Kinetics of CO2 excretion and intravascular pH disequilibria during carbonic anhydrase inhibition

Cardenas, Victor, Jr., Thomas A. Heming, and Akhil Bidani.Kinetics of CO₂ excretion andintravascular pH disequilibria during carbonic anhydrase inhibition.J. Appl. Physiol. 84(2): 683-694, 1998.Inhibition of carbonic anhydrase (CA) activity (activity in redblood cells and activity available on capillary endothelium) results indecrements in CO₂ excretion(CO₂) and plasma-erythrocyteCO₂--H⁺disequilibrium as blood travels around the circulation. To investigate the kinetics of changes in blood PCO₂and pH during progressive CA inhibition, we used our previouslydetailed mathematical model of capillary gas exchange to analyzeexperimental data of CO₂ and blood-gas/pH parameters obtained from anesthetized, paralyzed, andmechanically ventilated dogs after treatment with acetazolamide (Actz,0-100 mg/kg iv). Arterial and mixed venous blood samples werecollected via indwelling femoral and pulmonary arterial catheters, respectively. Cardiac output was measured by thermodilution. End-tidal PCO₂, as a measure of alveolarPCO₂, was obtained from continuousrecords of airway PCO₂ above thecarina. Experimental results were analyzed with the aid of amathematical model of lung and tissue-gas exchange. Progressive CAinhibition was associated with stepwise increments in the equilibratedmixed venous-alveolar PCO₂ gradient(9, 19, and 26 Torr at 5, 20, and 100 mg/kg Actz, respectively). Themaximum decrements in CO₂were 10, 24, and 26% with 5, 20, and 100 mg/kg Actz, respectively,without full recovery ofCO₂ at 1 h postinfusion. Equilibrated arterial PCO₂overestimated alveolar PCO₂, andtissue PCO₂ was underestimated by themeasured equilibrated mixed venous bloodPCO₂. Mathematical model computations predicted hysteresis loops of the instantaneousCO₂--H⁺relationship and in vivo bloodPCO₂-pH relationship due to thefinite reaction times forCO₂--H⁺reactions. The shape of the hysteresis loops was affected by the extentof Actz inhibition of CA in red blood cells and plasma.

     

Cardiac output and mixed venous oxygen content measurements by a tracer bolus method: theory

Clark, Justin S., Yuxiang J. Lin, Michael J. Criddle,Antonio G. Cutillo, Adelbert H. Bigler, Fred L. Farr, and Attilio D. Renzetti, Jr. Cardiac output and mixed venous oxygen content measurements by a tracer bolus method: theory. J. Appl.Physiol. 83(3): 884-896, 1997.We present a bolus method ofinert-gas delivery to the lungs that facilitates application ofmultiple inert gases and the multiple inert-gas-exchange technique(MIGET) model to noninvasive measurements of cardiac output (CO) andcentral mixed venous oxygen contentReduction in recirculation error is made possible by 1)replacement of sinusoidal input functions with impulse inputs and2) replacement of steady-state analyses with transientanalyses. Recirculation error reduction increases the inert-gasselection to include common gases without unusually high (and difficultto find) tissue-to-blood partition coefficients for maximizing thesystemic filtering efficiency. This paper also presents a practicalmethod for determining the recirculation contributions to inert expiredprofiles in animals and determining their specific contributions toerrors in the calculations of CO and from simulationsapplied to published ventilation-perfusion ratio(/) profiles.Recirculation errors from common gases were found to be reducible tothe order of 5% or less for both CO and whereassimulation studies indicate that measurement bias contributions fromrecirculation, / mismatch, andthe / extractionprocess can be limited to 15% for subjects with severe/ mismatch and high inspiredoxygen fraction levels. These studies demonstrate a decreasinginfluence of / mismatch onparameter extraction bias as the number of inert gases are increased.However, the influence of measurement uncertainty on parameterextraction error limits improvement to six gases.

     

Association of chest wall motion and tidal volume responses during CO2 rebreathing

Yan, Sheng, Pawel Sliwinski, and Peter T. Macklem.Association of chest wall motion and tidal volume responses during CO₂ rebreathing.J. Appl. Physiol. 81(4):1528-1534, 1996.The purpose of this study is to investigate theeffect of chest wall configuration at end expiration on tidal volume(VT) response duringCO₂ rebreathing. In a group of 11 healthy male subjects, the changes in end-expiratory andend-inspiratory volume of the rib cage (Vrc,E andVrc,I, respectively) and abdomen (Vab,E and Vab,I, respectively) measured by linearizedmagnetometers were expressed as a function of end-tidalPCO₂(PET_CO2). The changes inend-expiratory and end-inspiratory volumes of the chest wall(Vcw,E and Vcw,I,respectively) were calculated as the sum of the respectiverib cage and abdominal volumes. The magnetometer coils were placed atthe level of the nipples and 1-2 cm above the umbilicus andcalibrated during quiet breathing against theVT measured from apneumotachograph. TheVrc,E/PET_CO2 slope was quite variable among subjects. It was significantly positive (P < 0.05) in fivesubjects, significantly negative in four subjects(P < 0.05), and not different fromzero in the remaining two subjects. TheVab,E/PET_CO2slope was significantly negative in all subjects(P < 0.05) with a much smallerintersubject variation, probably suggesting a relatively more uniformrecruitment of abdominal expiratory muscles and a variable recruitmentof rib cage muscles during CO₂rebreathing in different subjects. As a group, the meanVrc,E/PET_CO2,Vab,E/PET_CO2, andVcw,E/PET_CO2slopes were 0.010 ± 0.034, 0.030 ± 0.007, and0.020 ± 0.032 l / Torr, respectively;only theVab,E/PET_CO2 slope was significantly different from zero. More interestingly, theindividualVT/PET_CO2slope was negatively associated with theVrc,E/PET_CO2(r = 0.68,P = 0.021) and Vcw,E/PET_CO2slopes (r = 0.63,P = 0.037) but was not associated withtheVab,E/PET_CO2slope (r = 0.40, P = 0.223). There was no correlation oftheVrc,E/PET_CO2 andVcw,E/PET_CO2slopes with age, body size, forced expiratory volume in 1 s, orexpiratory time. The groupVab,I/PET_CO2 slope (0.004 ± 0.014 l / Torr) was not significantlydifferent from zero despite theVT nearly being tripled at theend of CO₂ rebreathing. Inconclusion, the individual VTresponse to CO₂, althoughindependent of Vab,E, is a function ofVrc,E to the extent that as theVrc,E/PET_CO2slope increases (more positive) among subjects, theVT response toCO₂ decreases. These results maybe explained on the basis of the respiratory muscle actions andinteractions on the rib cage.

     

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.

     

Signaling by eNOS through a superoxide-dependent p42/44 mitogen-activated protein kinase pathway

Expression ofendothelial nitric oxide synthase (eNOS) in transfected U-937 cellsupregulates phorbol 12-myristate 13-acetate (PMA)-induced tumornecrosis factor- (TNF-) production through a superoxide(O)-dependent mechanism. Because mitogen-activatedprotein kinases (MAPK) have been shown to participate in both reactiveoxygen species signaling and TNF- regulation, their possible role ineNOS-derived O signal transduction was examined. Aredox-cycling agent, phenazine methosulfate, was found to bothupregulate TNF- (5.8 ± 1.0 fold; P = 0.01) andincrease the phosphorylation state of p42/44 MAPK (3.1 ± 0.2 fold; P = 0.01) in PMA-differentiated U-937 cells. AlthoughS-nitroso-N-acetylpenicillamine, a nitric oxide(NO) donor, also increased TNF- production, NO exposure led tophosphorylation of p38 MAPK, not p42/44 MAPK. Upregulation of TNF-production by eNOS transfection was associated with increases inactivated p42/44 MAPK (P = 0.001), whereas levels ofphosphorylated p38 MAPK were unaffected. Furthermore, cotransfectionwith Cu/Zn superoxide dismutase, which blocks TNF- upregulation byeNOS, also abolished the effects on p42/44 MAPK. Expression ofGln³⁶¹eNOS, a mutant that produces O but not NO, still resulted in p42/44 MAPK phosphorylation. In contrast, twoNADPH binding site deletion mutants of eNOS that lack oxidase activityhad no effect on p42/44 MAPK. Finally, PD-98059, a p42/44 MAPK pathwayinhibitor, blocked TNF- upregulation by eNOS (P = 0.02).Thus O produced by eNOS increases TNF- productionvia a mechanism that involves p42/44 MAPK activation.

     

Expression, localization, and functional evaluation of CFTR in bovine corneal endothelial cells

HCO-dependentfluid secretion by the corneal endothelium controls corneal hydrationand maintains corneal transparency. Recently, it has been shown thatmRNA for the cystic fibrosis transmembrane conductance regulator (CFTR) is expressed in the corneal endothelium; however, protein expression, functional localization, and a possible role in HCO transport have not been reported. Immunoblotting for CFTR showed asingle band at ~170 kDa for both freshly isolated and primary cultures of bovine corneal endothelial cells. Indirectimmunofluorescence confocal microscopy indicated that CFTR locates tothe apical membrane. Relative changes in apical and basolateralchloride permeability were estimated by measuring the rate offluorescence quenching of the halide-sensitive indicator6-methoxy-N-ethylquinolinium iodide during Clinflux in the absence and presence of forskolin (FSK). Apical andbasolateral Cl permeability increased 10- and 3-fold,respectively, in the presence of 50 µM FSK. FSK-activated apicalchloride permeability was unaffected by H₂DIDs (250 µM);however, 5-nitro-2-(3-phenylpropyl-amino)benzoic acid (NPPB; 50 µM) and glibenclamide (100 µM) inhibited activated Clfluxes by 45% and 30%, respectively. FSK-activated basolateral Cl permeability was insensitive to NPPB, glibenclamide,or furosemide but was inhibited 80% by H₂DIDS.HCO permeability was estimated by measuring changesin intracellular pH in response to quickly lowering bath[HCO]. FSK (50 µM) increased apicalHCO permeability by twofold, which was inhibited42% by NPPB and 65% by glibenclamide. BasolateralHCO permeability was unaffected by FSK. Genistein(50 µM) significantly increased apical HCO andCl permeability by 1.8- and 16-fold, respectively. When50 µM genistein was combined with 50 µM FSK, there was no furtherincrease in Cl permeability; however,HCO permeability was reduced to the control level.In summary, we conclude that CFTR is present in the apical membrane ofbovine corneal endothelium and could contribute to transendothelialCl and HCO transport. Furthermore,there is a cAMP-activated Cl pathway on the basolateralmembrane that is not CFTR.

     

Alterations in airway ion transport in NKCC1-deficient mice

Airways of Na⁺-K⁺-2Cl(NKCC1)-deficient mice (/) were studied in Ussing chambers todetermine the role of the basolateral NKCC1 in transepithelial anionsecretion. The basal short-circuit current (I_sc)of tracheae and bronchi from adult mice did not differ betweenNKCC1/ and normal mice, whereas NKCC1/ tracheae from neonatalmice exhibited a significantly reduced basalI_sc. In normal mouse tracheae, sensitivity tothe NKCC1 inhibitor bumetanide correlated inversely with the age of themouse. In contrast, tracheae from NKCC1/ mice at all ages wereinsensitive to bumetanide. The anion secretory response to forskolindid not differ between normal and NKCC1/ tissues. However, whenlarger anion secretory responses were induced with UTP, airways fromthe NKCC1/ mice exhibited an attenuated response. Ion substitutionand drug treatment protocols suggested that HCOsecretion compensated for reduced Cl secretion inNKCC1/ airway epithelia. The absence of spontaneous airway diseaseor pathology in airways from the NKCC1/ mice suggests that theNKCC1 mutant mice are able to compensate adequately for absence of theNKCC1 protein.

     

Pulmonary gas exchange during exercise in pigs

Increased ventilation-perfusion(A/)inequality is observed in ~50% of humans during heavy exercise andcontributes to the widening of the alveolar-arterialO₂ difference(A-aD_O2). Despite extensive investigation, the cause remains unknown. As a firststep to more direct examination of this problem, we developed an animalmodel. Eight Yucatan miniswine were studied at rest and duringtreadmill exercise at ~30, 50, and 85% of maximalO₂ consumption (O_{2 max}). Multipleinert-gas, blood-gas, and metabolic data were obtained. TheA-aD_O2increased from 0 ± 3 (SE) Torr at rest to 14 ± 2 Torr duringthe heaviest exercise level, but arterialPO₂(Pa_O2) remained at resting levels during exercise. There was normalA/inequality [log SD of the perfusion distribution(log) = 0.42 ± 0.04] at rest, and moderate increases(log = 0.68 ± 0.04, P < 0.0001) wereobserved with exercise. This result was reproducible on a separate day.TheA/inequality changes are similar to those reported in highly trainedhumans. However, in swine, unlike in humans, there was no inert gasevidence for pulmonary end-capillary diffusion limitation during heavyexercise; there was no systematic difference in the measuredPa_O2 and the Pa_O2 as predicted from the inertgases. These data suggest that the pig animal model iswell suited for studying the mechanism of exercise-inducedA/ inequality.

     

Thermoregulatory responses to cold transients: effects of menstrual cycle in resting women

Effects of themenstrual cycle on heat loss and heat production(M) and core and skin temperatureresponses to cold were studied in six unacclimatized female nonsmokers(18-29 yr of age). Each woman, resting supine, was exposed to acold transient (ambient temperature = mean radiant temperature = 20 to5°C at 0.32°C/min, relative humidity = 50 ± 2%, wind speed = 1 m/s) in the follicular (F) phase(days 2-6) and midluteal (L)phase (days 19-23) of her menstrual cycle. Clothed in each of two ensembles with different thermal resistances, women performed multiple experiments in the F andL phases. Thermal resistance was 0.2 and 0.4 m² · K · W¹for ensembles A andB, respectively. Esophagealtemperature (T_es), mean weightedskin temperature(_sk),finger temperature (T_fing), andarea-weighted heat flux were recorded continuously. Rate of heat debt(S) and integrated mean bodytemperature(_b,i)were calculated by partitional calorimetry throughout the cold ramp. Extensive peripheral vasoconstriction in the F phase during early periods of the ramp elevated T_esabove thermoneutral levels. Shivering thermogenesis(M = M  M_basal,W /m²) was highly correlated withdeclines in_sk andT_fing(P <0.0001). There was a reducedslope in M as a function of_b,i inthe L phase with ensembles A(P < 0.02) andB (P < 0.01). Heat flux was higher andS was less in the L phases withensemble A(P < 0.05). An analytic modelrevealed that_sk andT_es contribute as additive inputsand T_fing has a multiplicativeeffect on the total control of Mduring cold transients(R² = 0.9).Endogenous hormonal levels at each menstrual cycle phase, coretemperature and_skinputs, vascular responses, and variations in body heat balance must beconsidered in quantifying thermoregulatory responses in women duringcold stress.

     

Role of SGK in hormonal regulation of epithelial sodium channel in A6 cells

The purpose of this study was to examinethe role of the serum- and glucocorticoid-induced kinase (SGK) in theactivation of the epithelial sodium channel (ENaC) by aldosterone,arginine vasopressin (AVP), and insulin. We used atetracycline-inducible system to control the expression of wild-type(SGK), constitutively active (S425Dmutation; SGK), or inactive (K130Mmutation; SGK) SGK in A6 cellsindependently of hormonal stimulation. The effect of SGK expression onENaC activity was monitored by measuring transepithelialamiloride-sensitive short-circuit current (I_sc) of transfected A6 cell lines. Expression ofSGK orSGK and aldosterone stimulation haveadditive effects on I_sc. Although SGK could playsome role in the aldosterone response, our results suggest that othermechanisms take place. SGK abrogatesthe responses to AVP and insulin; hence, in the signaling pathways ofthese hormones there is a shared step that is stimulated by SGK.Because AVP and insulin induce fusion of vesicles to the apicalmembrane, our results support the notion that SGK promotes incorporation of channels in the apical membrane.

     

Interaction of cross-sectional area, driving pressure, and airflow of passive velopharynx

Isono, Shiroh, Thom R. Feroah, Eric A. Hajduk, Rollin Brant,William A. Whitelaw, and John E. Remmers. Interaction ofcross-sectional area, driving pressure, and airflow of passive velopharynx. J. Appl. Physiol. 83(3):851-859, 1997.Previous studies have shown that, when thepharyngeal muscles are relaxed, the velopharynx is a highly compliantsegment of the pharynx. Thus, under these circumstances,cross-sectional area of the velopharynx (A_VP), drivingpressure across the velopharynx (P), and inspiratory airflow(I) willbe mutually interdependent variables. The purpose of the presentinvestigation was to describe the interrelation among these threevariables during inspiration. We studied 15 sleeping patients withobstructive sleep apnea/hypopnea when the pharyngeal muscles wererendered hypotonic by applying continuous positive airway pressure tothe nasal airway.A_VP, determined by endoscopic imaging, was significantly greater at onset ofI limitationthan at minimum oropharyngeal pressure(P < 0.01). Snoring was neverobserved duringIlimitation. In a subgroup of six patients, values for P,I, andA_VP were obtainedat 0.1-s intervals at various levels of mask pressure. For these sixpatients, the mathematical expressionI = 0.657(A_VP/A_max) · P^0.332,where A_max ismaximal A_VP,described the relationship among the three variables(R² = 0.962) forflow-limited and non-flow-limited inspirations. The impedance of thepassive velopharynx, defined asP^0.33/,was inversely related toA_VP and increaseddramatically when A_VP was <0.3cm². In summary, we observed aprogressive decrease inA_VP during flow-limited inspiration in patients with obstructive sleep apnea. Thisconstriction of the velopharynx contributes to an increase invelopharyngeal impedance that, in turn, counterbalances the increase inP during flow limitation.

     

Localization of endogenous and recombinant Na+-driven anion exchanger protein NDAE1 from Drosophila melanogaster

Na⁺-dependent Cl/HCOexchange activity helps maintain intracellular pH (pH_i)homeostasis in many invertebrate and vertebrate cell types. Ourlaboratory cloned and characterized a Na⁺-dependentCl/HCO exchanger (NDAE1) fromDrosophila melanogaster (Romero MF, Henry D, Nelson S, HartePJ, and Sciortino CM. J Biol Chem 275:24552-24559, 2000). In the present study we usedimmunohistochemical and Western blot techniques to characterize thedevelopmental expression, subcellular localization, and tissue distribution of NDAE1 protein in D. melanogaster. We haveshown that a polyclonal antibody raised against the NH₂terminus of NDAE1 (CWR57) recognizes NDAE1 electrophysiologicallycharacterized in Xenopus oocytes. Moreover, our resultsbegin to delineate the NDAE1 topology, i.e., both the NH₂and COOH termini are intracellular. NDAE1 is expressed throughoutDrosophila development in the central and peripheral nervoussystems, sensilla, and the alimentary tract (Malpighian tubules, gut,and salivary glands). Coimmunolabeling of larval tissues with NDAE1antibody and a monoclonal antibody to theNa⁺-K⁺-ATPase -subunit revealed that themajority of NDAE1 is located at the basolateral membranes of Malpighiantubule cells. These results suggest that NDAE1 may be a keypH_i regulatory protein and may contribute to basolateralion transport in epithelia and nervous system of Drosophila.

     

Reduced blood flow in abdominal viscera measured by Doppler ultrasound during one-legged knee extension

The redistributionof blood flow (BF) in the abdominal viscera during right-legged kneeextension-flexion exercise at very low intensity [peak heart rate(HR), 76 beats/min] was examined by using Doppler ultrasound.While sitting, subjects performed a right-legged knee extension-flexionexercise every 6 s for 20 min. BF was measured in the upper abdominalaorta (Ao), right common femoral artery (RCFA), and left common femoralartery (LCFA). Visceral BF(BF_Vis) was determined by theequation [BF_Ao  (BF_RCFA + BF_LCFA)]. A comparisonwith the change in BF (BF) preexercise showed a greater increase inBF_RCFA than inBF_Ao during exercise. Thisresulted in a reduction of BF_Visto 56% of its preexercise value or a decrease in flow by 1,147 ± 293 (±SE) ml/min at the peak workload. Oxygen consumptioncorrelated positively withBF_Ao, BF_RCFA, andBF_LCFA but inversely withBF_Vis during exercise andrecovery. Furthermore, BF_Vis (% of preexercise value) correlated inversely with both an increase in HR(r = 0.89), and percent peakoxygen consumption (r = 0.99).This study demonstrated that, even during very-low-intensity exercise(HR <90 beats/min), there was a significant shift in BF from theviscera to the exercising muscles.     

Peroxynitrite causes endothelial cell monolayer barrier dysfunction

Nitric oxide (·NO) attenuates hydrogen peroxide(H₂O₂)-mediated barrier dysfunction in culturedporcine pulmonary artery endothelial cells (PAEC) (Gupta MP, Ober MD,Patterson C, Al-Hassani M, Natarajan V, and Hart, CM. Am JPhysiol Lung Cell Mol Physiol 280: L116-L126, 2001). However,·NO rapidly combines with superoxide (O) to formthe powerful oxidant peroxynitrite (ONOO), which wehypothesized would cause PAEC monolayer barrier dysfunction. To testthis hypothesis, we treated PAEC with ONOO (500 µM) or3-morpholinosydnonimine hydrochloride (SIN-1; 1-500 µM).SIN-1-mediated ONOO formation was confirmed by monitoringthe oxidation of dihydrorhodamine 123 to rhodamine. BothONOO and SIN-1 increased albumin clearance(P < 0.05) in the absence of cytotoxicity and alteredthe architecture of the cytoskeletal proteins actin and -catenin asdetected by immunofluorescent confocal imaging.ONOO-induced barrier dysfunction was partially reversibleand was attenuated by cysteine. Both ONOO and SIN-1nitrated tyrosine residues, including those on -catenin and actin,and oxidized proteins in PAEC. The introduction of actin treated withONOO into PAEC monolayers via liposomes alsoresulted in barrier dysfunction. These results indicate thatONOO directly alters endothelial cytoskeletal proteins,leading to barrier dysfunction.

     

Is urodilatin the missing link in exercise-dependent renal sodium retention?

Schmidt, W., A. Bub, M. Meyer, T. Weiss, D. Schneider, N. Maassen, and W. G. Forssmann. Is urodilatin the missing link inexercise-dependent renal sodium retention? J. Appl.Physiol. 84(1): 123-128, 1998.The purpose of thepresent study was to investigate the behavior of plasma atrialnatriuretic peptide [ANP-(99126)] concentration([ANP]) and renal urodilatin [Uro; ANP-(95126)] excretion during and after exercise and theirpossible effects on renal Na⁺retention. Ten male subjects performed a cycle ergometer test for 60 min at 60% of maximum workload. Blood and urine samples were collectedbefore, during, and up to 24 h after exercise. During exercise, plasma[ANP] and renal Uro excretion were oppositely affected:whereas [ANP] increased from 46.5 ± 5.1 to 124.1 ± 10.6 pg/ml, urinary Uro excretion decreased from 120.8 ± 16.0 to49.5 ± 9.8 fmol/min and remained at a lower level until 1 h afterexercise. Glomerular filtration rate showed lowest values duringexercise (from 164.9 ± 15.3 to 75.8 ± 10.1 ml/min), and urineflow and the fractional excretion rate ofNa⁺(FE_Na⁺) andCl()had their nadir during the first hour after exercise. Positiverelationships were observed between Uro excretion andFE_Na⁺(P < 0.05) and, whereas a tendency toward a negative correlation was obtained between[ANP] andFE_Na⁺. It seemspossible that Uro may be, among other factors, involved in theexercise-related regulation of renalNa⁺ retention. The specific rolesUro and ANP play during exercise, however, remain to be investigated.

     

Lyn- and ERK-mediated vs. Ca2+-mediated neutrophil O2- responses with thermal injury

We evaluated thedependency of neutrophil O production on PTK-Lyn andMAPK-ERK1/2 in rats after thermal injury. Activation of PTK-Lyn wasassessed by immunoprecipitation. Phosphorylation of ERK1/2 was assessedby Western blot analysis. O production was measuredby isoluminol-enhanced luminometry. Imaging technique was employed tomeasure neutrophil [Ca²⁺]_i in individualcells. Thermal injury caused marked upregulation of Lyn and ERK1/2accompanying enhanced neutrophil O production.Treatment of rats with PTK blocker (AG556) or MAPK blocker (AG1478)before burn injury caused complete inhibition of the respective kinaseactivation. Both AG556 and AG1478 produced an ~66% inhibition inO production. Treatment with diltiazem (DZ) producedan ~37% inhibition of O production withoutaffecting Lyn or ERK1/2 activation with burn injury. Ca²⁺mobilization was upregulated with burn injury but not affected bytreatment of burn rats with AG556. Unlike the partial inhibition ofburn-induced O production by AG556, AG1478, or DZ,platelet-activating factor antagonist (PAFa) treatment of burn ratsproduced near complete inhibition of O production.PAFa treatment also blocked activation of Lyn. The findings suggestthat the near complete inhibition of O production byPAFa was a result of blockade of PTK as well as Ca²⁺signaling. Overall, our studies show that enhanced neutrophil O production after thermal injury is a result ofpotentiation of Ca²⁺-linked and -independent signalingtriggered by inflammatory agents such as PAF.

     

Timolol may inhibit aqueous humor secretion by cAMP-independent action on ciliary epithelial cells

The -adrenergic antagonisttimolol reduces ciliary epithelial secretion in glaucomatous patients.Whether inhibition is mediated by reducing cAMP is unknown. Elementalcomposition of rabbit ciliary epithelium was studied by electron probeX-ray microanalysis. Volume of cultured bovine pigmented ciliaryepithelial (PE) cells was measured by electronic cell sizing;Ca²⁺ activity and pH were monitored with fura 2 and2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein, respectively. Timolol (10 µM) produced similar K and Cl losses fromciliary epithelia in HCO/CO₂ solutionbut had no effect in HCO/CO₂-free solution or in HCO/CO₂ solutioncontaining the carbonic anhydrase inhibitor acetazolamide. Inhibitionof Na⁺/H⁺ exchange by dimethylamiloride inHCO/CO₂ solution reduced Cl and Kcomparably to timolol. cAMP did not reverse timolol's effects. Timolol(100 nM, 10 µM) and levobunolol (10 µM) produced cAMP-independentinhibition of the regulatory volume increase (RVI) in PE cells andincreased intracellular Ca²⁺ and pH. IncreasingCa²⁺ with ionomycin also blocked the RVI. The resultsdocument a previously unrecognized cAMP-independent transport effect oftimolol. Inhibition of Cl/HCO exchangemay mediate timolol's inhibition of aqueous humor formation.

     

Functional and molecular evidence for Na+-HCO3- cotransporter in porcine vas deferens epithelia

This study focused on the role ofsodium-bicarbonate cotransporter (NBC1) in cAMP-stimulated iontransport in porcine vas deferens epithelium. Ion substitutionexperiments in modified Ussing chambers revealed that cAMP-mediatedstimulation was dependent on the presence of Na⁺,HCO, and Cl for a full response.HCO-dependent current was unaffected byacetazolamide, bumetanide, or amiloride but was inhibited bybasolateral 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid.Na⁺-driven, HCO-dependent,stilbene-inhibitable anion flux was observed across the basolateralmembrane of selectively permeabilized monolayers. Results ofradiotracer flux studies suggest a4,4'-dinitrostilbene-2,2'-disulfonate-sensitive stoichiometry of 2 baseequivalents per Na⁺. Antibodies raised against rat kidneyNBC epitopes (rkNBC; amino acids 338-391 and 928-1035)identified a single band of ~145 kDa. RT-PCR detected NBC1 message inporcine vas deferens epithelia. These results demonstrate that vasdeferens epithelial cells possess the proteins necessary for thevectoral transport of HCO and that these mechanismsare maintained in primary culture. Taken together, the results indicatethat vas deferens epithelia play an active role in male fertility andhave implications for our understanding of the relationship betweencystic fibrosis and congenital bilateral absence of the vas deferens.

     

Nitric oxide inhibits superoxide production by inflammatory polymorphonuclear leukocytes

Nitric oxide(NO ·) has a complex role in the inflammatory response. Inthis study, we modified the levels of endogenous NO · in vivoin an acute model of inflammation and evaluated the interactionsbetween NO · and superoxide anion() produced bypolymorphonuclear leukocytes (PMNs) accumulated in the inflamed area.We injected phosphate-buffered saline (control group), 6 µmol ofL-N⁵-(1-iminoethyl)ornithine(L-NIO group), or 6 µmol ofL-arginine (L-arginine group) into thegranuloma pouch induced by carrageenan in rats. plus (indicative of NO · generation) was 188 nmol in the exudate of the control group, but itdecreased in the L-NIO group(P < 0.05) and increased in theL-arginine group(P < 0.05). When PMNsfrom treated rats were incubated in vitro, the productionof superoxide anion () decreased by ~46% in theL-arginine group. Furthermore, was inhibited in PMNs whenL-arginine was addedto the incubation medium before phorbol 12-myristate 13-acetatestimulation but not when added simultaneously. Our results suggest aprotective role for NO · in inflammation, through theinactivation of NADPH oxidase and the consequent impairment of production for cell-mediatedinjury.

     

Muscle capillarization, O2 diffusion distance, and VO2 kinetics in old and young individuals

Chilibeck, P. D., D. H. Paterson, D. A. Cunningham, A. W. Taylor, and E. G. Noble. Muscle capillarization,O₂ diffusion distance, andO₂ kinetics in old andyoung individuals. J. Appl. Physiol.82(1): 63-69, 1997.The relationships between muscle capillarization, estimated O₂diffusion distance from capillary to mitochondria, andO₂ uptake(O₂) kineticswere studied in 11 young (mean age, 25.9 yr) and 9 old (mean age, 66.0 yr) adults. O₂kinetics were determined by calculating the time constants () forthe phase 2 O₂ adjustment to andrecovery from the average of 12 repeats of a 6-min, moderate-intensityplantar flexion exercise. Muscle capillarization was determined fromcross sections of biopsy material taken from lateral gastrocnemius.Young and old groups had similarO₂ kinetics(O₂-on = 44 vs. 48 s;O₂-off = 33 vs. 44 s, for young and old, respectively), muscle capillarization, andestimated O₂ diffusion distances.Muscle capillarization, expressed as capillary density or averagenumber of capillary contacts per fiber/average fiber area, and theestimates of diffusion distance were significantly correlated toO₂-off kinetics in theyoung (r = 0.68 to 0.83;P < 0.05). We conclude that1) capillarization andO₂ kinetics during exerciseof a muscle group accustomed to everyday activity (e.g., walking) arewell maintained in old individuals, and2) in the young, recovery of O₂ after exercise isfaster, with a greater capillary supply over a given muscle fiber areaor shorter O₂ diffusion distances.