Adrenergic beta 1- and beta 1+2-receptor blockade suppress the natural killer cell response to head-up tilt in humans

Klokker, M., N. H. Secher, P. Madsen, M. Pedersen, and B. K. Pedersen. Adrenergic ₁-and ₁₊₂-receptor blockade suppress the natural killer cell response to head-up tilt in humans. J. Appl. Physiol. 83(5):1492-1498, 1997.To evaluate stress-induced changes in bloodleukocytes with emphasis on the natural killer (NK) cells, eight malevolunteers were followed during three trials of head-up tilt withadrenergic ₁- (metoprolol) and₁₊₂- (propranolol) blockade andwith saline (control) infusions. The ₁- and₁₊₂-receptor blockade did notaffect the appearance of presyncopal symptoms, but the head-up tiltinduced a transient lymphocytosis that was abolished by₁₊₂-receptor blockade but notby ₁-receptor blockade. Head-uptilt also resulted in delayed neutrophilia, which was insensitive to-receptor blockade. Lymphocyte subset analysis revealed that thehead-up tilt resulted in a twofold increase in the percentage andabsolute number of CD3/CD16⁺andCD3/CD56⁺NK cells in peripheral blood and that this increase was partially blocked by metoprolol and abolished by propranolol. The NKcell activity on a per NK cell basis did not change during head-up tilt, indicating that the cytotoxic capability of NK cells recruited tocirculation is unchanged. The data suggest that the head-up tilt-induced lymphocytosis was due mainly toCD16⁺ andCD56⁺ NK cells and that theirrecruitment to the blood was inhibited by₁- and especially₁₊₂-receptor blockade. Thusstress-induced recruitment of lymphocytes, and of NK cells inparticular, is mediated by epinephrine through activation of-receptors on the lymphocytes.

     

Genome and Hormones: Gender Differences in Physiology: Selected Contribution: Estrogen receptor-alpha gene transfer inhibits proliferation and NF-kappa B activation in VSM cells from female rats

Epidemiological studies have demonstrated that hormonereplacement therapy with estrogen (E₂) or E₂plus progesterone in postmenopausal women decreases the age-associatedrisk of cardiovascular disease by 30-50%. Treatment of vascularsmooth muscle (VSM) cells with physiological concentrations ofE₂ has been shown to inhibit growth factor-stimulated cellproliferation. In this study, we tested the hypothesis thatE₂ inhibits the age-associated increase in VSM cellproliferation by inhibiting nuclear factor (NF)-B pathway. Weinvestigated the effects of E₂ treatment andadenovirus-mediated estrogen receptor (ER)- gene transfer on cellproliferation and NF-B activation using VSM cells cultured from3-mo-old and 24-mo-old Fischer 344 female rats. Our results demonstratethat VSM cell proliferation was significantly increased(P < 0.05) in aged compared with young adult femalerats. Treatment of VSM cells with physiological concentrations ofE₂ inhibited VSM cell proliferation, and this inhibitionwas significantly greater (P < 0.05) in cells from aged female rats compared with young adults. The inhibitory effects ofE₂ on cell proliferation in aged female rats weresignificantly potentiated by overexpression of the human ER- geneinto VSM cells. Constitutive and interleukin (IL)-1-stimulatedNF-B activation was significantly greater (P < 0.05) in VSM cells from aged compared with young female rats.E₂ treatment of VSM cells from aged female rats inhibitedboth constitutive and IL-1-stimulated NF-B activation. ER-gene transfer into VSM cells from aged female rats further augmentedthe inhibitory effects of E₂. In conclusion, our data demonstrate that constitutive and IL-1-stimulated NF-B activation is increased in VSM cells from aged female rats due to loss of E₂ and this can be restored back to normal levels by ER-gene transfer and E₂ treatment. In addition, increasedNF-B signaling may be responsible for increased incidence ofcardiovascular disease in postmenopausal females.

     

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.

     

Ventilatory and metabolic responses to ambient hypoxia or hypercapnia in rats exposed to CO hypoxia

Gautier, Henry, Cristina Murariu, and Monique Bonora.Ventilatory and metabolic responses to ambient hypoxia orhypercapnia in rats exposed to CO hypoxia. J. Appl. Physiol.83(1): 253-261, 1997.We have investigated at ambienttemperatures (T_am) of 25 and5°C the effects of ambient hypoxia(Hx_am; fractional inspired O₂ = 0.14) and hypercapnia(fractional inspiredCO₂ = 0.04) on ventilation (),O₂ uptake(O₂), andcolonic temperature (T_c) in 12 conscious rats before and after carotid body denervation (CBD). Therats were concomitantly exposed to CO hypoxia (Hx_CO; fractional inspired CO = 0.03-0.05%), which decreases arterial O₂ saturation by ~25-40%.The results demonstrate the following. 1) AtT_am of 5°C, in both intact andCBD rats,/O₂ islarger when Hx_am orCO₂ is associated withHx_CO than with normoxia. At T_am of 25°C, this is also thecase except for CO₂ in CBD rats. 2) AtT_am of 5°C, the changes inO₂ andT_c seem to result from additiveeffects of the separate changes induced byHx_am,CO₂, andHx_CO. It is concluded that, inconscious rats, central hypoxia does not depress respiratory activity.On the contrary, particularly whenO₂ is augmented during acold stress, both/O₂during Hx_CO and the ventilatoryresponses to Hx_am andCO₂ are increased. The mechanismsinvolved in this relative hyperventilation are likely to involvediencephalic integrative structures.

     

Effect of prolonged heavy exercise on pulmonary gas exchange in horses

During short-term maximal exercise,horses have impaired pulmonary gas exchange, manifested by diffusionlimitation and arterial hypoxemia, without marked ventilation-perfusion(A/)inequality. Whether gas exchange deteriorates progressively duringprolonged submaximal exercise has not been investigated. Sixthoroughbred horses performed treadmill exercise at ~60% of maximaloxygen uptake until exhaustion (28-39 min). Multipleinert gas, blood-gas, hemodynamic, metabolic rate, and ventilatory datawere obtained at rest and 5-min intervals during exercise. Oxygenuptake, cardiac output, and alveolar-arterialPO₂ gradient were unchanged after thefirst 5 min of exercise. Alveolar ventilation increased progressivelyduring exercise, from increased tidal volume and respiratory frequency,resulting in an increase in arterialPO₂ and decrease in arterialPCO₂. At rest there was minimal A/inequality, log SD of the perfusion distribution (logSD) = 0.20. This doubled by 5 min of exercise (logSD = 0.40) butdid not increase further. There was no evidence of alveolar-end-capillary diffusion limitation during exercise. However, there was evidence for gas-phase diffusion limitation at all time points, and enflurane was preferentially overretained. Horses maintainexcellent pulmonary gas exchange during exhaustive, submaximal exercise. AlthoughA/inequality is greater than at rest, it is less than observed in mostmammals and the effect on gas exchange is minimal.

     

Effects of carotid body hypocapnia during ventilatory acclimatization to hypoxia

Dwinell, M. R., P. L. Janssen, J. Pizarro, and G. E. Bisgard. Effects of carotid body hypocapnia during ventilatory acclimatization to hypoxia. J. Appl.Physiol. 82(1): 118-124, 1997.Hypoxicventilatory sensitivity is increased during ventilatory acclimatizationto hypoxia (VAH) in awake goats, resulting in a time-dependent increasein expired ventilation (E). Theobjectives of this study were to determine whether the increasedcarotid body (CB) hypoxic sensitivity is dependent on the level of CB CO₂ and whether the CBCO₂ gain is changed during VAH.Studies were carried out in adult goats with CB blood gases controlled by an extracorporeal circuit while systemic (central nervous system) blood gases were regulated independently by the level of inhaled gases. Acute E responsesto CB hypoxia (CB PO₂ 40 Torr) and CBhypercapnia (CB PCO₂ 50 and 60 Torr)were measured while systemic normoxia and isocapnia were maintained. CBPO₂ was then lowered to 40 Torr for 4 h while the systemic blood gases were kept normoxic and normocapnic.During the 4-h CB hypoxia, E increasedin a time-dependent manner. Thirty minutes after return to normoxia,the ventilatory response to CB hypoxia was significantly increasedcompared with the initial response. The slope of the CBCO₂ response was also elevatedafter VAH. An additional group of goats(n = 7) was studied with asimilar protocol, except that CB PCO₂was lowered throughout the 4-h hypoxic exposure to prevent reflexhyperventilation. CB PCO₂ wasprogressively lowered throughout the 4-h CB hypoxic period to maintainE at the control level. After the 4-hCB hypoxic exposure, the ventilatory response to hypoxia was alsosignificantly elevated. However, the slope of the CBCO₂ response was not elevatedafter the 4-h hypoxic exposure. These results suggest that CBsensitivity to both O₂ andCO₂ is increased after 4 h of CBhypoxia with systemic isocapnia. The increase in CB hypoxic sensitivityis not dependent on the level of CBCO₂ maintained during the 4-hhypoxic period.

     

Quantitative analysis of transpleural flux in the isolated lung

Li, M. H., J. Hildebrandt, and M. P. Hlastala.Quantitative analysis of transpleural flux in the isolated lung.J. Appl. Physiol. 82(2): 545-551, 1997.In this study, the loss of inert gas through the pleura of anisolated ventilated and perfused rabbit lung was assessed theoreticallyand experimentally. A mathematical model was used to represent an idealhomogeneous lung placed within a box with gas flow(box) surrounding the lung. Thealveoli are assumed to be ventilated with room air(A) andperfused at constant flow () containinginert gases (x) with various perfusate-air partition coefficients(_p,x).The ratio of transpleural flux of gas(pl_x)to its total delivery to the lung via pulmonary artery( ),representing fractional losses across the pleura, can be shown todepend on four dimensionless ratios:1)_p,x,2) the ratio of alveolar ventilation to perfusion(A/), 3) the ratioof the pleural diffusing capacity(Dpl_x) to the conductance ofthe alveolar ventilation (Dpl_x /A_g,where _g is the capacitancecoefficient of gas), and 4) theratio of extrapleural (box) ventilation to alveolar ventilation(box/A).Experiments were performed in isolated perfused and ventilated rabbitlungs. The perfusate was a buffer solution containing six dissolvedinert gases covering the entire 10⁵-fold range of_p,x usedin the multiple inert gas elimination technique. Steady-state inert gasconcentrations were measured in the pulmonary arterial perfusate,pulmonary venous effluent, exhaled gas, and box effluent gas. Theexperimental data could be described satisfactorily by thesingle-compartment model. It is concluded that a simple theoreticalmodel is a useful tool for predicting transpleural flux from isolatedlung preparations, with known ventilation and perfusion, for inertgases within a wide range of .

     

Effects of 5-day hypoxia on cardiac adrenergic neurotransmission in rats

Chronic hypoxiainduces an overall sympathetic hyperactivation associated with amyocardial -receptor desensitization. The mechanismsinvolved in this desensitization were evaluated in 32 male Wistar ratskept in a hypobaric pressure chamber(PO₂ = 40 Torr, atmospheric pressure = 450 Torr) for 5 days. In hypoxic compared with normoxic conditions,plasma norepinephrine (NE) levels were higher (2.1 ± 0.7 vs. 0.6 ± 0.2 ng/ml) with no difference in the plasma epinephrine levels(2.2 ± 0.7 vs. 1.8 ± 0.3 ng/ml). In hypoxia neuronal NE uptakemeasured by [³H]NE wasdecreased by 32% in the right ventricle (RV) and by 35% in the leftventricle (LV), and[³H]mazindol in vitrobinding showed a decrease in uptake-1 carrier protein density by 38%in the RV and by 41% in the LV. In vitro binding assays with[³H]CGP-12177 indicate-adrenoceptor density reduced by 40% in the RV and by 32% in theLV, and this was due to reduced₁-subtype fraction (competitionbinding experiments with practolol). Hypoxia reduced the production ofcAMP induced by isoproterenol (36% decrease in the RV and 41%decrease in the LV), 5'-guanylylimododiphosphate (40% decreasein the RV and 42% decrease in the LV), and forskolin (39% decrease inthe RV and 41% decrease in the LV) but did not alter the effect ofMnCl₂ and NaF. Quantitation ofinhibitory G-protein -subunit by immunochemical analysis showed a46% increase in the cardiac-specific isoformG_i2 inhypoxic hearts. The present data demonstrate that in rats 5-day hypoxialeads to changes in pre- and postsynaptic myocardial adrenergicfunction. The myocardial desensitization associated with both areduction in externalized ₁-adrenoceptor and an increasein inhibitory G-protein subunit may be caused by increased synaptic NElevels due to impaired uptake-1 system.

     

Smaller lungs in women affect exercise hyperpnea

We subjected 29 healthy young women (age: 27 ± 1 yr) with a wide range of fitness levels [maximal oxygenuptake (O_{2 max}): 57 ± 6 ml · kg¹ · min¹;35-70ml · kg¹ · min¹]to a progressive treadmill running test. Our subjects had significantly smaller lung volumes and lower maximal expiratory flow rates, irrespective of fitness level, compared with predicted values for age-and height-matched men. The higher maximal workload in highly fit(O_{2 max} > 57 ml · kg¹ · min¹,n = 14) vs. less-fit(O_{2 max} < 56 ml · kg¹ · min¹,n = 15) women caused a higher maximalventilation (E) with increased tidal volume (VT)and breathing frequency (f_b) atcomparable maximal VT/vitalcapacity (VC). More expiratory flow limitation (EFL; 22 ± 4% ofVT) was also observed duringheavy exercise in highly fit vs. less-fit women, causing higherend-expiratory and end-inspiratory lung volumes and greater usage oftheir maximum available ventilatory reserves.HeO₂ (79% He-21%O₂) vs. room air exercise trialswere compared (with screens added to equalize external apparatusresistance). HeO₂ increasedmaximal expiratory flow rates (20-38%) throughout the range ofVC, which significantly reduced EFL during heavy exercise. When EFL wasreduced with HeO₂, VT,f_b, andE (+16 ± 2 l/min) weresignificantly increased during maximal exercise. However, in theabsence of EFL (during room air exercise),HeO₂ had no effect onE. We conclude that smaller lungvolumes and maximal flow rates for women in general, and especiallyhighly fit women, caused increased prevalence of EFL during heavyexercise, a relative hyperinflation, an increased reliance onf_b, and a greater encroachment onthe ventilatory "reserve." Consequently,VT andE are mechanically constrained duringmaximal exercise in many fit women because the demand for highexpiratory flow rates encroaches on the airways' maximum flow-volumeenvelope.

     

Quantitative methanol-burning lung model for validating gas-exchange measurements over wide ranges of FIO2

Themethanol-burning lung model has been used as a technique for generatinga predictable ratio of carbon dioxide production (CO₂) to oxygen consumption(O₂) or respiratoryquotient (RQ). Although an accurate RQ can be generated, quantitativelypredictable and adjustableO₂ andCO₂ cannot be generated. Wedescribe a new burner device in which the combustion rate of methanolis always equal to the infusion rate of fuel over an extended range ofO₂ concentrations. This permitsthe assembly of a methanol-burning lung model that is usable withO₂ concentrations up to 100% and provides continuously adjustable and quantitativeO₂ (69-1,525 ml/min)and CO₂ (46-1,016ml/min) at a RQ of 0.667.

     

Role for anions in pulmonary endothelial permeability

Griffin, M. Pamela. Role for anions in pulmonaryendothelial permeability. J. Appl.Physiol. 83(2): 615-622, 1997.-Adrenergic stimulation reduces albumin permeation across pulmonary artery endothelial monolayers and induces changes in cell morphology that aremediated by Cl flux. Wetested the hypothesis that anion-mediated changes in endothelial cellsresult in changes in endothelial permeability. We measured permeationof radiolabeled albumin across bovine pulmonary arterial endothelialmonolayers when the extracellular anion was Cl,Br,I,F, acetate(Ac), gluconate(G), and propionate(Pr). Permeability toalbumin (P_albumin)was calculated before and after addition of 0.2 mM of thephosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX), whichreduces permeability. InCl, theP_albumin was 3.05 ± 0.86 × 10⁶ cm/s andfell by 70% with the addition of IBMX. The initialP_albumin was lowest forPr andAc. InitialP_albumin was higher inBr,I,G, andF than inCl. A permeability ratiowas calculated to examine the IBMX effect. The greatest IBMX effect wasseen when Cl was theextracellular anion, and the order among halide anions wasCl > Br > I > F. Although the level ofextracellular Ca²⁺ concentration([Ca²⁺]_o)varied over a wide range in the anion solutions,[Ca²⁺]_odid not systematically affect endothelial permeability in this system.When Cl was theextracellular anion, varying[Ca²⁺]_ofrom 0.2 to 2.8 mM caused a change in initialP_albumin but no changein the IBMX effect. The anion channel blockers4-acetamido-4-isothiocyanotostilbene-2,2-disulfonic acid(0.25 mM) and anthracene-9-carboxylic acid (0.5 mM) significantly altered initialP_albumin and the IBMXeffect. The anion transport blockers bumetanide (0.2 mM) and furosemide(1 mM) had no such effects. We conclude that extracellular anionsinfluence bovine pulmonary arterial endothelial permeability and thatthe pharmacological profile fits better with the activity of anionchannels than with other anion transport processes.

     

Effects of CO2-HCO<SUP>&minus;</SUP><SUB>3</SUB> on catecholamine efflux from cat carotid body

Iturriaga, Rodrigo, and Julio Alcayaga. Effects ofCO₂-on catecholamine efflux from cat carotid body. J. Appl. Physiol. 84(1): 60-68, 1998.Using achronoamperometric technique with carbon-fiber microelectrodes andneural recordings, we simultaneously measured the effects of thefollowing procedures on catecholamine efflux (CA) andfrequency of chemosensory discharges (f_x) fromsuperfused cat carotid body: 1) theaddition ofCO₂- to Tyrode solution previously buffered withN-2-hydroxyethylpiperazine-N -2-ethanesulfonicacid, maintaining pH at 7.40; 2)hypercapnia (10% CO₂, pH 7.10);3) hypoxia(PO₂ h  40 Torr) with andwithoutCO₂-;and 4) the impact of several bolusesof dopamine (DA; 10-100 µg) on hypoxic and hypercapnic challenges. WithCO₂-,hypoxia increased f_x which preceded CAincreases, whereas hypercapnia raised f_x but didnot consistently increase CA. Repeated stimuli induced similarf_x increases, but attenuated CA. AfterDA, hypoxia produced larger CA, which preceded chemosensoryresponses. WithoutCO₂-, hypoxia produced a similar pattern of CA andf_x responses. Switching to Tyrode solution withCO₂-at pH 7.40 raised f_x but did not increase CA.WithCO₂- and after DA, hypoxic-induced CAs were larger than in its absence. Results suggest that DA release is not essential for chemosensory excitation.

     

Respiratory muscle work compromises leg blood flow during maximal exercise

Harms, Craig A., Mark A. Babcock, Steven R. McClaran, DavidF. Pegelow, Glenn A. Nickele, William B. Nelson, and Jerome A. Dempsey.Respiratory muscle work compromises leg blood flow during maximalexercise. J. Appl. Physiol.82(5): 1573-1583, 1997.We hypothesized that duringexercise at maximal O₂ consumption (O_{2 max}),high demand for respiratory muscle blood flow() would elicit locomotor muscle vasoconstrictionand compromise limb . Seven male cyclists(O_{2 max} 64 ± 6 ml · kg¹ · min¹)each completed 14 exercise bouts of 2.5-min duration atO_{2 max} on a cycleergometer during two testing sessions. Inspiratory muscle work waseither 1) reduced via aproportional-assist ventilator, 2)increased via graded resistive loads, or3) was not manipulated (control).Arterial (brachial) and venous (femoral) blood samples, arterial bloodpressure, leg (legs;thermodilution), esophageal pressure, andO₂ consumption(O₂) weremeasured. Within each subject and across all subjects, at constantmaximal work rate, significant correlations existed(r = 0.74-0.90;P < 0.05) between work of breathing(Wb) and legs (inverse), leg vascular resistance (LVR), and leg O₂(O_{2 legs};inverse), and between LVR and norepinephrine spillover. Mean arterialpressure did not change with changes in Wb nor did tidal volume orminute ventilation. For a ±50% change from control in Wb,legs changed 2 l/min or 11% of control, LVRchanged 13% of control, and O₂extraction did not change; thusO_{2 legs}changed 0.4 l/min or 10% of control. TotalO_{2 max} was unchangedwith loading but fell 9.3% with unloading; thusO_{2 legs}as a percentage of totalO_{2 max} was 81% incontrol, increased to 89% with respiratory muscle unloading, anddecreased to 71% with respiratory muscle loading. We conclude that Wbnormally incurred during maximal exercise causes vasoconstriction inlocomotor muscles and compromises locomotor muscle perfusion andO₂.

     

Ventilatory response to exercise in diabetic subjects with autonomic neuropathy

Tantucci, C., P. Bottini, M. L. Dottorini, E. Puxeddu, G. Casucci, L. Scionti, and C. A. Sorbini. Ventilatory response toexercise in diabetic subjects with autonomic neuropathy.J. Appl. Physiol. 81(5):1978-1986, 1996.We have used diabetic autonomic neuropathy as amodel of chronic pulmonary denervation to study the ventilatoryresponse to incremental exercise in 20 diabetic subjects, 10 with(Dan+) and 10 without (Dan) autonomic dysfunction, and in 10 normal control subjects. Although both Dan+ and Dan subjectsachieved lower O₂ consumption andCO₂ production(CO₂) thancontrol subjects at peak of exercise, they attained similar values ofeither minute ventilation(E) oradjusted ventilation (E/maximalvoluntary ventilation). The increment of respiratory rate withincreasing adjusted ventilation was much higher in Dan+ than inDan and control subjects (P < 0.05). The slope of the linearE/CO₂relationship was 0.032 ± 0.002, 0.027 ± 0.001 (P < 0.05), and 0.025 ± 0.001 (P < 0.001) ml/min inDan+, Dan, and control subjects, respectively. Bothneuromuscular and ventilatory outputs in relation to increasingCO₂ were progressivelyhigher in Dan+ than in Dan and control subjects. At peak ofexercise, end-tidal PCO₂ was muchlower in Dan+ (35.9 ± 1.6 Torr) than in Dan (42.1 ± 1.7 Torr; P < 0.02) and control (42.1 ± 0.9 Torr; P < 0.005) subjects.We conclude that pulmonary autonomic denervation affects ventilatoryresponse to stressful exercise by excessively increasing respiratoryrate and alveolar ventilation. Reduced neural inhibitory modulationfrom sympathetic pulmonary afferents and/or increasedchemosensitivity may be responsible for the higher inspiratoryoutput.

     

Dobutamine as a countermeasure for reduced exercise performance of rats exposed to simulated microgravity

Tipton, Charles M., and Lisa A. Sebastian. Dobutamineas a countermeasure for reduced exercise performance of rats exposed tosimulated microgravity. J. Appl.Physiol. 82(5): 1607-1615, 1997.Post-spaceflightresults and findings from humans and rodents after conditions of bedrest or simulated microgravity indicate maximum exercise performance issignificantly compromised. However, the chronic administration ofdobutamine (a synthetic adrenomimetic) to humans in relevantexperiments improves exercise performance by mechanisms that preventthe decline in peak O₂ consumption (O_{2 peak}) and reducethe concentration of lactic acid measured in the blood. Althoughdobutamine restores maximumO₂values in animals participating in simulated microgravitystudies, it is unknown whether injections of this₁-,₁-, and₂-adrenoceptor agonist in ratswill enhance exercise performance. To investigate this, adult male ratswere assigned to three experimental groups: caged control receivingsaline; head-down, tail-suspended (HDS) receiving saline (HDS-S); andan HDS group receiving dobutamine hydrochloride injections (1.8 mg/kgtwice daily per rat). Treadmill tests were performed before suspension,at 14 days, and after 21 days.O_{2 peak}, run time,and the rate of rise in colonic temperature (heating index) wereevaluated after 14 days, whereas at 21 days, hemodynamic responses(heart rate, systolic blood pressure, and double product) weredetermined during submaximal exercise with blood pH, blood gases, andlactic acid concentration values obtained during maximal exercise. Incontrast to the results for the HDS-S rats, dobutamine administrationdid restore O_{2 peak} and "normalized" lactic acid concentrations during maximalexercise. However, daily injections were unable to enhance exerciseperformance aspects associated with treadmill run time, the mechanicalefficiency of running, the heating index, or the retention of muscleand body mass. These simulated microgravity findings suggest that dobutamine's potential value as a countermeasure for postflight maximal performance or for egress emergencies is limited and that othercountermeasures must be considered.

     

Differences in skeletal muscle between men and women with chronic heart failure

Men with chronic heart failure (CHF) have alterationsin their skeletal muscle that are partially responsible for a decreased exercise tolerance. The purpose of this study was to investigate whether skeletal muscle alterations in women with CHF are similar tothose observed in men and if these alterations are related to exerciseintolerance. Twenty-five men and thirteen women with CHFperformed a maximal exercise test for evaluation of peak oxygen consumption (O₂) and resting leftventricular ejection fraction, after which a biopsy of the vastuslateralis was performed. Twenty-one normal subjects (11 women, 10 men)were also studied. The relationship between muscle markers and peakO₂ was consistent for CHF men and women.When controlling for gender, analysis showed that oxidative enzymes andcapillary density are the best predictors of peak O_2. These results indicatethat aerobically matched CHF men and women have no differences inskeletal muscle biochemistry and histology. However, when CHF groupswere separated by peak exercise capacity of 4.5 metabolic equivalents(METs), CHF men with peak O₂ >4.5METs had increased citrate synthase and 3-hydroxyacyl-CoA dehydrogenasecompared with CHF men with peak O₂ <4.5METs. CHF men with a lower peak O₂ hadincreased capillary density compared with men with higher peakO₂. These observations were notreproduced in CHF women. This suggests that differences may existin how skeletal muscle adapts to decreasing peakO₂ in patients with CHF.

     

Kinetics of oxygen uptake at the onset of exercise in boys and men

The objective of this study was to compare theO₂ uptake(O₂) kinetics at the onsetof heavy exercise in boys and men. Nine boys, aged 9-12 yr, and 8 men, aged 19-27 yr, performed a continuous incremental cyclingtask to determine peak O₂(O_{2 peak}).On 2 other days, subjects performed each day four cycling tasks at 80 rpm, each consisting of 2 min of unloaded cycling followed twice bycycling at 50%O_{2 peak} for 3.5 min,once by cycling at 100%O_{2 peak} for 2 min,and once by cycling at 130%O_{2 peak} for 75 s.O₂ deficit was not significantlydifferent between boys and men (respectively, 50%O_{2 peak} task: 6.6 ± 11.1 vs. 5.5 ± 7.3 ml · min¹ · kg¹;100% O_{2 peak} task:28.5 ± 8.1 vs. 31.8 ± 6.3 ml · min¹ · kg¹;and 130%O_{2 peak}task: 30.1 ± 5.7 vs. 35.8 ± 5.3 ml · min¹ · kg¹).To assess the kinetics, phase I was excluded from analysis. Phase IIO₂ kinetics could bedescribed in all cases by a monoexponential function. ANOVA revealed nodifferences in time constants between boys and men (respectively, 50%O_{2 peak}task: 22.8 ± 5.1 vs. 26.4 ± 4.1 s; 100%O_{2 peak} task: 28.0 ± 6.0 vs. 28.1 ± 4.4 s; and 130%O_{2 peak} task: 19.8 ± 4.1 vs. 20.7 ± 5.7 s). In conclusion, O₂ deficit and fast-componentO₂ on-transientsare similar in boys and men, even at high exercise intensities, whichis in contrast to the findings of other studies employing simplermethods of analysis. The previous interpretation that children relyless on nonoxidative energy pathways at the onset of heavy exercise isnot supported by our findings.

     

Abnormal oxygen uptake kinetic responses in women with type II diabetes mellitus

Persons with type II diabetes mellitus(DM), even without cardiovascular complications have a decreasedmaximal oxygen consumption (O_{2 max}) andsubmaximal oxygen consumption(O₂) duringgraded exercise compared with healthy controls. Weevaluated the hypothesis that change in the rate ofO₂ in response to the onsetof constant-load exercise (measured byO₂-uptakekinetics) was slowed in persons with type II DM. Ten premenopausalwomen with uncomplicated type II DM, 10 overweight, nondiabeticwomen, and 10 lean, nondiabetic women had aO_{2 max} test. On twoseparate occasions, subjects performed 7-min bouts of constant-loadbicycle exercise at workloads below and above the lactate threshold toenable measurements of O₂kinetics and heart rate kinetics (measuring rate of heart rate rise).O_{2 max}was reduced in subjects with type II DM compared with both lean andoverweight controls (P < 0.05).Subjects with type II DM had slowerO₂ and heart rate kineticsthan did controls at constant workloads below the lactate threshold.The data suggest a notable abnormality in the cardiopulmonary responseat the onset of exercise in people with type II DM. The findings mayreflect impaired cardiac responses to exercise, although an additional defect in skeletal muscle oxygen diffusion or mitochondrial oxygen utilization is also possible.

     

Effect of prolonged, heavy exercise on pulmonary gas exchange in athletes

During maximalexercise, ventilation-perfusion inequality increases, especially inathletes. The mechanism remains speculative. Wehypothesized that, if interstitial pulmonary edema is involved, prolonged exercise would result in increasing ventilation-perfusion inequality over time by exposing the pulmonary vascular bed to highpressures for a long duration. The response to short-term exercise wasfirst characterized in six male athletes [maximal O₂ uptake(O_{2 max}) = 63 ml · kg¹ · min¹] by using 5 minof cycling exercise at 30, 65, and 90%O_{2 max}. Multiple inert-gas, blood-gas, hemodynamic, metabolic rate, and ventilatory data were obtained. Resting log SD of the perfusion distribution (logSD) was normal [0.50 ± 0.03 (SE)] and increased with exercise (logSD = 0.65 ± 0.04, P < 0.005), alveolar-arterialO₂ difference increased (to 24 ± 3 Torr), and end-capillary pulmonary diffusion limitation occurred at 90%O_{2 max}. The subjectsrecovered for 30 min, then, after resting measurements were taken,exercised for 60 min at ~65%O_{2 max}.O₂ uptake, ventilation, cardiacoutput, and alveolar-arterial O₂difference were unchanged after the first 5 min of this test, but logSD increased from0.59 ± 0.03 at 5 min to 0.66 ± 0.05 at 60 min(P < 0.05), without pulmonary diffusion limitation. LogSD was negativelyrelated to total lung capacity normalized for body surface area(r = 0.97,P < 0.005 at 60 min). These data are compatible with interstitial edema as a mechanism and suggest that lungsize is an important determinant of the efficiency of gas exchangeduring exercise.

     

Oxygen transport in conscious newborn dogs during hypoxic hypometabolism

We questioned whether the decrease inO₂ consumption(O₂) during hypoxia innewborns is a regulated response or reflects a limitation inO₂ availability. Experiments wereconducted on previously instrumented conscious newborn dogs.O₂ was measured at a warmambient temperature (30°C, n = 7)or in the cold (20°C, n = 6),while the animals breathed air or were sequentially exposed to 15 minof fractional inspired O₂(FI_O2): 21, 18, 15, 12, 10, 8, and 6%. In normoxia,O₂ averaged 15 ± 1 (SE)and 25 ± 1 ml · kg¹ · min¹in warm and cold conditions, respectively. In the warmcondition, hypometabolism (i.e., hypoxicO₂ < normoxicO₂) occurred at FI_O2 10%, whereas in thecold condition, hypometabolism occurred atFI_O2 12%. The sameresults were obtained in a separate group(n = 14) of noninstrumented puppies.For all levels of FI_O2 withhypometabolism, the relationships between measures ofO₂ availability (arterialO₂ saturation or content, venousPO₂ or saturation,x-axis) vs.O₂(y-axis) had lower slopes in warm than in coldconditions. Hence, O₂ during hypometabolism in the warm condition was not the maximal attainable for the level of oxygenation. The results do not support thepossibility that the hypoxic drop inO₂ in the newborn reflects a limitation in O₂availability. The results are compatible with the ideathat the phenomenon is one of "regulated conformism" tohypoxia.