Phosphocreatine kinetics at the onset of contractions in skeletal muscle of MM creatine kinase knockout mice

Phosphocreatine (PCr) depletion duringisometric twitch stimulation at 5 Hz was measured by³¹P-NMR spectroscopy in gastrocnemius muscles ofpentobarbital-anesthetized MM creatine kinase knockout (MMKO) vs.wild-type C57B (WT) mice. PCr depletion after 2 s of stimulation,estimated from the difference between spectra gated to times 200 ms and140 s after 2-s bursts of contractions, was 2.2 ± 0.6% ofinitial PCr in MMKO muscle vs. 9.7 ± 1.6% in WT muscles(mean ± SE, n = 7, P < 0.001).Initial PCr/ATP ratio and intracellular pH were not significantlydifferent between groups, and there was no detectable change inintracellular pH or ATP in either group after 2 s. The initialdifference in net PCr depletion was maintained during the first minuteof continuous 5-Hz stimulation. However, there was no significantdifference in the quasi-steady-state PCr level approached after 80 s (MMKO 36.1 ± 3.5 vs. WT 35.5 ± 4.4% of initial PCr;n = 5-6). A kinetic model of ATPase, creatinekinase, and adenylate kinase fluxes during stimulation was consistentwith the observed PCr depletion in MMKO muscle after 2 s only ifADP-stimulated oxidative phosphorylation was included in the model.Taken together, the results suggest that cytoplasmic ADP more rapidlyincreases and oxidative phosphorylation is more rapidly activated atthe onset of contractions in MMKO compared with WT muscles.

     

Sodium/calcium exchange in amphibian skeletal muscle fibers and isolated transverse tubules

TheNa⁺/Ca²⁺ exchanger participates inCa²⁺ homeostasis in a variety of cells and has a key rolein cardiac muscle physiology. We studied in this work the exchanger ofamphibian skeletal muscle, using both isolated inside-out transversetubule vesicles and single muscle fibers. In vesicles, increasingextravesicular (intracellular) Na⁺ concentrationcooperatively stimulated Ca²⁺ efflux (reverse mode), withthe Hill number equal to 2.8. In contrast to the stimulation of thecardiac exchanger, increasing extravesicular (cytoplasmic)Ca²⁺ concentration ([Ca²⁺]) inhibited thisreverse activity with an IC₅₀ of 91 nM. Exchanger-mediated currents were measured at 15°C in single fibers voltage clamped at90 mV. Photolysis of a cytoplasmic caged Ca²⁺ compoundactivated an inward current (forward mode) of 23 ± 10 nA(n = 3), with an average current density of 0.6 µA/µF. External Na⁺ withdrawal generated an outwardcurrent (reverse mode) with an average current density of 0.36 ± 0.17 µA/µF (n = 6) but produced a minimal increasein cytosolic [Ca²⁺]. These results suggest that, inskeletal muscle, the main function of the exchanger is to removeCa²⁺ from the cells after stimulation.

     

K+ supplementation increases muscle [Na+-K+-ATPase] and improves extrarenal K+ homeostasis in rats

Bundgaard, Henning, Thomas A. Schmidt, Jim S. Larsen, andKeld Kjeldsen. K⁺supplementation increases muscle[Na⁺-K⁺-ATPase]and improves extrarenal K⁺homeostasis in rats. J. Appl. Physiol.82(4): 1136-1144, 1997.Effects ofK⁺ supplementation (~200 mmolKCl/100 g chow) on plasma K⁺,K⁺ content, andNa⁺-K⁺-adeonsinetriphosphatase(ATPase) concentration([Na⁺-K⁺-ATPase])in skeletal muscles as well as on extrarenalK⁺ clearance were evaluated inrats. After 2 days of K⁺supplementation, hyperkalemia prevailed(K⁺-supplemented vs.weight-matched control animals) [5.1 ± 0.2 (SE) vs. 3.2 ± 0.1 mmol/l, P < 0.05, n = 5-6], and after 4 daysa significant increase in K⁺content was observed in gastrocnemius muscle (104 ± 2 vs. 97 ± 1 µmol/g wet wt, P < 0.05, n = 5-6). After 7 days ofK⁺ supplementation, a significantincrease in[³H]ouabain bindingsite concentration (344 ± 5 vs. 239 ± 8 pmol/g wet wt,P < 0.05, n = 4) was observed in gastrocnemiusmuscle. After 2 wk, increases in plasmaK⁺,K⁺ content, and[³H]ouabain bindingsite concentration in gastrocnemius muscle amounted to 40, 8, and 68%(P < 0.05) above values observed inweight-matched control animals, respectively. The latter change wasconfirmed by K⁺-dependentp-nitrophenyl phosphatase activitymeasurements. Fasting for 1 day reduced plasmaK⁺ andK⁺ content in gastrocnemius musclein rats that had been K⁺supplemented for 2 wk by 3.1 ± 0.3 mmol/l(P < 0.05, n = 5) and 15 ± 2 µmol/g wet wt(P < 0.05, n = 5), respectively. After induction of anesthesia, arterial plasma K⁺was measured during intravenous KCl infusion (0.75 mmolKCl · 100 g bodywt¹ · h¹).The K⁺-supplemented fasted groupdemonstrated a 42% (P < 0.05) lower plasma K⁺ rise, associated with asignificantly higher increase inK⁺ content in gastrocnemius muscleof 7 µmol/g wet wt (P < 0.05, n = 5) compared with their controlanimals. In conclusion, K⁺supplementation increases plasmaK⁺,K⁺ content, and[Na⁺-K⁺-ATPase]in skeletal muscles and improves extrarenalK⁺ clearance capacity.

     

Pulmonary emphysema decreases hamster skeletal muscle oxidative enzyme capacity

Skeletal muscle oxidative enzyme capacity is impaired inpatients suffering from emphysema and chronic obstructive pulmonary disease. This effect may result as a consequence of the physiological derangements because of the emphysema condition or, alternatively, as aconsequence of the reduced physical activity level in these patients.To explore this issue, citrate synthase (CS) activity was measured inselected hindlimb muscles and the diaphragm of Syrian Golden hamsters 6 mo after intratracheal instillation of either saline (Con,n = 7) or elastase [emphysema(Emp); 25 units/100 g body weight, n = 8]. Activity level was monitored, and no difference betweengroups was found. Excised lung volume increased with emphysema (Con,1.5 ± 0.3 g; Emp, 3.0 ± 0.3 g,P < 0.002). Emphysema significantly reduced CS activity in the gastrocnemius (Con, 45.1 ± 2.0; Emp, 39.2 ± 0.8 µmol · min¹ · gwet wt¹,P < 0.05) and vastus lateralis (Con,48.5 ± 1.5; Emp, 44.9 ± 0.8 µmol · min¹ · gwet wt¹,P < 0.05) but not in the plantaris(Con, 47.4 ± 3.9; Emp, 48.0 ± 2.1 µmol · min¹ · gwet wt¹,P < 0.05) muscle. In contrast, CSactivity increased in the costal (Con, 61.1 ± 1.8; Emp, 65.1 ± 1.5 µmol · min¹ · gwet wt¹,P < 0.05) and crural (Con, 58.5 ± 2.0; Emp, 65.7 ± 2.2 µmol · min¹ · gwet wt¹, P < 0.05) regions of the diaphragm. These data indicate that emphysema perse can induce decrements in the oxidative capacity of certainnonventilatory skeletal muscles that may contribute to exerciselimitations in the emphysematous patient.

     

Reduced urea flux across the blood-testis barrier and early maturation in the male reproductive system in UT-B-null mice

A urea-selective urine-concentrating defect was found in transgenic mice deficient in urea transporter (UT)-B. To determine the role of facilitated urea transport in extrarenal organs expressing UT-B, we studied the kinetics of [¹⁴C]urea distribution in UT-B-null mice versus wild-type mice. After renal blood flow was disrupted, [¹⁴C]urea distribution was selectively reduced in testis in UT-B-null mice. Under basal conditions, total testis urea content was 335.4 ± 43.8 µg in UT-B-null mice versus 196.3 ± 18.2 µg in wild-type mice (P < 0.01). Testis weight in UT-B-null mice (6.6 ± 0.8 mg/g body wt) was significantly greater than in wild-type mice (4.2 ± 0.8 mg/g body wt). Elongated spermatids were observed earlier in UT-B-null mice compared with wild type mice on day 24 versus day 32, respectively. First breeding ages in UT-B knockout males (48 ± 3 days) were also significantly earlier than that in wild-type males (56 ± 2 days). In competing mating tests with wild-type males and UT-B-null males, all pups carried UT-B-targeted genes, which indicates that all pups were produced from breeding of UT-B-null males. Experiments of the expression of follicle-stimulating hormone receptor (FSHR) and androgen binding protein (ABP) indicated that the development of Sertoli cells was also earlier in UT-B-null mice than that in wild-type mice. These results suggest that UT-B plays an important role in eliminating urea produced by Sertoli cells and that UT-B deletion causes both urea accumulation in the testis and early maturation of the male reproductive system. The UT-B knockout mouse may be a useful experimental model to define the molecular mechanisms of early puberty. urea transporter; Sertoli cell; testis; male sexual function; spermatogenesis     

Genistein activates CFTR-mediated Cl(-) secretion in the murine trachea and colon

The action of the isoflavonegenistein on the cystic fibrosis transmembrane conductance regulator(CFTR) has been studied in many cell systems but not in intact murinetissues. We have investigated the action of genistein on murine tissuesfrom normal and cystic fibrosis (CF) mice. Genistein increased theshort-circuit current (I_sc) in tracheal(16.4 ± 2.8 µA/cm²) and colonic (40.0 ± 4.4 µA/cm²) epithelia of wild-type mice. This increase wasinhibited by furosemide, diphenylamine-2-carboxylate, andglibenclamide, but not by DIDS. In contrast, genistein produced nosignificant change in the I_sc of the trachealepithelium (0.9 ± 1.1 µA/cm²) and decreased theI_sc of colons from CF null (13.1 ± 2.3 µA/cm²) and F508 mice (10.3 ± 1.3 µA/cm²). Delivery of a human CFTRcDNA-liposome complex to the airways of CF null mice restored thegenistein response in the tracheas to wild-type levels. Tracheas fromF508 mice were also studied: 46% of trachea showed no response togenistein, whereas 54% gave an increase in I_scsimilar to that in wild type. We conclude that genistein activatesCFTR-mediated Cl secretion in the murine trachea anddistal colon.

     

Anchoring protein is required for cAMP-dependent stimulation of L-type Ca2+ channels in rabbit portal vein

Stimulation of cardiac L-typeCa²⁺ channels by cAMP-dependentprotein kinase (PKA) requires anchoring of PKA to a specificsubcellular environment by A-kinase anchoring proteins (AKAP). Thisstudy evaluated the possible requirement of AKAP in PKA-dependentregulation of L-type Ca²⁺ channelsin vascular smooth muscle cells using the conventional whole cellpatch-clamp technique. Peak Ba²⁺current in freshly isolated rabbit portal vein myocytes wassignificantly increased by superfusion with either 0.5 µM isoproterenol (131 ± 3% of the control value,n = 11) or 10 µM 8-bromoadenosine3',5'-cyclic monophosphate (8-BrcAMP; 114 ± 1%,n = 8). The PKA-induced stimulatory effects ofboth isoproterenol and 8-BrcAMP were completely abolished by a specificPKA inhibitor KT-5720 (0.2 µM) or by dialyzing cells with Ht 31 (100 µM), a peptide that inhibits the binding of PKA to AKAP. In contrast,Ht 31 did not block the excitatory effect of the catalytic subunit ofPKA when dialyzed into the cells. These data suggest that stimulationof Ca²⁺ channels in vascularmyocytes by endogenous PKA requires localization of PKA through bindingto AKAP.

     

A method for isolating adult and neonatal airway smooth muscle cells and measuring shortening velocity

Methods are described for isolating smooth muscle cells from thetracheae of adult and neonatal sheep and measuring the single-cell shortening velocity. Isolated cells were elongated,Ca²⁺ tolerant, and contractedrapidly and substantially when exposed to cholinergic agonists, KCl,serotonin, or caffeine. Adult cells were longer and widerthan preterm cells. Mean cell length in 1.6 mMCaCl₂ was 194 ± 57 (SD) µm(n = 66) for adult cells and 93 ± 32 µm (n = 20) for preterm cells(P < 0.05). Mean cell width at thewidest point of the adult cells was 8.2 ± 1.8 µm(n = 66) and 5.2 ± 1.5 µm(n = 20) for preterm cells(P < 0.05). Cells were loaded into aperfusion dish maintained at 35°C and exposed to agonists, andcontractions were videotaped. Cell lengths were measured from 30 videoframes and plotted as a function of time. Nonlinear fitting of celllength to an exponential model gave shortening velocities faster thanmost of those reported for airway smooth muscle tissues. For a sampleof 10 adult and 10 preterm cells stimulated with 100 µM carbachol,mean (± SD) shortening velocity of the preterm cells was notdifferent from that of the adult cells (0.64 ± 0.30 vs. 0.54 ± 0.27 s¹, respectively), butpreterm cells shortened more than adult cells (68 ± 12 vs. 55 ± 11% of starting length, respectively;P < 0.05). The preparative andanalytic methods described here are widely applicable to other smoothmuscles and will allow contraction to be studied quantitatively at thesingle-cell level.

     

Muscle fiber hypertrophy, hyperplasia, and capillary density in college men after resistance training

McCall, G. E., W. C. Byrnes, A. Dickinson, P. M. Pattany,and S. J. Fleck. Muscle fiber hypertrophy, hyperplasia, and capillary density in college men after resistance training.J. Appl. Physiol. 81(5):2004-2012, 1996.Twelve male subjects with recreationalresistance training backgrounds completed 12 wk of intensifiedresistance training (3 sessions/wk; 8 exercises/session; 3 sets/exercise; 10 repetitions maximum/set). All major muscle groupswere trained, with four exercises emphasizing the forearm flexors.After training, strength (1-repetition maximum preacher curl) increasedby 25% (P < 0.05). Magneticresonance imaging scans revealed an increase in the biceps brachiimuscle cross-sectional area (CSA) (from 11.8 ± 2.7 to 13.3 ± 2.6 cm²;n = 8;P < 0.05). Muscle biopsies of thebiceps brachii revealed increases(P < 0.05) in fiber areas for type I(from 4,196 ± 859 to 4,617 ± 1,116 µm²;n = 11) and II fibers (from 6,378 ± 1,552 to 7,474 ± 2,017 µm²;n = 11). Fiber number estimated fromthe above measurements did not change after training (293.2 ± 61.5 × 10³ pretraining; 297.5 ± 69.5 × 10³ posttraining;n = 8). However, the magnitude ofmuscle fiber hypertrophy may influence this response because thosesubjects with less relative muscle fiber hypertrophy, but similarincreases in muscle CSA, showed evidence of an increase in fibernumber. Capillaries per fiber increased significantly(P < 0.05) for both type I(from 4.9 ± 0.6 to 5.5 ± 0.7;n = 10) and II fibers (from 5.1 ± 0.8 to 6.2 ± 0.7; n = 10). Nochanges occurred in capillaries per fiber area or muscle area. Inconclusion, resistance training resulted in hypertrophy of the totalmuscle CSA and fiber areas with no change in estimated fiber number,whereas capillary changes were proportional to muscle fiber growth.

     

Effect of IBMX and alkaline phosphatase inhibitors on Cl- secretion in G551D cystic fibrosis mutant mice

Some cysticfibrosis transmembrane conductance regulator (CFTR) mutations, such asG551D, result in a correctly localized Cl channel at the cellapical membrane, albeit with markedly reduced function. Patch-clampstudies have indicated that both phosphatase inhibitors and3-isobutyl-1-methylxanthine (IBMX) can induceCl secretion through theG551D mutant protein. We have now assessed whether these agents caninduce Cl secretion incftr^G551D mutantmice. No induction of Clsecretion was seen with the alkaline phosphatase inhibitorsbromotetramisole or levamisole in either the respiratory or intestinaltracts of wild-type orcftr^G551D mice.In contrast, in G551D intestinal tissues, IBMX was able to produce asmall CFTR-related secretory response [means ± SE: jejunum,1.8 ± 0.9 µA/cm²,n = 7; cecum, 3.7 ± 0.8 µA/cm²,n = 7; rectum (in vivo),1.9 ± 0.9 mV, n = 5]. Thiswas approximately one order of magnitude less than the wild-typeresponse to this agent and, in the cecum, was significantly greaterthan that seen in null mice(cftr^UNC). Inthe trachea, IBMX produced a transientCl secretory response (37.3 ± 14.7 µA/cm²,n = 6) of a magnitude similar to thatseen in wild-type mice (33.7 ± 4.7 µA/cm²,n = 9). This response was also presentin null mice and therefore is likely to be independent of CFTR. Noeffect of IBMX on Clsecretion was seen in the nasal epithelium ofcftr^G551D mice.We conclude that IBMX is able to induce detectable levels ofCFTR-related Cl secretionin the intestinal tract but not the respiratory tract through the G551Dmutant protein.

     

Skeletal muscle fiber quality in older men and women

Wholemuscle strength and cross-sectional area (WMCSA), andcontractile properties of chemically skinned segments from single fibers of the quadriceps were studied in 7 young men (YM, 36.5 ± 3.0 yr), 12 older men (OM, 74.4 ± 5.9 yr), and 12 olderwomen (OW, 72.1 ± 4.3 yr). WMCSA was smaller in OMcompared with YM (56.1 ± 10.1 vs. 79.7 ± 13.1 cm²; P = 0.031) and in OW (44.9 ± 7.5; P < 0.003) compared with OM. Age-related, but notsex-related, differences in strength were eliminated after adjustingfor WMCSA. Maximal force was measured in 552 type I and 230 type IIAfibers. Fibers from YM (type I = 725 ± 221; type IIA = 792 ± 271 µN) were stronger (P < 0.001) thanfibers from OM (I = 505 ± 179; IIA = 577 ± 262 µN) even after correcting for size. Type IIA fibers were stronger(P < 0.005) than type I fibers in YM and OM but not inOW (I = 472 ± 154; IIA = 422 ± 97 µN).Sex-related differences in type I and IIA fibers were dependent onfiber size. In conclusion, differences in WMCSA explain age-relateddifferences in strength. An intrinsic defect in contractile proteinscould explain weakness in single fibers from OM. Sex-relateddifferences exist at the whole muscle and single fiber levels.

     

Measurement of Yield Threshold and Cell Wal Extensibility of Intact Wheat Roots under Different Ionic, Osmotic and Temperature Treatments

Yield stress threshold (Y) and volumetric extensibility () arethe rheological properties that appear to control root growth.In this study they were measured in wheat roots by means ofparallel measurement of the growth rate (r) of intact wheatroots and of the turgor pressures (P) of individual cells withinthe expansion zone. Growth and turgor pressure were manipulatedby immersion in graded osmoticum (mannitol) solutions. Turgorwas measured with a pressure probe and growth rate by visualobservation. The influence of various growth conditions on Yand was investigated; (a) At 27 °C.In 0.5 mol m^–3 CaCl₂ r, P, Y and were20.7±4.6 µm min^–1, 0.77±0.05 MPa,0.07±0.03 MPa and 26±1.9 µm min^–1MPa^–1 (expressed as increase in length), respectively.Following 24 h growth in 10 mol m^–3 KC1 these parametersbecame 12.3±3.5 µm min^–1, 0.72±0.04MPa, 0.13±0.01 MPa and 21±0.7 µm min^–1MPa^–1. After 24 h osmotic adjustment in 150 mol m^–3mannitol/0.5 mol m^–3 CaCl₂ r= 19.6±4.2 µmmin^–1, P = 0.68±0.05 MPa and Y and were 0.07±0.04MPa and 30±0.2 µm min^–1 MPa^–01, respectively.After 24 h growth in 350 mol m^–3 mannitol/0.5 mol m^–3CaCl₂ r= 13.3±4.1 µm min^–1, P= 0.58±0.07MPa, Y=0.12±0.01 MPa and ø 32±0.2 tim min^–1MPa^–1. During osmotic adjustment in 200 mol m^–3mannitol/0.5 mol m^–3 CaCl₂, with or without KCl, the recoveryof growth rate corresponded to turgor pressure recovery (t1/2approximately 3 h). (b) At 15 °C. Lowered temperature dramatically influencedthe growth parameters which became r= 8.3±2.8 um min^–1,P=0.78 MPa, r=<0.2 MPa and =15±0.1 µm min^–1MPa^–1. Therefore, Y and are influenced by 10 mol m^–3 K⁺ ionsand low temperature. In each case the effective pressure forgrowth (P-Y) was large indicating that small fluctuations ofsoil water potential will not stop root elongation. Key words: Yield threshold, cell wall extensibility, wheat root growth, temperature, turgor pressur     

Role of aspartate residues in Ca(2+) affinity and permeation of the distal ECaC1

The Ca²⁺ affinity andpermeation of the epithelial Ca²⁺ channel (ECaC1) wereinvestigated after expression in Xenopus oocytes. ECaC1displayed anomalous mole-fraction effects. Extracellular Ca²⁺ and Mg²⁺ reversibly inhibited ECaC1 wholecell Li⁺ currents: IC₅₀ = 2.2 ± 0.4 µM (n = 9) and 235 ± 35 µM (n = 10), respectively. These values compare well with theCa²⁺ affinity of the L-type voltage-gated Ca²⁺(Ca_V1.2) channel measured under the same conditions,suggesting that high-affinity Ca²⁺ binding is awell-conserved feature of epithelial and voltage-gated Ca²⁺channels. Neutralization of D550 and E535 in the pore region had nosignificant effect on Ca²⁺ and Mg²⁺ affinities.In contrast, neutralization of D542 significantly decreasedCa²⁺ affinity (IC₅₀ = 1.1 ± 0.2 mM,n = 6) and Mg²⁺ affinity(IC₅₀ > 25 ± 3 mM, n = 4).Despite a 1,000-fold decrease in Ca²⁺ affinity in D542N,Ca²⁺ permeation properties and theCa²⁺-to-Ba²⁺ conductance ratio remainedcomparable to values for wild-type ECaC1. Together, our observationssuggest that D542 plays a critical role in Ca²⁺ affinitybut not in Ca²⁺ permeation in ECaC1.

     

cGMP-mediated Ca2+ release from IP3-insensitive Ca2+ stores in smooth muscle

Recent studies on the role of nitric oxide (NO) ingastrointestinal smooth muscle have raised the possibility thatNO-stimulated cGMP could, in the absence of cGMP-dependent proteinkinase (PKG) activity, act as aCa²⁺-mobilizing messenger[K. S. Murthy, K.-M. Zhang, J.-G. Jin, J. T. Grider, and G. M. Makhlouf. Am. J. Physiol. 265 (Gastrointest. Liver Physiol. 28):G660-G671, 1993]. This notion was examined indispersed gastric smooth muscle cells with 8-bromo-cGMP (8-BrcGMP) andwith NO and vasoactive intestinal peptide (VIP), which stimulate endogenous cGMP. In muscle cells treated with cAMP-dependent protein kinase (PKA) and PKG inhibitors (H-89 and KT-5823), 8-BrcGMP (10 µM),NO (1 µM), and VIP (1 µM) stimulated⁴⁵Ca²⁺release (21 ± 3 to 30 ± 1% decrease in⁴⁵Ca²⁺cell content); Ca²⁺ releasestimulated by 8-BrcGMP was concentration dependent with anEC₅₀ of 0.4 ± 0.1 µM and athreshold of 10 nM. 8-BrcGMP and NO increased cytosolic freeCa²⁺ concentration([Ca²⁺]_i)and induced contraction; both responses were abolished after Ca²⁺ stores were depleted withthapsigargin. With VIP, which normally increases[Ca²⁺]_iby stimulating Ca²⁺ influx,treatment with PKA and PKG inhibitors caused a further increase in[Ca²⁺]_ithat reverted to control levels in cells pretreated with thapsigargin. Neither Ca²⁺ release norcontraction induced by cGMP and NO in permeabilized muscle cells wasaffected by heparin or ruthenium red.Ca²⁺ release induced by maximallyeffective concentrations of cGMP and inositol 1,4,5-trisphosphate(IP₃) was additive, independent of which agent was applied first. We conclude that, in the absence ofPKA and PKG activity, cGMP stimulatesCa²⁺ release from anIP₃-insensitive store and that itseffect is additive to that of IP₃.

     

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

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

     

Force generation,but not myosin ATPase activity,declines with age in rat muscle fibers

We tested the hypothesis thatage-associated decline in muscle function is related to a change inmyosin ATPase activity. Single, glycerinated semimembranosus fibersfrom young (8-12 mo) and aged (32-37 mo) Fischer 344 × Brown Norway male rats were analyzed simultaneously for force andmyosin ATPase activity over a range of Ca²⁺ concentrations.Maximal force generation was ~20% lower in fibers from aged animals(P = 0.02), but myosin ATPase activity was not different between fibers from young and aged rats: 686 ± 46 (n = 30) and 697 ± 46 µM/s (n = 33) (P = 0.89). The apparent rate constant for thedissociation of strong-binding myosin from actin was calculated to be~30% greater in fibers from aged animals (P = 0.03),indicating that the lower force produced by fibers from aged animals isdue to a greater flux of myosin heads from the strong-binding state tothe weak-binding state during contraction. This is in agreement withour previous electron paramagnetic resonance experiments that showed areduced fraction of myosin heads in the strong-binding state during amaximal isometric contraction in fibers from older rats.

     

Pharmacological modulation of ion transport across wild-type and DeltaF508 CFTR-expressing human bronchial epithelia

Forskolin,UTP, 1-ethyl-2-benzimidazolinone (1-EBIO), NS004, 8-methoxypsoralen(Methoxsalen; 8-MOP), and genistein were evaluated for theireffects on ion transport across primary cultures of human bronchialepithelium (HBE) expressing wild-type (wt HBE) and F508(F-HBE) cystic fibrosis transmembrane conductance regulator. In wtHBE, the baseline short-circuit current (I_sc)averaged 27.0 ± 0.6 µA/cm² (n = 350). Amiloride reduced this I_sc by 13.5 ± 0.5 µA/cm² (n = 317). In F-HBE,baseline I_sc was 33.8 ± 1.2 µA/cm² (n = 200), and amiloride reducedthis by 29.6 ± 1.5 µA/cm² (n = 116), demonstrating the characteristic hyperabsorption of Na⁺ associated with cystic fibrosis (CF). In wt HBE,subsequent to amiloride, forskolin induced a sustained,bumetanide-sensitive I_sc(I_sc = 8.4 ± 0.8 µA/cm²; n = 119). Addition ofacetazolamide, 5-(N-ethyl-N-isopropyl)-amiloride, and serosal 4,4'-dinitrostilben-2,2'-disulfonic acid further reduced I_sc, suggesting forskolin also stimulatesHCO₃ secretion. This was confirmed by ionsubstitution studies. The forskolin-induced I_scwas inhibited by 293B, Ba²⁺, clofilium, and quinine,whereas charybdotoxin was without effect. In F-HBE the forskolinI_sc response was reduced to 1.2 ± 0.3 µA/cm² (n = 30). In wt HBE, mucosal UTPinduced a transient increase in I_sc ( I_sc = 15.5 ± 1.1 µA/cm²;n = 44) followed by a sustained plateau, whereas inF-HBE the increase in I_sc was reduced to5.8 ± 0.7 µA/cm² (n = 13). In wtHBE, 1-EBIO, NS004, 8-MOP, and genistein increased I_sc by 11.6 ± 0.9 (n = 20), 10.8 ± 1.7 (n = 18), 10.0 ± 1.6 (n = 5), and 7.9 ± 0.8 µA/cm²(n = 17), respectively. In F-HBE, 1-EBIO, NS004, and8-MOP failed to stimulate Cl secretion. However, additionof NS004 subsequent to forskolin induced a sustained Clsecretory response (2.1 ± 0.3 µA/cm²,n = 21). In F-HBE, genistein alone stimulatedCl secretion (2.5 ± 0.5 µA/cm²,n = 11). After incubation of F-HBE at 26°C for24 h, the responses to 1-EBIO, NS004, and genistein were allpotentiated. 1-EBIO and genistein increased Na⁺ absorptionacross F-HBE, whereas NS004 and 8-MOP had no effect. Finally,Ca²⁺-, but not cAMP-mediated agonists, stimulatedK⁺ secretion across both wt HBE and F-HBE in aglibenclamide-dependent fashion. Our results demonstrate thatpharmacological agents directed at both basolateral K⁺ andapical Cl conductances directly modulate Clsecretion across HBE, indicating they may be useful in ameliorating theion transport defect associated with CF.

     

Capillary growth in relation to blood flow and performance in overloaded rat skeletal muscle

Rat extensor digitorum longus muscleswere overloaded by stretch after removal of the synergist tibialisanterior muscle to determine the relationship between capillary growth,muscle blood flow, and presence of growth factors. After 2 wk,sarcomere length increased from 2.4 to 2.9 µm. Capillary-to-fiberratio, estimated from alkaline phosphatase-stained frozen sections, wasincreased by 33% (P < 0.0001) and60% (P < 0.01), compared withcontrol muscles (1.44 ± 0.06) after 2 and 8 wk, respectively. At 2 wk, the increased capillary-to-fiber ratio was not associated with anychanges in mRNA for basic fibroblast growth factor (FGF-2) or itsprotein distribution. FGF-2 immunoreactivity was present in nerves andlarge blood vessels but was negative in capillaries, whereas theactivity of low-molecular endothelial-cell-stimulating angiogenicfactor (ESAF) was 50% higher in stretched muscles. Muscle blood flowsmeasured by radiolabeled microspheres during contractions were notsignificantly different after 2 or 8 wk (132 ± 37 and 177 ± 22 ml · min¹ · 100 g¹, respectively) fromweight-matched controls (156 ± 12 and 150 ± 10 ml · min¹ · 100 g¹, respectively).Resistance to fatigue during 5-min isometric contractions (final/peaktension × 100) was similar in 2-wk overloaded and contralateralmuscles (85 vs. 80%) and enhanced after 8 wk to 92%, compared with77% in contralateral muscles and 67% in controls. We conclude thatincreased blood flow cannot be responsible for initiating expansion ofthe capillary bed, nor does it explain the reduced fatigue withinoverloaded muscles. However, stretch can present a mechanical stimulusto capillary growth, acting either directly on the capillary abluminalsurface or by upregulating ESAF, but not FGF-2, in the extracellular matrix.

     

Increased GLUT-4 translocation mediates enhanced insulin sensitivity of muscle glucose transport after exercise

The purpose of this study was to determinewhether the increase in insulin sensitivity of skeletal muscle glucosetransport induced by a single bout of exercise is mediated by enhancedtranslocation of the GLUT-4 glucose transporter to the cell surface.The rate of3-O-[³H]methyl-D-glucosetransport stimulated by a submaximally effective concentration ofinsulin (30 µU/ml) was approximately twofold greater in the musclesstudied 3.5 h after exercise than in those of the sedentary controls(0.89 ± 0.10 vs. 0.43 ± 0.05 µmol · ml¹ · 10 min¹; means ± SE forn = 6/group). GLUT-4 translocation wasassessed by using theATB-[2-³H]BMPAexofacial photolabeling technique. Prior exercise resulted in greatercell surface GLUT-4 labeling in response to submaximal insulintreatment (5.36 ± 0.45 dpm × 10³/g in exercised vs. 3.00 ± 0.38 dpm × 10³/g insedentary group; n = 10/group) thatclosely mirrored the increase in glucose transport activity. The signalgenerated by the insulin receptor, as reflected in the extent ofinsulin receptor substrate-1 tyrosine phosphorylation, was unchangedafter the exercise. We conclude that the increase in muscle insulinsensitivity of glucose transport after exercise is due to translocationof more GLUT-4 to the cell surface and that this effect is not due topotentiation of insulin-stimulated tyrosine phosphorylation.

     

Rabbit conjunctival epithelium transports fluid, and P2Y22 receptor agonists stimulate Cl{-} and fluid secretion

Rabbit conjunctival epithelium exhibits UTP-dependentCl secretion into the tears. We investigated whetherfluid secretion also takes place. Short-circuit current(I_sc) was 14.9 ± 1.4 µA/cm²(n = 16). Four P2Y₂ purinergic receptoragonists [UTP and the novel compounds INS365, INS306, and INS440(Inspire Pharmaceuticals)] added apically (10 µM) resulted intemporary (~30 min) I_sc increases (88%, 66%,57%, and 28%, respectively; n = 4 each). Importantly, the conjunctiva transported fluid from serosa to mucosa at a rate of6.5 ± 0.7 µl · h¹ · cm² (range2.1-15.3, n = 20). Fluid transport was stimulatedby mucosal additions of 10 µM: 1) UTP, from 7.4 ± 2.3 to 10.7 ± 3.3 µl · h¹ · cm²,n = 5; and 2) INS365, from 6.3 ± 1.0 to 9.8 ± 2.5 µl · h¹ · cm²,n = 5. Fluid transport was abolished by 1 mMouabain (n = 5) and was drastically inhibited by 300 µM quinidine (from 6.4 ± 1.2 to 3.6 ± 1.0 µl · h¹ · cm²,n = 4). We conclude that this epithelium secretes fluidactively and that P2Y₂ agonists stimulate bothCl and fluid secretions.