intracellularNa⁺ concentration([Na⁺]_i)is a regulator of the epithelialNa⁺ channel (ENaC) was tested withthe Xenopus oocyte expression systemby utilizing a dual-electrode voltage clamp.[Na⁺]_iaveraged 48.1 ± 2.2 meq (n = 27)and was estimated from the amiloride-sensitive reversal potential.[Na⁺]_iwas increased by direct injection of 27.6 nl of 0.25 or 0.5 MNa₂SO₄.Within minutes of injection,[Na⁺]_istabilized and remained elevated at 97.8 ± 6.5 meq(n = 9) and 64.9 ± 4.4 (n = 5) meq 30 min after theinitial injection of 0.5 and 0.25 MNa₂SO₄,respectively. This increase of[Na⁺]_icaused a biphasic inhibition of ENaC currents. In oocytes injected with0.5 MNa₂SO₄(n = 9), a rapid decrease of inwardamiloride-sensitive slope conductance(g_Na) to 0.681 ± 0.030 of control within the first 3 min and a secondary, slowerdecrease to 0.304 ± 0.043 of control at 30 min were observed.Similar but smaller inhibitions were also observed with the injectionof 0.25 MNa₂SO₄.Injection of isotonicK₂SO₄(70 mM) or isotonicK₂SO₄made hypertonic with sucrose (70 mMK₂SO₄-1.2M sucrose) was without effect. Injection of a 0.5 M concentration ofeitherK₂SO₄,N-methyl-D-glucamine (NMDG) sulfate, or 0.75 M NMDG gluconate resulted in a much smaller initial inhibition (<14%) and little or no secondary decrease. Thusincreases of[Na⁺]_ihave multiple specific inhibitory effects on ENaC that can betemporally separated into a rapid phase that was complete within 2-3 min and a delayed slow phase that was observed between 5 and 30 min.

     

Parallel airways inhomogeneity and lung tissue mechanics in transition to constricted state in rabbits

Toinvestigate whether changes of tissue resistance (Rti) duringmethacholine (MCh)-induced constriction correspond to an intrinsicmechanism or are an artifact of increased airways inhomogeneity, rabbits were studied after exposure to air(n = 7) or 1.5 parts/million O₃(n = 6). Animals were anesthetized andmechanically ventilated. Tracheal flow and pressure (Ptr) and fouralveolar capsule pressures (Pcap) were measured during 3 min afteradministration of an intrajugular bolus of 0.8 mg/ml MCh. By adjustmentof the equation of motion [P(t) = E · V(t) + R · dV(t)/dt + P₀] [whereP(t), V(t), and dV(t)/dt are pressure, volume, and flow as a function of time, respectively, Eis elastance, R is resistance, and P₀ is end-expiratorypressure] to Ptr, lung resistance(RL) and dynamic elastance(EL) were determined breath bybreath. Rti and airways resistance (Raw) were determined from Pcap in phase with rate of change of pulmonary expansion. Hysteresivity () was calculated. Parallel inhomogeneity wasestimated from the coefficients of variation (CV) of every Pcap at endinspiration and end expiration. Increase in CV significantly laggedRti, RL, and . A linearrelationship between EL and Rawwas observed. Our results suggest that changes in tissue mechanicsduring the transition to the constricted state are not artifactual.

     

Inhibition of muscle carbonic anhydrase slows the Ca(2+) transient in rat skeletal muscle fibers

A countertransport ofH⁺ is coupled to Ca²⁺ transport across thesarcoplasmic reticulum (SR) membrane. We propose that SR carbonic anhydrase (CA) accelerates the CO₂-HCO reaction so that H⁺ ions, which are exchanged forCa²⁺ ions, are produced or buffered in the SR at sufficientrates. Inhibition of this SR-CA is expected to reduce the rate ofH⁺ fluxes, which then will retard the kinetics ofCa²⁺ transport. Fura 2 signals and isometric force weresimultaneously recorded in fiber bundles of the soleus (SOL) andextensor digitorum longus (EDL) from rats in the absence and presenceof the lipophilic CA inhibitors L-645151, chlorzolamide (CLZ), andethoxzolamide (ETZ), as well as the hydrophilic inhibitor acetazolamide(ACTZ). Fura 2 and force signals were analyzed for time to peak (TTP), 50% decay time (t₅₀), and their amplitudes.L-645151, CLZ, and ETZ significantly increased TTP of fura 2 by10-25 ms in SOL and by 5-7 ms in EDL and TTP of force by6-30 ms in both muscles. L-645151 and ETZ significantly prolongedt₅₀ of fura 2 and force by 20-55 and40-160 ms, respectively, in SOL and EDL. L-645151, CLZ, and ETZalso increased peak force of single twitches and amplitudes of furafluorescence ratio (R_340/380) at an excitation wavelengthof 340 to 380 nm. All effects of CA inhibitors on fura 2 and forcesignals could be reversed. ACTZ did not affect TTP, t₅₀, and amplitudes of fura 2 signals or force.L-645151, CLZ, and ETZ had no effects on myosin-, Ca²⁺-,and Na⁺-K⁺-ATPase activities, nor did theyaffect the amplitude and half-width of action potentials. We concludethat inhibition of SR-CA by impairing H⁺ countertransportis responsible for deceleration of intracellular Ca²⁺transients and contraction times.

     

Voltage-dependent stimulation of the Na(+)-K(+) pump by insulin in rabbit cardiac myocytes

Insulin enhancesNa⁺-K⁺ pump activity in various noncardiactissues. We examined whether insulin exposure in vitro regulates Na⁺-K⁺ pump function in rabbit ventricularmyocytes. Pump current (I_p) was measured using thewhole-cell patch-clamp technique at test potentials(V_ms) from 100 to +60 mV. When theNa⁺ concentration in the patch pipette([Na]_pip) was 10 mM, insulin caused aV_m-dependent increase in I_p.The increase was ~70% when V_m was at nearphysiological diastolic potentials. This effect persisted afterelimination of extracellular voltage-dependent steps and whenK⁺ and K⁺-congeners were excluded from thepatch pipettes. When [Na]_pip was 80 mM, causingnear-maximal pump stimulation, insulin had no effect, suggesting thatit did not cause an increase in membrane pump density. Effects oftyrphostin A25, wortmannin, okadaic acid, or bisindolylmaleimide I inpipette solutions suggested that the insulin-induced increase inI_p involved activation of tyrosine kinase,phosphatidylinositol 3-kinase, and protein phosphatase 1, whereasprotein phosphatase 2A and protein kinase C were not involved.