Importance of the lactate anion in control of breathing

Hardarson, Thorir, Jon O. Skarphedinsson, and TorarinnSveinsson. Importance of the lactate anion in control ofbreathing. J. Appl. Physiol. 84(2):411-416, 1998.The purpose of this study was to examine theeffects of raising the arterialLa andK⁺ levels on minute ventilation(E) in rats. EitherLa or KCl solutions wereinfused in anesthetized spontaneously breathing Wistar rats to raisethe respective ion arterial concentration ([La] and[K⁺]) gradually tolevels similar to those observed during strenuous exercise.E, blood pressure, and heart rate wererecorded continuously, and arterial[La],[K⁺], pH, and bloodgases were repeatedly measured from blood samples. To prevent changesin pH during the Lainfusions, a solution of sodium lactate and lactic acid was used. Raising [La] to13.2 ± 0.6 (SE) mM induced a 47.0 ± 4.0% increase inE without any concomitant changes ineither pH or PCO₂. Raising[K⁺] to 7.8 ± 0.11 mM resulted in a 20.3 ± 5.28% increase inE without changes in pH. Thus ourresults show that Laitself, apart from lactic acidosis, may be important in increasing E during strenuous exercise, and weconfirm earlier results regarding the role of arterial[K⁺] in the control ofE during exercise.

     

Effects of salbutamol on intracellular calcium oscillations in porcine airway smooth muscle

Prakash, Y. S., H. F. M. van der Heijden, M. S. Kannan, andG. C. Sieck. Effects of salbutamol on intracellular calcium oscillations in porcine airway smooth muscle. J. Appl.Physiol. 82(6): 1836-1843, 1997.Relaxation ofairway smooth muscle (ASM) by -adrenoceptor agonists involvesreduction of intracellular Ca²⁺concentration([Ca²⁺]_i).In porcine ASM cells, acetylcholine induces[Ca²⁺]_ioscillations that display frequency modulation by agonist concentration and basal[Ca²⁺]_i.We used real-time confocal microscopy to examine the effect ofsalbutamol (1 nM to 1 µM), a₂-adrenoceptor agonist, on[Ca²⁺]_ioscillations in freshly dissociated porcine ASM cells. Salbutamol decreased the frequency of[Ca²⁺]_ioscillations in a concentration-dependent fashion, completely inhibiting the oscillations at 1 µM. These effects were mimicked by acell-permeant analog of adenosine 3,5-cyclicmonophosphate. The inhibitory effect of salbutamol was partiallyreversed by BAY K 8644. Salbutamol reduced[Ca²⁺]_ieven when sarcoplasmic reticulum (SR)Ca²⁺ reuptake andCa²⁺ influx were blocked.Lanthanum blockade of Ca²⁺ effluxattenuated the inhibitory effect of salbutamol on[Ca²⁺]_i.The[Ca²⁺]_iresponse to caffeine was unaffected by salbutamol. On the basis ofthese results, we conclude that₂-adrenoceptor agonists have little effect on SR Ca²⁺ releasein ASM cells but reduce[Ca²⁺]_iby inhibiting Ca²⁺ influx throughvoltage-gated channels and by enhancingCa²⁺ efflux.

     

Interaction of gender and exercise training: vasomotor reactivity of porcine skeletal muscle arteries

The purpose of the presentstudy was to test the hypothesis that gender influences exercisetraining-induced adaptations of vascular reactivity of porcine arteriesthat provide blood flow to skeletal muscle and femoral and brachialarteries. Male and female Yucatan miniature swine were exercise trainedon a motor-driven treadmill or cage confined for 16-20 wk.Contractile responses of arterial rings were evaluated in vitro bydetermining concentration-response curves for endothelin-1 (ET-1;10¹⁰ to 10⁷ M) and norepinephrine (NE;10¹⁰ to 10⁴ M). Relaxationresponses of arteries precontracted with 30 µM PGF₂were examined for endothelium-dependent agents [bradykinin (BK;10¹¹ to 10⁶ M), ACh (10¹⁰ to10⁴ M), and a Ca²⁺ ionophore, A-23187(10⁶ M)] and a endothelium-independent agent [sodiumnitroprusside (10¹⁰ to 10⁴ M)].Arteries from female pigs developed greater contractile force inresponse to ET-1 than arteries from male pigs, whereas contractileresponses to NE and KCl were similar in arteries from both genders.Femoral arteries from females exhibited greater endothelium-mediatedvasorelaxation (BK and ACh) than did those from males. In contrast,brachial arteries of males were more responsive to BK and ACh thanbrachial arteries of females. Exercise training increased ET-1-inducedcontractions in arteries from males (without endothelium) but not inarteries from females. Training had no effect on endothelium-dependentrelaxation in arteries from males but increased relaxation responses inbrachial arteries from females. We conclude that both gender andanatomic origin of the artery influence exercise training-inducedadaptations of vascular reactivity of porcine skeletal muscle conduit arteries.

     

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.

     

Modulation of whole body protein metabolism, during and after exercise, by variation of dietary protein

The aim of this study was to investigate dietaryprotein-induced changes in whole body leucine turnover and oxidationand in skeletal muscle branched chain 2-oxo acid dehydrogenase (BCOADH) activity, at rest and during exercise. Postabsorptive subjects receiveda primed constant infusion ofL-[1-¹³C,¹⁵N]leucinefor 6 h, after previous consumption of a high- (HP; 1.8 g · kg¹ · day¹,n = 8) or a low-protein diet (LP; 0.7 g · kg¹ · day¹,n = 8) for 7 days. The subjects werestudied at rest for 2 h, during 2-h exercise at 60% maximum oxygenconsumption, then again for 2 h at rest. Exercise induced a doubling ofboth leucine oxidation from 20 µmol · kg¹ · h¹and BCOADH percent activation from 7% in all subjects. Leucine oxidation was greater before (+46%) and during (+40%,P < 0.05) the first hour of exercisein subjects consuming the HP rather than the LP diet, but there was noadditional change in muscle BCOADH activity. The results suggest thatleucine oxidation was increased by previous ingestion of an HP diet,attributable to an increase in leucine availability rather than to astimulation of the skeletal muscle BCOADH activity.

     

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.

     

Combined heart rate and activity improve estimates of oxygen consumption and carbon dioxide production rates

Moon, Jon K., and Nancy F. Butte. Combined heart rateand activity improve estimates of oxygen consumption and carbon dioxideproduction rates. J. Appl. Physiol.81(4): 1754-1761, 1996.Oxygen consumption(O₂) andcarbon dioxide production (CO₂) rates were measuredby electronically recording heart rate (HR) and physical activity (PA).Mean daily O₂ andCO₂ measurements by HR andPA were validated in adults (n = 10 women and 10 men) with room calorimeters. Thirteen linear and nonlinear functions of HR alone and HR combined with PA were tested as models of24-h O₂ andCO₂. Mean sleepO₂ andCO₂ were similar to basalmetabolic rates and were accurately estimated from HR alone[respective mean errors were 0.2 ± 0.8 (SD) and0.4 ± 0.6%]. The range of prediction errorsfor 24-h O₂ andCO₂ was smallestfor a model that used PA to assign HR for each minute to separateactive and inactive curves(O₂, 3.3 ± 3.5%; CO₂, 4.6 ± 3%). There were no significant correlations betweenO₂ orCO₂ errors and subject age,weight, fat mass, ratio of daily to basal energy expenditure rate, orfitness. O₂,CO₂, and energy expenditurerecorded for 3 free-living days were 5.6 ± 0.9 ml ^· min^{1 ·} kg¹,4.7 ± 0.8 ml ^· min^{1 ·} kg¹,and 7.8 ± 1.6 kJ/min, respectively. Combined HR and PA measured 24-h O₂ andCO₂ with a precisionsimilar to alternative methods.

     

Effects of hyperthermia on contraction and dilatation of rabbit femoral arteries

To analyze the effect of hyperthermia on thevascular response, the isometric response of isolated rabbit femoralartery segments was recorded at 37°C and hyperthermia (41 and44°C). Contraction to potassium (5 × 10³-5 × 10² M) was significantlygreater at 41 and 44 than at 37°C and increased by inhibition ofnitric oxide (NO) synthesis withN-nitro-L-arginine(L-NNA;10⁴ M) or endotheliumremoval at 37°C but not at 41 or 44°C. Norepinephrine (10⁹-10⁴M) produced a concentration-dependent contraction greater at 41 or 44 than at 37°C and not modified by endothelium removal orL-NNA at either temperature.Phenylephrine(10⁹-10⁴M) produced a contraction increased by warming to 44°C but not to41°C. The specific₂-adrenoceptor agonist BHT-920produced a weak contraction, reduced by the₁-adrenoceptor antagonist prazosin (10⁶ M) andincreased at 44°C but not at 41°C. The concentration-dependent contraction to endothelin-1 (ET-1;10¹¹-10⁷M) was increased by warming to 41 and 44°C and by endothelium removal or L-NNA at 37°C butnot at 41 or 44°C. Response to ET-1 was reduced by endothelinET_A-receptor antagonist BQ-123(10⁵ M) andET_B-receptor antagonist BQ-788(10⁵ M). In arteriesprecontracted with ET-1(10⁸-3 × 10⁸ M), relaxation tosodium nitroprusside(10⁸-10⁴M) was increased at 41 and 44°C vs. at 37°C, but that of ACh (10⁸-10⁴M) or adenosine(10⁸-10⁴M) was not different at all temperatures studied. Relaxation to ACh,but not adenosine, was reduced similarly byL-NNA at all temperaturesstudied. These results suggest hyperthermia in muscular arteries mayinhibit production of, and increase dilatation to, NO, resulting inunchanged relaxation to ACh and increased constriction to KCl and ET-1,and may increase constriction to stimulation of₁-adrenoceptors byNO-independent mechanisms.

     

Bioenergetics of contracting skeletal muscle after partial reduction of blood flow

The purpose ofthis study was to examine the bioenergetics and regulation ofO₂ uptake(O₂) and force productionin contracting muscle when blood flow was moderately reduced during asteady-state contractile period. Canine gastrocnemius muscle(n = 5) was isolated, and 3-minstimulation periods of isometric, tetanic contractions were elicitedsequentially at rates of 0.25, 0.33, and 0.5 contractions/s (Hz)immediately followed by a reduction of blood flow [ischemic (I)condition] to 46 ± 3% of the value obtained at 0.5 Hz with normal blood flow. TheO₂ of thecontracting muscle was significantly (P < 0.05) reduced during the Icondition [6.5 ± 0.8 (SE) ml · 100 g¹ · min¹]compared with the same stimulation frequency with normal flow (11.2 ± 1.5 ml · 100 g¹ · min¹),as was the tension-time index (79 ± 12 vs. 123 ± 22 N · g¹ · min¹,respectively). The ratio ofO₂ to tension-time indexremained constant throughout all contraction periods. Musclephosphocreatine concentration, ATP concentration, and lactate effluxwere not significantly different during the I condition compared withthe 0.5-Hz condition with normal blood flow. However, at comparable rates of O₂ andtension-time index, muscle phosphocreatine concentration and ATPconcentration were significantly less during the I condition comparedwith normal-flow conditions. These results demonstrate that, in thishighly oxidative muscle, the normal balance ofO₂ supply to force output wasmaintained during moderate ischemia by downregulation of forceproduction. In addition,1) the minimal disruption inintracellular homeostasis after the initiation of ischemia waslikely a result of steady-state metabolic conditions having alreadybeen activated, and 2) thedifference in intracellular conditions at comparable rates ofO₂ and tension-time index between the normal flow and I condition may have been due to altered intracellular O₂ tension.

     

Greater rate of decline in maximal aerobic capacity with age in physically active vs. sedentary healthy women

Tanaka, Hirofumi, Christopher A. DeSouza, Pamela P. Jones,Edith T. Stevenson, Kevin P. Davy, and Douglas R. Seals. Greater rate of decline in maximal aerobic capacity with age in physically active vs. sedentary healthy women. J. Appl.Physiol. 83(6): 1947-1953, 1997.Using ameta-analytic approach, we recently reported that the rate of declinein maximal oxygen uptake(O_{2 max}) with age inhealthy women is greatest in the most physically active and smallest inthe least active when expressed in milliliters per kilogram per minuteper decade. We tested this hypothesis prospectively underwell-controlled laboratory conditions by studying 156 healthy, nonobesewomen (age 20-75 yr): 84 endurance-trained runners (ET) and 72 sedentary subjects (S). ET were matched across the age range forage-adjusted 10-km running performance. Body mass was positivelyrelated with age in S but not in ET. Fat-free mass was not differentwith age in ET or S. Maximal respiratory exchange ratio and rating ofperceived exertion were similar across age in ET and S, suggestingequivalent voluntary maximal efforts. There was a significant butmodest decline in running mileage, frequency, and speed with advancingage in ET.O_{2 max}(ml · kg¹ · min¹)was inversely related to age (P < 0.001) in ET (r = 0.82) and S(r = 0.71) and was higher atany age in ET. Consistent with our meta-analysic findings,the absolute rate of decline inO_{2 max} was greater inET (5.7ml · kg¹ · min¹ · decade¹)compared with S (3.2 ml · kg¹ · min¹ · decade¹;P < 0.01), but the relative (%)rate of decline was similar (9.7 vs 9.1%/decade; notsignificant). The greater absolute rate of decline inO_{2 max} in ET comparedwith S was not associated with a greater rate of decline in maximalheart rate (5.6 vs. 6.2beats · min¹ · decade¹),nor was it related to training factors. The present cross-sectional findings provide additional evidence that the absolute, but not therelative, rate of decline in maximal aerobic capacity with age may begreater in highly physically active women compared with theirsedentary healthy peers. This difference does not appear to be relatedto age-associated changes in maximal heart rate, bodycomposition, or training factors.

     

Trauma-induced changes of skeletal muscle membrane: decreased K+ and increased Na+ permeability

Hong, S. J., and C. C. Chang.Trauma-induced changes of skeletal muscle membrane: decreasedK⁺ and increasedNa⁺ permeability.J. Appl. Physiol. 83(4):1096-1103, 1997.Trauma of skeletal muscle causes membranedepolarization and reduces membrane resistance. The underlyingmechanisms were studied in isolated mouse phrenic nerve diaphragmssubject to sharp transections of muscle. Depolarization was most markedat the vicinity (~1 mm) of trauma, where the membrane potentialdropped rapidly from about 80 mV to zero and repolarized toabout 25 mV. At the end-plate region (located ~3 mm away fromthe cut end), the membrane gradually attained a plateau potentialaround 45 mV. The magnitude of depolarization was not reduced byinhibition of Na⁺,Ca²⁺, orCl channel, whereas theprogress of depolarization was delayed in low-Na⁺ medium. Activation of theK⁺ channel with lemakalim inducedsome hyperpolarization at damaged site but produced aglybenclamide-sensitive outward current and hyperpolarization ofend-plate region to the levels before trauma, as if there was nodiminution of transmembrane K⁺gradient in this area. Appropriate elevation of extracellular K⁺ to stimulateK⁺ conductance also hyperpolarizedthe end-plate region. The results suggest that depolarization atregions remote from trauma is related to decreasedK⁺ and increasedNa⁺ permeability. The cytoplasmacompartmentalization and permeability changes may protect muscle fiberfrom trauma.

     

Skeletal muscle mass and the reduction of VO2 max in trained older subjects

Proctor, David N., and Michael J. Joyner. Skeletalmuscle mass and the reduction ofO_{2 max} in trainedolder subjects. J. Appl. Physiol.82(5): 1411-1415, 1997.The role of skeletal muscle mass in theage-associated decline in maximalO₂ uptake (O_{2 max}) is poorlydefined because of confounding changes in muscle oxidative capacity andin body fat and the difficulty of quantifying active muscle mass duringexercise. We attempted to clarify these issues byexamining the relationship between several indexes of muscle mass, asestimated by using dual-energy X-ray absorptiometry and treadmillO_{2 max} in 32 chronically endurance-trained subjects from four groups(n = 8/group): young men(20-30 yr), older men (56-72 yr), young women(19-31 yr), and older women (51-72 yr).O_{2 max} per kilogrambody mass was 26 and 22% lower in the older men (45.9 vs. 62.0 ml · kg¹ · min¹)and older women (40.0 vs. 51.5 ml · kg¹ · min¹).These age differences were reduced to 14 and 13%, respectively, whenO_{2 max} was expressedper kilogram of appendicular muscle. When appropriately adjusted forage and gender differences in appendicular muscle mass by analysis ofcovariance, whole body O_{2 max} was 0.50 ± 0.09 l/min less (P < 0.001) in theolder subjects. This effect was similar in both genders.These findings suggest that the reducedO_{2 max} seen in highlytrained older men and women relative to their younger counterparts isdue, in part, to a reduced aerobic capacity per kilogram of activemuscle independent of age-associated changes in body composition, i.e.,replacement of muscle tissue by fat. Because skeletal muscleadaptations to endurance training can be well maintained in oldersubjects, the reduced aerobic capacity per kilogram of muscle likelyresults from age-associated reductions in maximalO₂ delivery (cardiac outputand/or muscle blood flow).

     

Contributions of pulmonary perfusion and ventilation to heterogeneity in VA/Q measured by PET

Treppo, Steven, Srboljub M. Mijailovich, and José G. Venegas. Contributions of pulmonary perfusion and ventilation toheterogeneity in A/measured by PET. J. Appl. Physiol. 82(4): 1163-1176, 1997. To estimate the contributions of the heterogeneity in regionalperfusion () and alveolar ventilation(A) to that of ventilation-perfusionratio (A/), we haverefined positron emission tomography (PET) techniques to image localdistributions of andA per unit of gas volume content(s and sA,respectively) and VA/ indogs. sA was assessed in two ways:1) the washout of ¹³NN tracer after equilibrationby rebreathing (sA_i), and2) the ratio of an apneic image after a bolus intravenousinfusion of ¹³NN-saline solution to an image collectedduring a steady-state intravenous infusion of the same solution(sA_p).sA_p was systematically higher than sA_i in allanimals, and there was a high spatial correlation betweens andsA_p in both body positions(mean correlation was 0.69 prone and 0.81 supine) suggesting thatventilation to well-perfused units was higher than to those poorlyperfused. In the prone position, the spatial distributions ofs, sA_p, and A/ were fairlyuniform with no significant gravitational gradients; however, in thesupine position, these variables were significantly more heterogeneous,mostly because of significant gravitational gradients (15, 5.5, and10%/cm, respectively) accounting for 73, 33, and 66% of thecorresponding coefficient of variation (CV)² values. Weconclude that, in the prone position, gravitational forces in blood andlung tissues are largely balanced out by dorsoventral differences inlung structure. In the supine position, effects of gravity andstructure become additive, resulting in substantial gravitationalgradients in s andsA_p, with the higherheterogeneity inA/ caused by agravitational gradient in s, only partially compensated by that in sA.

     

Age-related declines in maximal aerobic capacity in regularly exercising vs. sedentary women: a meta-analysis

Fitzgerald, Margaret D., Hirofumi Tanaka, Zung V. Tran, andDouglas R. Seals. Age-related declines in maximal aerobic capacityin regularly exercising vs. sedentary women: a meta-analysis. J. Appl. Physiol. 83(1): 160-165, 1997.Our purpose was to determine the relationship between habitualaerobic exercise status and the rate of decline in maximal aerobiccapacity across the adult age range in women. A meta-analytic approachwas used in which mean maximal oxygen consumption(O_{2 max}) values fromfemale subject groups (ages 18-89 yr) were obtained from thepublished literature. A total of 239 subject groups from 109 studiesinvolving 4,884 subjects met the inclusion criteria and werearbitrarily separated into sedentary (groups = 107; subjects = 2,256),active (groups = 69; subjects = 1,717), and endurance-trained (groups = 63; subjects = 911) populations.O_{2 max} averaged 29.7 ± 7.8, 38.7 ± 9.2, and 52.0 ± 10.5 ml · kg¹ · min¹,respectively, and was inversely related to age within each population (r = 0.82 to 0.87, allP < 0.0001). The rate of decline inO_{2 max} withincreasing subject group age was lowest in sedentary women (3.5ml · kg¹ · min¹· decade¹), greater inactive women (4.4ml · kg¹ · min¹· decade¹), andgreatest in endurance-trained women (6.2ml · kg¹ · min¹ · decade¹)(all P < 0.001 vs. each other). Whenexpressed as percent decrease from mean levels at age ~25 yr, therates of decline inO_{2 max} were similarin the three populations (10.0 to 10.9%/decade). Therewas no obvious relationship between aerobic exercise status and therate of decline in maximal heart rate with age. The results of thiscross-sectional study support the hypothesis that, in contrast to theprevailing view, the rate of decline in maximal aerobic capacity withage is greater, not smaller, in endurance-trained vs. sedentary women.The greater rate of decline inO_{2 max} in endurance-trained populations may be related to their higher values asyoung adults (baseline effect) and/or to greater age-related reductions in exercise volume; however, it does not appear to berelated to a greater rate of decline in maximal heart rate with age.

     

Changes in maximum oxygen uptake during prolonged training, overtraining, and detraining in horses

Tyler, Catherine M., Lorraine C. Golland, David L. Evans,David R. Hodgson, and Reuben J. Rose. Changes in maximum oxygenuptake during prolonged training, overtraining, and detraining inhorses. J. Appl. Physiol. 81(5):2244-2249, 1996.Thirteen standardbred horses were trained asfollows: phase 1 (endurance training, 7 wk),phase 2 (high-intensity training, 9 wk),phase 3 (overload training, 18 wk), andphase 4 (detraining, 12 wk). Inphase 3, the horses were divided intotwo groups: overload training (OLT) and control (C). The OLT groupexercised at greater intensities, frequencies, and durations than groupC. Overtraining occurred after 31 wk of training and was defined as asignificant decrease in treadmill run time in response to astandardized exercise test. In the OLT group, there was a significantdecrease in body weight (P < 0.05).From pretraining values of 117 ± 2 (SE)ml ^· kg^{1 ·} min¹,maximal O₂ uptake(O_{2 max}) increased by15% at the end of phase 1, and when signs of overtraining werefirst seen in the OLT group,O_{2 max} was 29%higher (151 ± 2 ml ^· kg^{1 ·} min¹in both C and OLT groups) than pretraining values. There was nosignificant reduction inO_{2 max} until after 6 wk detraining whenO_{2 max} was 137 ± 2 ml ^· kg^{1 ·} min¹.By 12 wk detraining, meanO_{2 max} was134 ± 2 ml ^· kg^{1 ·} min¹,still 15% above pretraining values. When overtraining developed, O_{2 max} was notdifferent between C and OLT groups, but maximal values forCO₂ production (147 vs. 159 ml ^· kg^{1 ·} min¹)and respiratory exchange ratio (1.04 vs. 1.11) were lower in the OLTgroup. Overtraining was not associated with a decrease inO_{2 max} and, afterprolonged training, decreases inO_{2 max} occurredslowly during detraining.

     

Mitochondrial redox state as a potential detector of liver dysoxia in vivo

Dysoxia canbe defined as ATP flux decreasing in proportion toO₂ availability with preserved ATPdemand. Hepatic venous -hydroxybutyrate-to-acetoacetate ratio(-OHB/AcAc) estimates liver mitochondrial NADH/NAD and may detectthe onset of dysoxia. During partial dysoxia (as opposed to anoxia),however, flow may be adequate in some liver regions, diluting effluentfrom dysoxic regions, thereby rendering venous -OHB/AcAc unreliable.To address this concern, we estimated tissue ATP whilegradually reducing liver blood flow of swine to zero in a nuclearmagnetic resonance spectrometer. ATP flux decreasing withO₂ availability was taken asO₂ uptake(O₂) decreasing inproportion to O₂ delivery(O₂);and preserved ATP demand was taken as increasingP_i/ATP.O₂, tissueP_i/ATP, and venous -OHB/AcAcwere plotted againstO₂to identify critical inflection points. Tissue dysoxia required meanO₂for the group to be critical for bothO₂ and forP_i/ATP. CriticalO₂values for O₂ andP_i/ATP of 4.07 ± 1.07 and 2.39 ± 1.18 (SE) ml · 100 g¹ · min¹,respectively, were not statistically significantly different but notclearly the same, suggesting the possibility that dysoxia might havecommenced after O₂ begandecreasing, i.e., that there could have been"O₂ conformity." CriticalO₂for venous -OHB/AcAc was 2.44 ± 0.46 ml · 100 g¹ · min¹(P = NS), nearly the same as that forP_i/ATP, supporting venous -OHB/AcAc as a detector of dysoxia. All issues considered, tissue mitochondrial redox state seems to be an appropriate detector ofdysoxia in liver.

     

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.

     

Influence of muscle fiber type and pedal frequency on oxygen uptake kinetics of heavy exercise

Barstow, Thomas J., Andrew M. Jones, Paul H. Nguyen, andRichard Casaburi. Influence of muscle fiber type and pedal frequency on oxygen uptake kinetics of heavy exercise.J. Appl. Physiol. 81(4):1642-1650, 1996.We tested the hypothesis that the amplitude ofthe additional slow component ofO₂ uptake(O₂) during heavy exerciseis correlated with the percentage of type II (fast-twitch) fibers inthe contracting muscles. Ten subjects performed transitions to a workrate calculated to require aO₂ equal to 50% betweenthe estimated lactate (Lac) threshold and maximalO₂ (50%).Nine subjects consented to a muscle biopsy of the vastus lateralis. Toenhance the influence of differences in fiber type among subjects,transitions were made while subjects were pedaling at 45, 60, 75, and90 rpm in different trials. Baseline O₂ was designed to besimilar at the different pedal rates by adjusting baseline work ratewhile the absolute increase in work rate above the baseline was thesame. The O₂ response after the onset of exercise was described by a three-exponential model. Therelative magnitude of the slow component at the end of 8-min exercisewas significantly negatively correlated with %type I fibers at everypedal rate (r = 0.64 to 0.83, P < 0.05-0.01). Furthermore,the gain of the fast component forO₂ (asml ^· min^{1 ·} W¹)was positively correlated with the %type I fibers across pedal rates(r = 0.69-0.83). Increase inpedal rate was associated with decreased relative stress of theexercise but did not affect the relationships between%fiber type and O₂parameters. The relative contribution of the slow component was alsosignificantly negatively correlated with maximalO₂(r = 0.65), whereas the gainfor the fast component was positively associated(r = 0.68-0.71 across rpm). Theamplitude of the slow component was significantly correlated with netend-exercise Lac at all four pedal rates(r = 0.64-0.84), but Lac was notcorrelated with %type I (P > 0.05).We conclude that fiber type distribution significantly affects both thefast and slow components ofO₂ during heavy exerciseand that fiber type and fitness may have both codependent andindependent influences on the metabolic and gas-exchange responses toheavy exercise.

     

Distribution of TmDOTP5- in rat tissues: TmDOTP5- vs. CoEDTA- as markers of extracellular tissue space

The distributionof TmDOTP⁵ in rat tissuewas compared with CoEDTA,an anionic complex previously used as a marker of extracellular space.Heart, liver, muscle, blood, and urine were collected from rats afterinfusion of either complex and were quantitatively analyzed by atomicabsorption spectroscopy. Although totalTmDOTP⁵ in blood and tissuewas consistently lower (0.88 ± 0.04;n = 6) thanCoEDTA after an identicalinfusion protocol (presumably because of some association of thephosphonate complex with bone), a comparison of blood and tissuecontents indicated that the two anionic complexes distributed intoidentical extracellular spaces. Relative extracellular space in the invivo liver, as determined byTmDOTP⁵ andCoEDTA, was 0.18 ± 0.02 and 0.15 ± 0.01, respectively. The corresponding relativeextracellular space values for the in vivo heart reported by the twoagents were identical (0.11 ± 0.02). Experiments were alsoperformed to evaluate the washout kinetics ofTmDOTP⁵ from anesthesizedrats. In rats given a total dose of 0.16 mmol TmDOTP⁵, 81% appeared inurine by 180 min, <2% was found in all remaining soft tissue,leaving ~18% undetected. The rate of Tm appearance in urine was fitto a standard pharmacokinetic model that included four tissuecompartments: plasma, one fast equilbrating space, one slowequilibrating space, and one very slow equilibrating space (presumablybone). The best fit result suggests that the highly chargedTmDOTP⁵ complex is clearedfrom plasma more rapidly than is the typical lower charged Gd-basedcontrast agents and that release from bone is slow compared with renal clearance.

     

Effects of dopamine and domperidone on ventilatory sensitivity to hypoxia after 8h of isocapnic hypoxia

Acclimatization to altitude involves an increase in the acutehypoxic ventilatory response (AHVR). Because low-dose dopamine decreases AHVR and domperidone increases AHVR, the increase in AHVR ataltitude may be generated by a decrease in peripheral dopaminergicactivity. The AHVR of nine subjects was determined with and without aprior period of 8 h of isocapnic hypoxia under each of threepharmacological conditions: 1)control, with no drug administered;2) dopamine (3 µg · min¹ · kg¹);and 3) domperidone (Motilin, 40 mg).AHVR increased after hypoxia (P  0.001). Dopaminedecreased (P  0.01), and domperidone increased (P  0.005) AHVR. The effect of both drugs on AHVR appearedlarger after hypoxia, an observation supported by a significantinteraction between prior hypoxia and drug in the analysis of variance(P  0.05). Although the increasedeffect of domperidone after hypoxia of 0.40 l · min¹ · %saturation¹[95% confidence interval (CI) 0.11 to 0.92 l · min¹ · %¹]did not reach significance, the lower limit for this confidence interval suggests that little of the increase in AHVR after sustained hypoxia was brought about by a decrease in peripheral dopaminergic inhibition.