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.

     

Hypoxia, temperature, and pH/CO2 effects on respiratory discharge from a turtle brain stem preparation

Johnson, Stephen M., Rebecca A. Johnson, and Gordon S. Mitchell. Hypoxia, temperature, andpH/CO₂ effects on respiratory discharge from a turtle brain stem preparation. J. Appl. Physiol. 84(2): 649-660, 1998.An in vitrobrain stem preparation from adult turtles (Chrysemyspicta) was used to examine the effects of anoxia andincreased temperature and pH/CO₂on respiration-related motor output. At pH ~7.45, hypoglossal (XII)nerve roots produced patterns of rhythmic bursts (peaks) of discharge(0.74 ± 0.07 peaks/min, 10.0 ± 0.6 s duration) that werequantitatively similar to literature reports of respiratory activity inconscious, vagotomized turtles. Respiratory discharge was stable for 6 h at 22°C; at 32°C, peak amplitude and frequency progressivelyand reversibly decreased with time. Two hours of hypoxia had no effecton respiratory discharge. Acutely increasing bath temperature from 22 to 32°C decreased episode and peak duration and increased peakfrequency. Changes in pH/CO₂increased peak frequency from zero at pH 8.00-8.10 to maxima of0.81 ± 0.01 and 1.44 ± 0.02 peaks/min at 22°C (pH 7.32) and32°C (pH 7.46), respectively;pH/CO₂ sensitivity was similar atboth temperatures. We conclude that1) insensitivity to hypoxiaindicates that rhythmic discharge does not reflect gasping behavior,2) increased temperature altersrespiratory discharge, and 3)central pH/CO₂ sensitivity isunaffected by temperature in this preparation (i.e.,Q₁₀ ~1.0).

     

Further cholinergic aspects of carotid body chemotransduction of hypoxia in cats

Fitzgerald, Robert S., Machiko Shirahata, and Tohru Ide.Further cholinergic aspects of carotid body chemotransduction ofhypoxia in cats. J. Appl. Physiol.82(3): 819-827, 1997.From the 1930s into the 1970s, the role ofacetylcholine (ACh) in the carotid body's chemotransduction of hypoxiawas debated. Since the late 1970s, the issue has been pursued onlyintermittently or not at all. The purpose of this study was to testagain with a new preparation the hypothesis that ACh is an excitatoryneurotransmitter in the cat carotid body's chemotransduction ofhypoxia. We tested the effect of the specific nicotinic blockermecamylamine and the muscarinic blocker of all five muscarinicreceptors, atropine. We further tested the effects ofM₁ andM₂ muscarinic-receptor blockers.The carotid body region was selectively perfused with hypoxicKrebs-Ringer bicarbonate (KRB) solutions that were blocker free orcontained varying doses of the blockers. Both mecamylamine and atropinereduced the response to hypoxic KRB in a dose-related manner. TheM₂ muscarinic-receptor blockersgallamine and AFDX 116 increased the response to hypoxic KRB, whereasthe M₁ muscarinic-receptor blockerpirenzepine reduced the response to hypoxic KRB. These data areconsistent with an excitatory role for ACh in the carotid bodychemotransduction of hypoxia in the cat.

     

Dehydration markedly impairs cardiovascular function in hyperthermic endurance athletes during exercise

González-Alonso, José, RicardoMora-Rodríguez, Paul R. Below, and Edward F. Coyle.Dehydration markedly impairs cardiovascular function inhyperthermic endurance athletes during exercise. J. Appl. Physiol. 82(4): 1229-1236, 1997.Weidentified the cardiovascular stress encountered by superimposingdehydration on hyperthermia during exercise in the heat and themechanisms contributing to the dehydration-mediated stroke volume (SV)reduction. Fifteen endurance-trained cyclists [maximalO₂ consumption(O_{2 max}) = 4.5 l/min] exercised in the heat for 100-120 min and either became dehydrated by 4% body weight or remained euhydrated by drinkingfluids. Measurements were made after they continued exercise at 71%O_{2 max} for 30 minwhile 1) euhydrated with anesophageal temperature (T_es) of38.1-38.3°C (control); 2)euhydrated and hyperthermic (39.3°C);3) dehydrated and hyperthermic withskin temperature (T_sk) of34°C; 4) dehydrated withT_es of 38.1°C and T_sk of 21°C; and5) condition4 followed by restored blood volume. Compared withcontrol, hyperthermia (1°C T_esincrease) and dehydration (4% body weight loss) each separatelylowered SV 7-8% (11 ± 3 ml/beat;P < 0.05) and increased heart ratesufficiently to prevent significant declines in cardiac output.However, when dehydration was superimposed on hyperthermia, thereductions in SV were significantly (P < 0.05) greater (26 ± 3 ml/beat), and cardiac output declined 13% (2.8 ± 0.3 l/min). Furthermore, mean arterialpressure declined 5 ± 2%, and systemic vascular resistanceincreased 10 ± 3% (both P < 0.05). When hyperthermia wasprevented, all of the decline in SV with dehydration was due to reducedblood volume (~200 ml). These results demonstrate that thesuperimposition of dehydration on hyperthermia during exercise in theheat causes an inability to maintain cardiac output and blood pressurethat makes the dehydrated athlete less able to cope with hyperthermia.

     

Posthemorrhagic antipyresis: what stage of fever genesis is affected?

Romanovsky, Andrej A., and Yelena K. Karman.Posthemorrhagic antipyresis: what stage of fever genesis isaffected? J. Appl. Physiol. 83(2):359-365, 1997.It has been shown that hemorrhage leads to adecreased thermal responsiveness to lipopolysaccharide (LPS). The aimof this study was to clarify what stage of fever genesis[production of endogenous pyrogens such as interleukin-1 (IL-1),increase of the prostaglandin E₂(PGE₂) concentration in braintissue, activation of cold-defense effectors] is deficient inposthemorrhagic antipyresis. In adult rabbits, we evaluated the effectof acute hemorrhage (15 ml/kg) on the rectal temperature (T_re) responses to LPS fromSalmonella typhi (200 ng/kg iv),ethanol-purified preparation of homologous IL-1 (1 ml from 3.5 × 10⁷ cells, 1.5 ml/kg iv), andPGE₂ (1 µg,intracisternal injection). The effect of hemorrhage onT_re was also studied in afebrilerabbits, both at thermoneutrality (23°C) and during ramp cooling(to 7°C). The hemorrhage strongly attenuated the biphasicLPS-induced fever (a T_re rise of0.4 ± 0.1 instead of 1.2 ± 0.2°C at the time of the secondpeak), the monophasic T_re responseto IL-1 (by ~0.5°C for over 1-5 h postinjection), and thePGE₂-induced hyperthermia (0.4 ± 0.1 vs. 0.9 ± 0.1°C, maxima). In afebrileanimals, the hemorrhage neither affectedT_re at thermoneutrality norchanged the T_re response to coldexposure. The data suggest that neither insufficiency of cold-defenseeffectors nor lack of endogenous mediators of fever (IL-1,PGE₂) can be the only or eventhe major cause of posthemorrhagic antipyresis. Wespeculate that fever genesis is altered at a stage occurring after theintrabrain PGE₂ level is increasedbut before thermoeffectors are activated.

     

Thermal and metabolic responses to cold-water immersion at knee, hip, and shoulder levels

Lee, Dae T., Michael M. Toner, William D. McArdle, IoannisS. Vrabas, and Kent B. Pandolf. Thermal and metabolic responses tocold-water immersion at knee, hip, and shoulder levels.J. Appl. Physiol. 82(5):1523-1530, 1997.To examine the effect of cold-water immersion atdifferent depths on thermal and metabolic responses, eight men (25 yrold, 16% body fat) attempted 12 tests: immersed to the knee (K), hip(H), and shoulder (Sh) in 15 and 25°C water during both rest (R) orleg cycling [35% peak oxygen uptake; (E)] for up to 135 min. At 15°C, rectal (T_re)and esophageal temperatures(T_es) between R and E were notdifferent in Sh and H groups (P > 0.05), whereas both in K group were higher during E than R(P < 0.05). At 25°C,T_re was higher(P < 0.05) during E than R at alldepths, whereas T_es during E washigher than during R in H and K groups.T_re remained at control levels inK-E at 15°C, K-E at 25°C, and in H-E groups at 25°C,whereas T_es remained unchanged inK-E at 15°C, in K-R at 15°C, and in all 25°C conditions (P > 0.05). During R and E, themagnitude of T_re change wasgreater (P < 0.05) than themagnitude of T_es change in Sh andH groups, whereas it was not different in the K group(P > 0.05). Total heat flow wasprogressive with water depth. During R at 15 and 25°C, heatproduction was not increased in K and H groups from control level(P > 0.05) but it did increase in Shgroup (P < 0.05). The increase inheat production during E compared with R was smaller(P < 0.05) in Sh (121 ± 7 W/m² at 15°C and 97 ± 6 W/m² at 25°C) than in H (156 ± 6 and 126 ± 5 W/m²,respectively) and K groups (155 ± 4 and 165 ± 6 W/m², respectively). These datasuggest that T_re andT_es respond differently duringpartial cold-water immersion. In addition, water levels above knee in15°C and above hip in 25°C cause depression of internal temperatures mainly due to insufficient heat production offsetting heatloss even during light exercise.

     

Role of endogenous female hormones in hypoxic chemosensitivity

Tatsumi, Koichiro, Cheryl K. Pickett, Christopher R. Jacoby,John V. Weil, and Lorna G. Moore. Role of endogenous female hormones in hypoxic chemosensitivity. J. Appl.Physiol. 83(5): 1706-1710, 1997.Effective alveolar ventilation and hypoxicventilatory response (HVR) are higher in females than in males andafter endogenous or exogenous elevation of progesterone and estrogen.The contribution of normal physiological levels of ovarian hormones toresting ventilation and ventilatory control and whether their site(s) of action is central and/or peripheral are unclear.Accordingly, we examined resting ventilation, HVR, and hypercapnicventilatory responses (HCVR) before and 3 wk after ovariectomy in fivefemale cats. We also compared carotid sinus nerve (CSN) and centralnervous system translation responses to hypoxia in 6 ovariectomized and 24 intact female animals. Ovariectomy decreased serum progesterone butdid not change resting ventilation, end-tidalPCO₂, or HCVR (allP = NS). Ovariectomy reduced theHVR shape parameter A in the awake(38.9 ± 5.5 and 21.2 ± 3.0 before and after ovariectomy, respectively, P < 0.05) andanesthetized conditions. The CSN response to hypoxia was lower inovariectomized than in intact animals (shape parameterA = 22.6 ± 2.5 and 54.3 ± 3.5 in ovariectomized and intact animals, respectively,P < 0.05), but central nervous system translation of CSN activity into ventilation was similar inovariectomized and intact animals. We concluded that ovariectomy decreased ventilatory and CSN responsiveness to hypoxia, suggesting that the presence of physiological levels of ovarian hormones influences hypoxic chemosensitivity by acting primarily at peripheral sites.

     

Furosemide reduces accumulated oxygen deficit in horses during brief intense exertion

Hinchcliff, K. W., K. H. McKeever, W. W. Muir, and R. A. Sams. Furosemide reduces accumulated oxygen deficit inhorses during brief intense exertion. J. Appl.Physiol. 81(4): 1550-1554, 1996.We theorizedthat furosemide-induced weight reduction would reduce the contributionof anaerobic metabolism to energy expenditure of horses during intenseexertion. The effects of furosemide on accumulatedO₂ deficit and plasma lactateconcentration of horses during high-intensity exercise were examined ina three-way balance randomized crossover study. Nine horses completedeach of three trials: 1) a control(C) trial, 2) a furosemide-unloaded(FU) trial in which the horse received furosemide 4 h before running, and 3) a furosemide weight-loaded(FL) trial during which the horse received furosemide and carriedweight equal to the weight lost after furosemide administration. Horsesran for 2 min at ~120% maximalO₂ consumption. Furosemide (FU)increased O₂ consumption (ml ^· 2 min^{1 ·} kg¹)compared with C (268 ± 9 and 257 ± 9, P < 0.05), whereas FL was notdifferent from C (252 ± 8). AccumulatedO₂ deficit (ml O₂ equivalents/kg) wassignificantly (P < 0.05) lowerduring FU (81.2 ± 12.5), but not during FL (96.9 ± 12.4), thanduring C (91.4 ± 11.5). Rate of increase in blood lactateconcentration (mmol ^· 2 min^{1 ·} kg¹)after FU (0.058 ± 0.001), but not after FL (0.061 ± 0.001), was significantly (P < 0.05) lower than after C (0.061 ± 0.001). Furosemide decreased theaccumulated O₂ deficit and rate ofincrease in blood lactate concentration of horses during briefhigh-intensity exertion. The reduction in accumulatedO₂ deficit in FU-treated horseswas attributable to an increase in the mass-specific rate ofO₂ consumption during thehigh-intensity exercise test.

     

Modification of active cutaneous vasodilation by oral contraceptive hormones

Charkoudian, Nisha, and John M. Johnson. Modificationof active cutaneous vasodilation by oral contraceptive hormones. J. Appl. Physiol. 83(6):2012-2018, 1997.It is not clear whether the alteredthermoregulatory reflex control of the cutaneous circulation seen amongphases of the menstrual cycle also occurs with the synthetic estrogenand progesterone in oral contraceptive pills and whether any suchmodifications include altered control of the cutaneous activevasodilator system. To address these questions, we conducted controlledwhole body heating experiments in seven women at the end of the thirdweek of hormone pills (HH) and at the end of the week of placebo/nopills (LH). A water-perfused suit was used to control body temperature.Laser Doppler flowmetry was used to monitor cutaneous blood flow at acontrol site and at a site at which noradrenergic vasoconstrictorcontrol had been eliminated by iontophoresis of bretylium (BT),isolating the active cutaneous vasodilator system. The oral temperature(T_or) thresholds for cutaneousvasodilation were higher in HH at both control [37.09 ± 0.12 vs. 36.83 ± 0.07°C (LH), P < 0.01] and BT-treated [37.19 ± 0.05 vs. 36.88 ± 0.12°C (LH), P < 0.01]sites. The T_or threshold forsweating was similarly shifted (HH: 37.15 ± 0.11°C vs. LH: 36.94 ± 0.11°C, P < 0.01). Arightward shift in the relationship of heart rate toT_or was seen in HH. Thesensitivities (slopes of the responses vs.T_or) did not differstatistically between phases. The similar threshold shifts at controland BT-treated sites suggest that the hormones shift the function ofthe active vasodilator system to higher internal temperatures. Thesimilarity of the shifts among thermoregulatory effectors suggests acentrally mediated action of these hormones.

     

Effect of ingested sodium bicarbonate on muscle force, fatigue, and recovery

Verbitsky, O., J. Mizrahi, M. Levin, and E. Isakov.Effect of ingested sodium bicarbonate on muscle force, fatigue, and recovery. J. Appl. Physiol. 83(2):333-337, 1997.The influence of acute ingestion ofNaHCO₃ on fatigue and recovery ofthe quadriceps femoris muscle after exercise was studied in six healthymale subjects. A bicycle ergometer was used for exercising under three loading conditions: test A, loadcorresponding to maximal oxygen consumption; testB, load in test A + 17%; test C, load intest B but performed 1 h after acuteingestion of NaHCO₃.Functional electrical stimulation (FES) was applied to provokeisometric contraction of the quadriceps femoris. The resulting kneetorque was monitored during fatigue (2-min chronic FES) and recovery (10-s FES every 10 min, for 40 min). Quadriceps torques were higher inthe presence of NaHCO₃(P < 0.05): withNaHCO₃ the peak, residual, andrecovery (after 40 min) normalized torques were, respectively, 0.68 ± 0.05 (SD), 0.58 ± 0.05, and 0.73 ± 0.05; withoutNaHCO₃ the values were 0.45 ± 0.04, 0.30 ± 0.06, and 0.63 ± 0.06. The increasedtorques obtained after acute ingestion ofNaHCO₃ indicate the possibleexistence of improved nonoxidative glycolysis in isometric contraction,resulting in reduced fatigue and enhanced recovery.

     

Recovery of diaphragmatic function in awake sheep after two approaches to thoracic surgery

Imanaka, Hideaki, William R. Kimball, John C. Wain, MasajiNishimura, Kenichi Okubo, Dean Hess, and Robert M. Kacmarek. Recovery of diaphragmatic function in awake sheep after two approaches to thoracic surgery. J. Appl.Physiol. 83(5): 1733-1740, 1997.Video-assistedthoracoscopic surgery (VATS) is replacing thoracotomy, but no study hasaddressed the extent or duration of VATS-induced diaphragmaticalteration. We hypothesized that VATS would impair diaphragmaticfunction less and return diaphragmatic function faster thanthoracotomy. In eight sheep, sonomicrometers were randomly implanted onthe right costal diaphragm via VATS or thoracotomy. Diaphragmaticresting length, shortening fraction, and respiratory function weremeasured weekly during quiet breathing (QB) andCO₂ rebreathing for 4 wk. ForVATS, shortening fraction was smallest onpostoperative days 1 (POD 1) (6.4 ± 3.4 and12.9 ± 8.7% during QB and 10%CO₂ rebreathing, respectively) and7 (6.3 ± 3.4 and 16.9 ± 4.0%during QB and 10% CO₂rebreathing, respectively) and recovered by 3 wk (13.2 ± 1.8 and28.9 ± 8.0% during QB and 10%CO₂ rebreathing, respectively).For thoracotomy, shortening fraction at 10%CO₂ rebreathing was smaller onPODs 1, 7, 14 (15.9 ± 7.1, 13.6 ± 5.4, and 19.0 ± 6.9%) than onPOD 28 (29.9 ± 8.2%), but notduring QB on POD 1 or7 (7.5 ± 3.8 and 3.4 ± 2.6%)compared with POD 28 (10.7 ± 8.7%). Shortening fraction did not differ between surgeries. There wasno group difference in minute ventilation, respiratory rate,transdiaphragmatic pressure, or esophageal and gastric pressures. Inconclusion, although shortening fraction recovered faster for VATS,this translated into insignificant functional differences.

     

Ultrasound evaluation of piglet diaphragm function before and after fatigue

Kocis, Keith C., Peter J. Radell, Wayne I. Sternberger, JaneE. Benson, Richard J. Traystman, and David G. Nichols. Ultrasound evaluation of piglet diaphragm function before and after fatigue. J. Appl. Physiol. 83(5):1654-1659, 1997.Clinically, a noninvasive measure of diaphragmfunction is needed. The purpose of this study is to determine whetherultrasonography can be used to 1)quantify diaphragm function and 2)identify fatigue in a piglet model. Five piglets were anesthetized withpentobarbital sodium and halothane and studied during the followingconditions: 1) baseline (spontaneous breathing); 2) baseline + CO₂ [inhaledCO₂ to increase arterial PCO₂ to 50-60 Torr (6.6-8kPa)]; 3) fatigue + CO₂ (fatigue induced with 30 minof phrenic nerve pacing); and 4)recovery + CO₂ (recovery after 1 hof mechanical ventilation). Ultrasound measurements of the posteriordiaphragm were made (inspiratory mean velocity) in the transverseplane. Images were obtained from the midline, just inferior to thexiphoid process, and perpendicular to the abdomen. M-mode measures weremade of the right posterior hemidiaphragm in the plane just lateral tothe inferior vena cava. Abdominal and esophageal pressures weremeasured and transdiaphragmatic pressure (Pdi) was calculated duringspontaneous (Sp) and paced (Pace) breaths. Arterial blood gases werealso measured. Pdi(Sp) and Pdi(Pace)during baseline + CO₂ were 8 ± 0.7 and 49 ± 11 cmH₂O, respectively, anddecreased to 6 ± 1.0 and 27 ± 7 cmH₂O,respectively, during fatigue + CO₂. Mean inspiratory velocityalso decreased from 13 ± 2 to 8 ± 1 cm/s during theseconditions. All variables returned to baseline during recovery + CO₂. Ultrasonography can beused to quantify diaphragm function and identify piglet diaphragm fatigue.

     

Alterations in the surface properties of lung surfactant in the torpid marsupial Sminthopsis crassicaudata

Lopatko, Olga V., Sandra Orgeig, Christopher B. Daniels, andDavid Palmer. Alterations in the surface propertiesof lung surfactant in the torpid marsupial Sminthopsiscrassicaudata. J. Appl.Physiol. 84(1): 146-156, 1998.Torpor changes thecomposition of pulmonary surfactant (PS) in the dunnartSminthopsis crassicaudata [C.Langman, S. Orgeig, and C. B. Daniels. Am. J. Physiol. 271 (Regulatory IntegrativeComp. Physiol. 40): R437-R445, 1996]. Herewe investigated the surface activity of PS in vitro. Five micrograms ofphospholipid per centimeter squared surface area of whole lavage (frommice or from warm-active, 4-, or 8-h torpid dunnarts) were applieddropwise onto the subphase of a Wilhelmy-Langmuir balance at 20°Cand stabilized for 20 min. After 4 h of torpor, the adsorption rateincreased, and equilibrium surface tension (ST_eq), minimal surface tension(ST_min), and the %areacompression required to achieveST_min decreased, compared with thewarm-active group. After 8 h of torpor,ST_min decreased [from 5.2 ± 0.3 to 4.1 ± 0.3 (SE) mN/m]; %area compressionrequired to achieve ST_min decreased (from 43.4 ± 1.0 to 27.4 ± 0.8); the rate ofadsorption decreased; and ST_eqincreased (from 26.3 ± 0.5 to 38.6 ± 1.3 mN/m). ST-areaisotherms of warm-active dunnarts and mice at 20°C had a shoulderon compression and a plateau on expansion. These disappeared on theisotherms of torpid dunnarts. Samples of whole lavage (from warm-activeand 8-h torpor groups) containing 100 µg phospholipid/ml were studiedby using a captive-bubble surfactometer at 37°C. After 8 h oftorpor, ST_min increased (from 6.4 ± 0.3 to 9.1 ± 0.3 mN/m) and %area compressiondecreased in the 2nd (from 88.6 ± 1.7 to 82.1 ± 2.0) and 3rd(from 89.1 ± 0.8 to 84.9 ± 1.8) compression-expansion cycles, compared with warm-active dunnarts. ST-area isotherms ofwarm-active dunnarts at 37°C did not have a shoulder oncompression. This shoulder appeared on the isotherms of torpiddunnarts. In conclusion, there is a strong correlation between in vitrochanges in surface activity and in vivo changes in lipid composition of PS during torpor, although static lung compliance remained unchanged (see Langman et al. cited above). Surfactant from torpid animals ismore active at 20°C and less active at 37°C than that ofwarm-active animals, which may represent a respiratory adaptation tolow body temperatures of torpid dunnarts.

     

Cardiorespiratory responses to systemic administration of a protein kinase C inhibitor in conscious rats

Gozal, David, Gavin R. Graff, José E. Torres, SanjayG. Khicha, Gautam S. Nayak, Narong Simakajornboon, and Evelyne Gozal. Cardiorespiratory responses to systemic administration of aprotein kinase C inhibitor in conscious rats. J. Appl.Physiol. 84(2): 641-648, 1998.Although proteinkinase C (PKC) is an essential component of multiple neurally mediatedevents, its role in respiratory control remains undefined. Theventilatory effects of a systemically active PKC inhibitor (Ro-32-0432;100 mg/kg ip) were assessed by whole body plethysmography duringnormoxia, hypoxia (10% O₂), andhyperoxia (100% O₂) inunrestrained Sprague-Dawley rats. A sustained expiratory time increaseoccurred within 8-10 min of injection in room air[mean 44.8 ± 5.2 (SE) % ], was similarto expiratory time prolongations after Ro-32-0432 administration during100% O₂ (45.5 ± 8.1%; not significant), and was associated with mildminute ventilation (E) decreases.Hypercapnic ventilatory responses (5%CO₂) remained unchanged afterRo-32-0432. During 10% O₂,E increased from 122.6 ± 15.6 to 195.7 ± 10.1 ml/min in vehicle-treated rats(P < 0.001). In contrast, markedattenuation of E hypoxic responsesoccurred after Ro-32-0432 [86.2 ± 6.2 ml/min inroom air to 104.1 ± 7.1 ml/min in 10%O₂; pre- vs. post-Ro32-0432, P < 0.001 (analysis ofvariance)]. Overall, PKC activity was reduced and increases withhypoxia were abolished in the particulate subcellular fraction of brain tissue after Ro-32-0432 treatment, indicating thatthis compound readily crosses the blood-brain barrier. We conclude thatsystemic PKC inhibition elicits significant centrally mediatedexpiratory prolongations and ventilatory reductions as well as bluntedventilatory responses to hypoxia but not to hypercapnia. Wepostulate that PKC plays an important role in signal transduction pathways within brain regions underlying respiratory control.

     

Role of inhibition of nitric oxide production in monocrotaline-induced pulmonary hypertension

Mathew, Rajamma, Elizabeth S. Gloster, T. Sundararajan, Carl I. Thompson, Guillermo A. Zeballos, andMichael H. Gewitz. Role of inhibition of nitric oxide productionin monocrotaline-induced pulmonary hypertension. J. Appl. Physiol. 82(5): 1493-1498, 1997.Monocrotaline (MCT)-induced pulmonary hypertension (PH) isassociated with impaired endothelium-dependent nitric oxide(NO)-mediated relaxation. To examine the role of NO in PH,Sprague-Dawley rats were given a single subcutaneous injection ofnormal saline [control (C)], 80 mg/kg MCT, or the same doseof MCT and a continuous subcutaneous infusion of 2 mg · kg¹ · day¹of molsidomine, a NO prodrug (MCT+MD). Two weeks later, plasma NO₃ levels, pulmonary arterialpressure (Ppa), ratio of right-to-left ventricular weights (RV/LV) toassess right ventricular hypertrophy, and pulmonary histology wereevaluated. The plasma NO₃ level inthe MCT group was reduced to 9.2 ± 1.5 µM(n = 12) vs. C level of 17.7 ± 1.8 µM (n = 8; P < 0.02). In the MCT+MD group,plasma NO₃ level was 12.3 ± 2.0 µM (n = 8). Ppa and RV/LV in theMCT group were increased compared with C [Ppa, 34 ± 3.4 mmHg(n = 6) vs. 19 ± 0.8 mmHg(n = 8) and 0.41 ± 0.01 (n = 9) vs. 0.25 ± 0.008 (n = 8), respectively;P < 0.001]. In the MCT+MDgroup, Ppa and RV/LV were not different when compared with C [19 ± 0.5 mmHg (n = 5) and 0.27 ± 0.01 (n = 9), respectively;P < 0.001 vs. MCT]. Medial wall thickness of lung vessels in the MCT group was increased comparedwith C [31 ± 1.5% (n = 9)vs. 13 ± 0.66% (n = 9);P < 0.001], and MDpartially prevented MCT-induced pulmonary vascular remodeling [22 ± 1.2% (n = 11);P < 0.001 vs. MCT and C].These results indicate that a defect in the availability of bioactive NO may play an important role in the pathogenesis of MCT-induced PH.

     

Pulmonary clearance of circulating endothelin-1 in dogs in vivo: exclusive role of ETB receptors

Dupuis, Jocelyn, Carl A. Goresky, and Alain Fournier.Pulmonary clearance of circulating endothelin-1 in dogs in vivo: exclusive role of ET_B receptors.J. Appl. Physiol. 81(4):1510-1515, 1996.The pulmonary circulation plays an importantrole in the removal of circulating endothelin-1 (ET-1). Plasma ET-1levels are increased in pulmonary hypertensive states of variousetiologies (e.g., idiopathic, heart failure, and congenital anomalies)in proportion to the severity of pulmonary hypertension. It is possible that reduced pulmonary clearance of this peptide contributes to thehyperendothelinemia of those pathologies. TheET_A andET_B receptors are abundant in lungtissues: on the vascular endothelium, theET_B receptor is predominant andmay contribute to ET-1 extraction through receptor-mediatedendocytosis. We designed experiments to determine and quantify theimportance of the ET_A andET_B receptors in the pulmonaryextraction of circulating ET-1 in anesthetized dogs. The single-passcumulative tracer ET-1 extraction by the lung was measured with theindicator-dilution technique before and 5 min after intrapulmonaryinjection of the specific ET_Aantagonist BQ-123 (n = 5, 120-960nmol) and the specific ET_Bantagonist BQ-788 (n = 6, 1,000 nmol).The inhibitors had no significant effect on pulmonary and systemichemodynamics. Mean cumulative pulmonary ET-1 extraction was notmodified by BQ-123 [control (C): 36 ± 4%, antagonist (A): 34 ± 6%] but was completely abolished by BQ-788 (C: 34 ± 6%, A: 0 ± 2%, P < 0.001). Thepulmonary rate constant (K) for ET-1removal was also unaffected by BQ-123 (C: 0.050 ± 0.0085 s¹, A: 0.047 ± 0.012 s¹) but significantlydecreased and became close to zero after BQ-788 (C: 0.058 ± 0.014 s¹, A: 0.009 ± 0.007 s¹,P < 0.001). We conclude that theET_B receptor is completely andexclusively responsible for pulmonary ET-1 removal in vivo. Futurestudies are needed to show whether desensitization or downregulation ofthe ET_B receptor may contribute tothe increase in circulating ET-1 levels in conditions associated withpulmonary hypertension. This novel pulmonary endothelial cell functionmay play a protective role by modulating circulating ET-1 levels in thesystemic circulation.

     

Isoproterenol attenuates high vascular pressure-induced permeability increases in isolated rat lungs

Parker, James C., and Claire L. Ivey.Isoproterenol attenuates high vascular pressure-inducedpermeability increases in isolated rat lungs. J. Appl.Physiol. 83(6): 1962-1967, 1997.To separate thecontributions of cellular and basement membrane components of thealveolar capillary barrier to the increased microvascular permeabilityinduced by high pulmonary venous pressures (Ppv), we subjected isolatedrat lungs to increases in Ppv, which increased capillary filtrationcoefficient(K_fc) withoutsignificant hemorrhage (31 cmH₂O)and with obvious extravasation of red blood cells (43 cmH₂O). Isoproterenol (20 µM)was infused in one group (Iso) to identify a reversible cellularcomponent of injury, and residual blood volumes were measured to assessextravasation of red blood cells through ruptured basement membranes.In untreated lungs (High Ppv group),K_fc increased 6.2 ± 1.3 and 38.3 ± 15.2 times baseline during the 31 and 43 cmH₂O Ppv states. In Iso lungs, K_fc was 36.2%(P < 0.05) and 64.3% of that in theHigh Ppv group at these Ppv states. Residual blood volumes calculatedfrom tissue hemoglobin contents were significantly increased by53-66% in the high Ppv groups, compared with low vascularpressure controls, but there was no significant difference between HighPpv and Iso groups. Thus isoproterenol significantly attenuatedvascular pressure-induced K_fc increases atmoderate Ppv, possibly because of an endothelial effect, but it did notaffect red cell extravasation at higher vascular pressures.

     

Effects of inhaled CO2 and added dead space on idiopathic central sleep apnea

Xie, Ailiang, Fiona Rankin, Ruth Rutherford, and T. DouglasBradley. Effects of inhaledCO₂ and added dead space on idiopathic central sleep apnea. J. Appl.Physiol. 82(3): 918-926, 1997.We hypothesizedthat reductions in arterial PCO₂ (Pa_CO2) below the apnea threshold play akey role in the pathogenesis of idiopathic central sleep apnea syndrome(ICSAS). If so, we reasoned that raisingPa_CO2 would abolish apneas in thesepatients. Accordingly, patients with ICSAS were studied overnight onfour occasions during which the fraction of end-tidalCO₂ and transcutaneous PCO₂ were measured: during room airbreathing (N1), alternating room airand CO₂ breathing(N2),CO₂ breathing all night(N3), and addition of dead space viaa face mask all night (N4).Central apneas were invariably preceded by reductions infraction of end-tidal CO₂. Bothadministration of a CO₂-enrichedgas mixture and addition of dead space induced 1- to 3-Torr increasesin transcutaneous PCO₂, whichvirtually eliminated apneas and hypopneas; they decreased from43.7 ± 7.3 apneas and hypopneas/h onN1 to 5.8 ± 0.9 apneas andhypopneas/h during N3(P < 0.005), from 43.8 ± 6.9 apneas and hypopneas/h during room air breathing to 5.9 ± 2.5 apneas and hypopneas/h of sleep duringCO₂ inhalation during N2 (P < 0.01), and to 11.6% of the room air level while the patients werebreathing through added dead space duringN4 (P < 0.005). Because raisingPa_CO2 through two different meansvirtually eliminated central sleep apneas, we conclude that centralapneas during sleep in ICSA are due to reductions inPa_CO2 below the apnea threshold.

     

Skeletal muscle chemoreflex and pHi in exercise ventilatory control

Oelberg, David A., Allison B. Evans, Mirko I. Hrovat, PaulP. Pappagianopoulos, Samuel Patz, and David M. Systrom. Skeletal muscle chemoreflex and pH_i inexercise ventilatory control. J. Appl.Physiol. 84(2): 676-682, 1998.To determinewhether skeletal muscle hydrogen ion mediates ventilatory drive inhumans during exercise, 12 healthy subjects performed three bouts ofisotonic submaximal quadriceps exercise on each of 2 days in a 1.5-Tmagnet for ³¹P-magnetic resonancespectroscopy(³¹P-MRS). Bilaterallower extremity positive pressure cuffs were inflated to 45 Torr duringexercise (BLPP_ex) or recovery(BLPP_rec) in a randomized orderto accentuate a muscle chemoreflex. Simultaneous measurements were madeof breath-by-breath expired gases and minute ventilation, arterializedvenous blood, and by ³¹P-MRS ofthe vastus medialis, acquired from the average of 12 radio-frequencypulses at a repetition time of 2.5 s. WithBLPP_ex, end-exercise minuteventilation was higher (53.3 ± 3.8 vs. 37.3 ± 2.2 l/min;P < 0.0001), arterializedPCO₂ lower (33 ± 1 vs. 36 ± 1 Torr; P = 0.0009), and quadricepsintracellular pH (pH_i) more acid (6.44 ± 0.07 vs. 6.62 ± 0.07; P = 0.004), compared withBLPP_rec. Bloodlactate was modestly increased withBLPP_ex but without a change inarterialized pH. For each subject, pH_i was linearly relatedto minute ventilation during exercise but not to arterialized pH. Thesedata suggest that skeletal muscle hydrogen ion contributes to theexercise ventilatory response.

     

Atrial natriuretic peptide levels and plasma volume contraction in acute alveolar hypoxia

Albert, T. S. E., V. L. Tucker, and E. M. Renkin.Atrial natriuretic peptide levels and plasma volume contraction in acute alveolar hypoxia. J. Appl.Physiol. 82(1): 102-110, 1997.Arterial oxygentensions (Pa_O2), atrial natriureticpeptide (ANP) concentrations, and circulating plasma volumes (PV) weremeasured in anesthetized rats ventilated with room air or 15, 10, or8% O₂(n = 5-7). After 10 min ofventilation, Pa_O2 values were 80 ± 3, 46 ± 1, 32 ± 1, and 35 ± 1 Torrand plasma immunoreactive ANP (irANP) levels were 211 ± 29, 229 ± 28, 911 ± 205, and 4,374 ± 961 pg/ml, respectively. AtPa_O2 40 Torr, irANP responses weremore closely related to inspiredO₂(P = 0.014) than toPa_O2 (P = 0.168). PV was 36.3 ± 0.5 µl/g in controls but 8.5 and9.9% lower (P  0.05) for10 and 8% O₂, respectively.Proportional increases in hematocrit were observed in animals withreduced PV; however, plasma protein concentrations were not differentfrom control. Between 10 and 50 min of hypoxia, small increases (+40%)in irANP occurred in 15% O₂;however, there was no further change in PV, hematocrit, plasma protein,or irANP levels in the lower O₂groups. Urine output tended to fall during hypoxia but was notsignificantly different among groups. These findings are compatiblewith a role for ANP in mediating PV contraction during acute alveolarhypoxia.