Elevated interstitial adenosine concentrations do not activate the muscle reflex

The purpose of the present study was to examine the effects of adenosine perfusion of the isolated triceps surae muscle group in the decerebrate cat on interstitial adenosine concentrations as well as heart rate and blood pressure responses. In six male cats (6.0 +/- 0.21 kg), the triceps surae muscle group of both legs was perfused with an artificial blood solution containing no additives (control) and then with blood containing 20 mM or 100 microM adenosine for 10 min. An intact muscle reflex was confirmed by bolus injections of 50 mM phosphate and/or saturated KCl administered into the triceps surae muscle via the cannulated popliteal artery before and after adenosine blood perfusion. Microdialysis of the triceps surae muscle group during muscle perfusion revealed that interstitial adenosine was elevated (P < 0.05) from 0.9 +/- 0.3 microM during control blood perfusion to 2,421 +/- 547 microM during 20 mM adenosine perfusion. In addition, interstitial adenosine levels were increased (P < 0.05) from 1.1 +/- 0.3 microM during control blood perfusion to 4.1 +/- 1.2 microM during perfusion with 100 microM adenosine. Despite the large increases in interstitial adenosine levels, perfusion of the triceps surae muscle group with the two blood adenosine solutions resulted in no significant increases in heart rate or blood pressure. These data strongly suggest that elevated interstitial adenosine concentrations do not play a role in activating the muscle reflex and confirm our previous in vivo human findings (J Appl Physiol 83: 1045-1053, 1997).     

The use of HgCl2 to evaluate the cosubstrate: amino acid transport stoichiometry in Ehrlich ascites tumor cells

Recent investigations have indicated that cellular rheogenic properties may interfere with the correct estimation of Na+ and amino transport stoichiometry. We have reevaluated the stoichiometry of Na+ and alpha-aminoisobutyric acid (alpha-AIB) cotransport in Ehrlich ascites tumor cells depleted of Na+ and ATP by incubation in Na+-free HEPES-buffered medium (pH 7.2) containing 160 mM K+ and 2.5 microM valinomycin. Transfer of the cells to a medium with 10 mM 22Na+, 10 mM 3H-AIB, and 150 mM K+ resulted in an enhancement of Na+ flux above basal levels, which represents 0.6 of the AIB uptake. Under these conditions the membrane potential, -7.0 +/- 0.1 mV (SEM), does not change with the addition of AIB, -7.3 +/- 0.6 mV (SEM). HgCl2 (10 microM) added to the medium inhibited AIB flux and AIB-stimulated Na+ flux by 45-50% but did not change the coupling ratio. HgCl2 (10 microM) does not inhibit the basal Na+ flux nor does it affect cellular Na+ or K+ content. In physiological medium cotransport is electrogenic. The membrane potential of Ehrlich cells in physiological medium is -22.3 +/- 0.8 mV (SEM) and depolarizes to -16.7 +/- 0.7 mV (SEM) upon addition of AIB. Under these conditions the coupling ratio was highly variable but the ratio of codepression is 0.90 +/- 0.02 (SEM) in the presence of HgCl2 (10 microM). These results are consistent with a model (Smith and Robinson, 1981) in which the stoichiometry is one cosubstrate molecule per molecule of alpha-AIB. We suggest that H+ provides the alternative cosubstrate in this low Na+ environment and that in high Na+ medium the Na+:AIB stoichiometry approaches 1:1.     

Effects of hyperosmotic medium on hepatocyte volume, transmembrane potential and intracellular K+ activity

Hepatocyte transmembrane potential (Vm) behaves as an osmometer and varies with changes in extracellular osmotic pressure created by altering the NaCl concentration in the external medium (Howard, L.D. and Wondergem, R. (1987) J. Membr. Biol. 100, 53). We now have demonstrated similar effects on Vm by increasing external osmolality with added sucrose and not altering ionic strength. We also have demonstrated that hyperosmotic stress-induced depolarization of Vm results from changes in membrane K+ conductance, gK, rather than from changes in the K+ equilibrium potential. Vm and aKi of hepatocytes in liver slices were measured by conventional and ion-sensitive microelectrodes, respectively. Cell water vols. were estimated by differences in wet and dry weights of liver slices after 10-min incubations. Effect of hyperosmotic medium on membrane transference number for K+, tK, was measured by effects on Vm of step-changes in external [K+]. Hepatocyte Vm decreased 34, 52 and 54% when tissue was superfused with medium made hyperosmotic with added sucrose (50, 100 and 150 mM). Correspondingly, aKi increased 10, 18 and 29% with this hyperosmotic stress of added sucrose. Tissue water of 2.92 +/- 0.10 kg H2O/kg dry weight in control solution decreased to 2.60 +/- 0.05, 2.25 +/- 0.06 and 2.22 +/- 0.05 kg H2O/kg dry weight with additions to medium of 50, 100 and 150 mM sucrose, respectively. Adding 50 mM sucrose to medium decreased tK from 0.20 +/- 0.01 to 0.05 +/- 0.01. Depolarization by 50% with hyperosmotic stress (100 mM sucrose) also occurred in Cl-free medium where Cl- was substituted with gluconate. We conclude that hepatocytes shrink during hyperosmotic stress, and the aKi increases. The accompanying decrease in Vm is opposite to that expected by an increase in aKi, and at least in part results from a concomitant decrease in gK. Changes in membrane Cl- conductance most likely do not contribute to osmotic stress-induced depolarization, since equivalent decreases in Vm occurred with added sucrose in cells depleted of Cl- by superfusing tissue with Cl-free medium.     

Regional variations in the tightness of the ectodermal epithelium in the developing chick embryo: a study using ion-sensitive microelectrodes

In 2-day-old avian embryos there is a rosto-caudal gradient of interstitial pH (Gillespie and McHanwell: Cell Tissue Res., 247:445-451, '87). Neither the developmental significance nor the basic cellular mechanisms underlying this phenomenon has been studied. The present paper provides information about the interstitial potassium and calcium ion concentrations and the movement of these ions across the ectodermal epithelium. The data suggests a possible explanation for the longitudinal pH gradient in the embryo. The concentrations of potassium and calcium ions in the interstitial spaces were measured with ion-sensitive and conventional microelectrodes. In embryos bathed in solution containing 1 mM potassium, the potassium concentration in the region of the mesencephalon was 5.1 +/- 0.7 mM while in the region of the unsegmented mesoderm it was significantly lower at 3.3 +/- 0.4 mM (mean +/- S.E., n = 16). If embryos are exposed to extra-embryonic solutions containing 30 mM potassium, the K+ concentration in the mesencephalon is 13.0 +/- 0.8 mM and higher at 15.4 +/- 1.2 mM in the unsegmented mesoderm (n = 12). In embryos bathed in solutions containing 0.1 mM calcium, the interstitial calcium was found to be 1.1 +/- 0.52 mM in the mesencephalon and 0.42 +/- 0.19 mM in the unsegmented mesoderm (n = 3). In comparison, embryos bathed in solution containing 10 mM calcium had 1.9 +/- 0.2 mM rostrally compared to 3.71 +/- 0.63 mM caudally (n = 10). Thus it is possible to generate intra-embryonic ion gradients dependent upon the extra-embryonic ion concentration.(ABSTRACT TRUNCATED AT 250 WORDS)     

Determination of the affinity of each component of a composite quaternary transition-state analogue complex of creatine kinase

Recombinant rabbit muscle creatine kinase (CK) was titrated with MgADP in 50 mM Bicine and 5 mM Mg(OAc)2, pH 8.3, at 30.0 degrees C by following a decrease in the protein's intrinsic fluorescence. In the presence of 50 mM NaOAc, but in the absence of added creatine or nitrate, MgADP has an apparent K(d) of 135 +/- 7 microM, and the total change in fluorescence on saturation (Delta%F) is 15.3 +/- 0.3%. Acetate was used as the anion in this experiment because it does not promote the formation of a CK.MgADP.anion.creatine transition-state analogue complex (TSAC) [Millner-White and Watts (1971) Biochem. J. 122, 727-740]. In the presence of 80 mM creatine, but no nitrate, the apparent K(d) for MgADP remains essentially unchanged at 132 +/- 10 microM, while Delta%F decreases slightly to 13.2 +/- 0.3%. In the presence of 10 mM nitrate, but no creatine, the apparent K(d) is once again essentially unchanged at 143 +/- 23 microM, but the Delta%F is markedly reduced to 4.2 +/- 0.2%. The presence of both 10 mM nitrate and 80 mM creatine during titration reduces the apparent K(d) for MgADP 10-fold to 13.7 +/- 0.7 microM, and Delta%F increases to 20.6 +/- 0.3%, strongly suggesting that the simultaneous presence of saturating levels of creatine and nitrate increases the affinity of CK for MgADP and promotes the formation of the enzyme*MgADP*nitrate*creatine TSAC. When the fluorescence of CK was titrated with MgADP in the presence of 80 mM creatine and fixed saturating concentrations of various anions, apparent K(d) values for MgADP of 132 +/- 10 microM, 25.2 +/- 1.3 microM, 18.8 +/- 0.9 microM, 13.7 +/- 0.7 microM, and 6.4 +/- 0.7 microM were observed as the anion was changed from acetate to formate to chloride to nitrate to nitrite, respectively. This is the same trend reported by Millner-White and Watts for the effectiveness of various monovalent anions in forming the CK.MgADP.anion.creatine TSAC. On titration of CK with MgADP in the presence of 80 mM creatine and various fixed concentrations of NaNO3, the apparent K(d) for MgADP decreases with increasing fixed concentrations of nitrate. A plot of the apparent K(d) for MgADP vs [NO3-] suggests a K(d) for nitrate from the TSAC of 0.39 +/- 0.07 mM. Similarly, titration with MgADP in the presence of 10 mM NaNO3 and various fixed concentrations of creatine gives a value of 0.9 +/- 0.4 mM for the dissociation of creatine from the TSAC. The data were used to calculate K(TDAC), the dissociation constant of the quaternary TSAC into its individual components, of 3 x 10(-10) M3. To our knowledge this is the first reported dissociation constant for a ternary or quaternary TSAC.     

Cellular energetics and the oxygen dependence of respiration in cardiac myocytes isolated from adult rat

The oxygen dependence of mitochondrial respiration was investigated using suspensions of mitochondria and quiescent ventricular myocytes isolated from adult rat hearts. A new optical method was used to determine oxygen concentration in the suspending media. The P50 for respiration for coupled mitochondria at a high [ATP]/[ADP].[Pi] ratio and oxidizing glutamate/malate was 0.45 +/- 0.03 microM but was increased to 0.57 +/- 0.02 microM by the addition of succinate to the substrate mixture. This value was decreased to less than 0.06 +/- 0.01 microM when the ATP/ADP.Pi ratio was decreased with the uncoupler, carbonyl cyanide p-trifluoromethoxyphenylhydrazone. The P50 value in resting myocytes was 2.23 +/- 0.13 microM at a Vmax of 13.22 +/- 1.38 nmol of O2/g, dry weight/min. During resting conditions, the creatine phosphate/creatine and ATPfree/ADPfree ratios were high in these cells, 6.81 +/- 1.11 and 1131 +/- 185, respectively. Addition of 1 mM Ca2+ to the suspending media increased the P50 by 50% whereas respiration rose by only 10%. Respiratory rate was increased up to about 10-fold by uncoupling the cells, but the P50 increased by less than 3-fold. When these uncoupled cells were inhibited with Amytal to lower the rate of oxygen consumption to that of resting cells, the P50 fell to 1.25 +/- 0.14 microM. Diffusion models indicate that in resting myocytes, the oxygen concentration difference from sarcolemma to cell core was approximately 1.84 microM with an additional difference of about 0.27 microM attributed to the unstirred layer of media surrounding each cell. The intracellular oxygen diffusivity coefficient in myocytes was calculated to be 0.30 x 10(-5) cm2/s. The results show that the oxygen dependence of respiration is modulated by the cellular metabolic state. At near maximal levels of respiration or on recovery from hypoxic episodes, oxygen diffusion may become an important determinant of the oxygen dependence of myocardial respiration.     

Properties of the periplasmic nitrate reductases from Paracoccus pantotrophus and Escherichia coli after growth in tungsten-supplemented media

Paracoccus pantotrophus grown anaerobically under denitrifying conditions expressed similar levels of the periplasmic nitrate reductase (NAP) when cultured in molybdate- or tungstate-containing media. A native PAGE gel stained for nitrate reductase activity revealed that only NapA from molybdate-grown cells displayed readily detectable nitrate reductase activity. Further kinetic analysis showed that the periplasmic fraction from cells grown on molybdate (3 microM) reduced nitrate at a rate of V(max)=3.41+/-0.16 micromol [NO(3)(-)] min(-1) mg(-1) with an affinity for nitrate of K(m)=0.24+/-0.05 mM and was heat-stable up to 50 degrees C. In contrast, the periplasmic fraction obtained from cells cultured in media supplemented with tungstate (100 microM) reduced nitrate at a much slower rate, with much lower affinity (V(max)=0.05+/-0.002 micromol [NO(3)(-)] min(-1) mg(-1) and K(m)=3.91+/-0.45 mM) and was labile during prolonged incubation at >20 degrees C. Nitrate-dependent growth of Escherichia coli strains expressing only nitrate reductase A was inhibited by sub-mM concentrations of tungstate in the medium. In contrast, a strain expressing only NAP was only partially inhibited by 10 mM tungstate. However, none of the above experimental approaches revealed evidence that tungsten could replace molybdenum at the active site of E. coli NapA. The combined data show that tungsten can function at the active site of some, but not all, molybdoenzymes from mesophilic bacteria.     

Ion-mediated resistance to osmotic changes of ram spermatozoa: the role of amiloride and ouabain

The aim of this study was to evaluate whether the Na+/K+ and Na+/H+ exchange can maintain the function of fresh ram spermatozoa. We analyzed the quality parameters of spermatozoa from fresh ram ejaculates incubated in iso- (about 300 mOsm), hypo- (about 100 mOsm) and hyperosmotic (about 900 mOsm) media in the presence of ouabain a specific inhibitor of the Na+/K+ ATP-ase or amiloride, a specific inhibitor of the Na+/H+ antiporter. Ouabain increased the percentage of morphologically altered acrosomes in isoosmotic media (from about 10% to 15% in control to about 30% with 10(-4) M ouabain) and decreased the percentage of total motility (from about 80% in control to about 50% to 55% with 10(-4) M ouabain). Ouabain decreased the mean linearity component of motility and decreased the frequency of head displacement. The addition of ouabain increased the percentage of altered acrosomes in the hypo- and hyperosmotic media, although it did not modify viability in either media. Ouabain also increased the percentage of swollen tails in the hypoosmotic medium at higher concentrations of the inhibitor. Amiloride increased the percentage of altered acrosomes in all media although its effect was less intense than that of ouabain. In isoosmotic media, total motility was decreased from about 80% in control to about 65% with 10(-4) M amiloride. Motile spermatozoa incubated with amiloride showed a clear decrease of mean velocity and mean linearity and increased frequency of head displacement. In the hyperosmotic medium, adding amiloride decreased the percentage of viability and altered tails at concentrations as low as 10(-6) to 10(-5) M. Our results indicate that the active mechanisms which control Na+ transport play a significant role in the maintenance of function in ram spermatozoa subjected to different osmotic environments. These mechanisms may be important in maintaining ram sperm function both "in vivo" and "in vitro".     

Influence of auxins and sucrose in monoterpenoid oxindole alkaloid production by Uncaria tomentosa cell suspension cultures

Growth and alkaloid production in Uncaria tomentosa cell suspension cultures were studied in Murashige and Skoog medium supplemented with 10 microM 2,4-dichlorophenoxyacetic acid, 10 microM kinetin, and 58 mM sucrose for maintenance and with 10 microM indole-3-acetic acid, 10 microM kinetin, and 58 mM sucrose for production. A U. tomentosa pale Uth-3 cell line, cultured in the production medium, showed a reduced lag phase and a specific growth rate (mu) of 0.27 day(-1), while cells growing in the maintenance medium showed mu = 0.20 day(-1). U. tomentosa cells growing in the production medium produced monoterpenoid oxindole alkaloids (MOA) in amounts of 10.2 +/- 1.6 microg g(-1) dry weight (DW). The chemical profile of MOA produced by in vitro cell cultures was similar to that found in the plant. After 10 subcultures, maximum MOA production decreased to 2.0 +/- 0.7 microg g(-1) DW, while tryptamine alkaloids (TA) were produced with a maximum of 6.2 +/- 0.4 microg g(-1) DW. The increase of initial sucrose concentration up to 145 mM in the production medium enhanced the cell biomass by 3.2-fold (from 10.2 +/- 0.1 to 32.8 +/- 1.1 g DW L(-1)), reduced mu from 0.27 to 0.23 day(-1), and provoked a substantial accumulation of TA (23.1 +/- 4.7 microg g(-1) DW). A high sucrose concentration stimulated MOA production in the maintenance medium (2.7 +/- 0.5 microg g(-1) DW), even in the presence of 2,4-dichlorophenoxyacetic acid.     

Cytoskeleton elements mediate the inhibition of the (Na++K+)atpase activity by PKC in Rhodnius prolixus malpighian tubules during hyperosmotic shock

In a previous paper, we observed that the specific activity of (Na++K+)ATPase of the isolated Malpighian tubules from Rhodnius prolixus is inhibited by protein kinase C (PKC) during hyperosmotic shock [Arenstein et al., J Membr Biol 146:47-57 [1995]; Caruso-Neves et al., Z Naturforsch 53c:911-917 [1998]). In the present paper, we study the involvement of the cytoskeleton in this process using isolated Malpighian tubules of Rhodnius prolixus. We observed that pre-incubation of the Malpighian tubule cells in hyperosmotic media decreases the specific activity of (Na++K+)ATPase by 90%. This effect was completely reversed when colchicine, which disrupts microtubules, or cytochalasin B, an inhibitor of actin microfilament polymerization, were added to the media in a dose-dependent manner. The maximal reversion was obtained with colchicine 7.0 microM or cytochalasin B 5.0 microM. The simultaneous addition of sphingosine 50 ng/mL, an inhibitor of PKC, to 10 microM colchicine or 5 microM cytochalasin B, in hyperosmotic media, did not change the stimulatory effect of these drugs on the specific activity of (Na++K+)ATPase. On the other hand, the co-incubation of TPA 20 ng/mL, an activator of PKC, to colchicine or cytochalasin B within hyperosmotic media, abolished the stimulatory effect of these drugs on the specific activity of (Na++K+)ATPase to a similar extent as hyperosmotic shock. These results suggest that inhibition of the (Na++K+)ATPase of the isolated Malpighian tubules from Rhodnius prolixus by PKC during hyperosmotic shock is mediated by cytoskeletal elements.     

Induction of a sodium ion influx by progesterone in human spermatozoa

In human spermatozoa, progesterone (P(4)) induces a depolarization of the plasma membrane, a rapid calcium (Ca(2+)) influx, and a chloride efflux. The sodium ion (Na(+)) was partly responsible for the P(4)-induced depolarizing effect but was not required for calcium influx. We used fluorescent probes for spectrofluorometry to investigate whether P(4) induced a Na(+) influx and whether voltage-operated channels were involved in Na(+) and/or Ca(2+) entries. We found that 10 microM P(4) significantly increased intracellular Na(+) concentration from 17.8 +/- 2.0 mM to 27.2 +/- 1. 6 mM (P < 0.001). Prior incubation of spermatozoa with 10 microM flunarizine, a Na(+) and Ca(2+) voltage-dependent channel blocker, inhibited the sodium influx induced by 10 microM P(4) by 84.6 +/- 15.4%. The Ca(2+) influx induced by 10 microM P(4) was also significantly inhibited in a Na(+)-containing medium by 10 microM flunarizine or 10 microM pimozide (P < 0.01). In contrast, flunarizine had no inhibitory effect on the Ca(2+) influx induced by 10 microM P(4) in spermatozoa incubated in Na(+)-depleted medium. The P(4)-promoted acrosome reaction (AR) was significantly higher when spermatozoa were incubated in Na(+)-containing medium as compared to Na(+)-depleted medium. These data demonstrate that P(4) stimulates a Na(+) influx that could be involved in the AR completion. They also suggest that voltage-dependent Na(+) and Ca(2+) channels are implicated in P(4)-mediated signaling pathway in human spermatozoa.     

Kinetics of myo-inositol transport in corneal endothelial cells: diverse effects of sugars and implications in corneal deutergensence [corrected

Kinetics of myo-inositol (MI) uptake into primary cultures of bovine corneal endothelial cells (CEC) were studied. Confluent corneal endothelial cells accumulated 3H-MI in a time dependent and saturable process. At a narrow range of external concentrations of 3H-MI (4-50 microM), the Na(+)-dependent MI uptake followed saturation kinetics. The apparent Km value was 20 microM with a maximum velocity (Vmax) of 16 pmol/20 min/micrograms DNA. At low external 3H-MI concentrations the uptake was dependent on Na ions, but at higher levels the Na(+)-independent fraction of MI uptake significantly increased. The uptake was sensitive to removal of Ca ions and to the presence of inhibitors such as n-ethyl maleimide, phlorizin, ouabain, and amiloride (an inhibitor of Na+/H+ exchanger). The sensitivity of MI uptake toward inhibitors and ionic changes in the bathing media was reduced as external concentrations of 3H-MI increased. Citrate at 0.5 mM increased the uptake, suggesting involvement of mitochondrial oxidative metabolism in the MI uptake. Percent release of radioactivity by 2 min, after an initial 40-min incubation with 20 microM 3H-MI, was 6.6% +/- 0.8 or 35% +/- 4 when release media contained BSS alone or BSS containing 5 mM nonradioactive MI, respectively. Efflux of radioactivity from the cells also was enhanced when release media contained 40 mM glucose. Glucose and galactose as well as nonmetabolizable glucose analogues, such as 3O-methyl glucose or alpha-methyl glucose, at high concentrations (40 mM), acutely (in the incubation media) or chronically (in the growth media) inhibited MI uptake into CEC, and the extent of inhibition was inversely proportional to the external levels of 3H-MI. However, glucose at lower levels (less than or equal to 10 mM) slightly increased MI uptake. These studies indicated that the uptake of MI into corneal endothelial cells was an Na(+)-dependent active process at a narrow range of external radioactive MI concentrations. Higher levels of MI were taken up by the cells via a passive diffusion mechanism, independent of carrier protein(s). Glucose influenced the uptake of MI in a complex manner. The increased MI efflux by glucose or by MI was perhaps due to the limited capacity of CEC for accumulation or compartmentalization of this or other solutes/osmolytes, a phenomenon that may be related to the role of CEC in maintenance of corneal deutergence. High glucose-induced inhibition of Na(+)-dependent MI uptake may be in part due to glucose regulation of Na+ fluxes and cell volume.(ABSTRACT TRUNCATED AT 400 WORDS)     

Fate of intraluminal glutamine in the perfused renal tubule

To determine the fate of intraluminal glutamine and specifically the role of brush border gamma glutamyltransferase in its hydrolysis and reabsorption, proximal convoluted tubules of rabbits were isolated and perfused with an artificial ultrafiltrate containing 1 mM 14C-glutamine and 3H-PEG as a volume absorption marker. The tubules, average length 0.80 +/- 0.09 mm, were bathed in perfusate containing albumin, 6.5 percent but no glutamine. Aliquots of collectate and bathing media were monitored for total 14C counts while the distribution of radioactive 14C between glutamine and glutamate in the collectate was determined by separation on a Dowex X8 formate form ion-exchange column. After 3 ten minute control periods the perfusate was switched to one containing 1 mM AT-125 in addition to glutamine and after equilibration an additional 3 collections were obtained. Control period glutamine load averaged 16.1 +/- 2.4 pmole/min of which 35 percent was absorbed and 38 and 27 percent excreted as glutamine and glutamate respectively; of the absorbed glutamine 25 percent was metabolized. During AT-125 administration, glutamine delivery averaged 15.0 +/- 2.1 pmole/min of which 57 percent was absorbed; increased absorption occurred at the expence of intraluminal glutamate formation which fell to less than 10 percent. Thus luminal transport and gamma glutamyltransferase mediated hydrolysis appear to compete for available glutamine. Significantly, reducing intraluminal glutamine hydrolysis doubles the cellular metabolism of absorbed glutamine suggesting that extracellular conversion of glutamine to glutamate alters the metabolic fate of filtered glutamine.     

Leishmania amazonensis: characterization of an ecto-phosphatase activity

We have characterized a phosphatase activity present on the external surface of Leishmania amazonensis, using intact living parasites. This enzyme hydrolyzes the substrate p-nitrophenylphosphate (p-NPP) at the rate of 25.70+/-1.17 nmol Pi x h(-1) x 10(-7)cells. The dependence on p-NPP concentration shows a normal Michaelis-Menten kinetics for this ecto-phosphatase activity present a V(max) of 31.93+/-3.04 nmol Pi x h(-1) x 10(-7)cells and apparent K(m) of 1.78+/-0.32 mM. Inorganic phosphate inhibited the ecto-phoshatase activity in a dose-dependent manner with the K(i) value of 2.60 mM. Experiments using classical inhibitor of acid phosphatase, such as ammonium molybdate, as well as inhibitors of phosphotyrosine phosphatase, such as sodium orthovanadate and [potassiumbisperoxo(1,10-phenanthroline)oxovanadate(V)] (bpV-PHEN), inhibited the ecto-phosphatase activity, with the K(i) values of 0.33 microM, 0.36 microM and 0.25 microM, respectively. Zinc chloride, another classical phosphotyrosine phosphatase inhibitor, also inhibited the ecto-phosphatase activity in a dose-dependent manner with K(i) 2.62 mM. Zinc inhibition was reversed by incubation with reduced glutathione (GSH) and cysteine, but not serine, showing that cysteine residues are important for enzymatic activity. Promastigote growth in a medium supplemented with 1mM sodium orthovanadate was completely inhibited as compared to the control medium. Taken together, these results suggest that L. amazonensis express a phosphohydrolase ectoenzyme with phosphotyrosine phosphatase activity.     

Glucose toxicity effect and accumulation of methylglyoxal by the periodontal anaerobe Bacteroides forsythus

Growth of the periodontal pathogen Bacteroides forsythus in broth cultures showed inhibition in the presence of 10mM glucose added to the medium. Glucose inhibition in a number of rumen bacteria has been attributed to the accumulation of methylglyoxal (MG), a highly reactive electrophile known to exhibit cytotoxic effects. HPLC analysis revealed elevated concentrations of MG in cultures of seven strains of B. forsythus. MG rose during growth to a maximum at the time of growth inhibition. Maximum MG concentrations for strain ATCC 43037 were 60.6+/-8.2 microM without added glucose, and 185.5+/-21.5 microM (P<0.014) with 10mM added glucose. Other strains gave values ranging from 24-91 microM and 100-326 microM MG, respectively. Both free and reversibly bound MG were detected in the bacterial cells and in the cell-free culture fluid. Disk sensitivity tests indicated that three B. forsythus strains exhibited different sensitivities to growth inhibition by added MG. Altogether, the results demonstrated the production and accumulation by B. forsythus of high levels of MG in vitro. MG accumulation appears to be related to the marked auto-inhibitory glucose-toxicity effect observed with B. forsythus strains, an effect that must be considered in the design of optimal media for the culture of this fastidious species. In the diseased periodontal pocket, production of the highly reactive, cytotoxic MG by B. forsythus may contribute significantly to disease pathogenesis.     

A component of fluid absorption linked to passive ion flows in the superficial pars recta

We studied salt and water absorption in isolated rabbit superficial proximal straight tubules perfused and bathed with solutions providing oppositely directed transepithelial anion gradients similar to those which might obtain in vivo. The perfusing solution contained 138.6 mM Cl- 3.8 mM HCO-3 (pH 6.6) while the bathing solution contained 113.6 mM Cl- and 25 mM HCO-3 (pH 7.4); the system was bubbled with 95% O2-5% CO2. At 37 degrees C, net volume absorption (Jv nl min-1 mm-1) was 0.32 +/- 0.03 (SEM); Ve, the transepithelial voltage (millivolts; lumen to bath), was +3.1 +/- 0.2. At 21 degrees C, Ve rose to +3.7 +/- 0.1 and Jv fell to 0.13 +/- 0.01 (significantly different from zero at P less than 0.001); in the presence of 10(-4)M ouabain at 37 degrees C, Ve rose to +3.8 +/- 0.1 and Jv fell to 0.16 +/- 0.01 (P less than 0.001 with respect to zero). In paired experiments, the ouabain- and temperature-insensitive moieties of Jv and Ve became zero when transepithelial anion concentration gradients were abolished. Titrametric determinations net chloride flux at 21 degrees C or at 37 degrees C with 10(-4) M ouabain showed that chloride was the sole anion in an isotonic absorbate. And, combined electrical and tracer flux data indicated that the tubular epithelium was approximately 18 times more permeable to Cl- than to HCO-3. We interpret these results to indicate that, in these tubules, NaCl absorption depends in part on transepithelial anion concentration gradients similar to those generated in vivo and in vitro by active Na+ absorption associated with absorption to anions other than chloride. A quantitative analysis of passive solute and solvent flows in lateral intercellular spaces indicated that fluid absorption occurred across junctional complexes when the osmolality of the lateral intercellular spaces was equal to or slightly less than that of the perfusing and bathing solutions; the driving force for volume flow under these conditions depended on the fact that sigmaHCO3 exceeded sigmaCl.     

Characterization of two independent modes of action of ATP on human erythrocyte sugar transport

Intracellular ATP has been reported either to stimulate [Jacquez, J.A. (1983) Biochim. Biophys. Acta 727, 367-378] or to inhibit [Hebert, D. N., & Carruthers, A. (1986) J. Biol. Chem. 261, 10093-10099] human erythrocyte sugar transport. This current study provides a rational explanation for these divergent findings. Protein-mediated 3-O-methyl-alpha-D-glucopyranoside (3OMG) uptake by intact human red blood cells (lacking intracellular sugar) at ice temperature in isotonic KCl containing 2 mM MgCl2, 2 mM EGTA, and 5 mM Tris-HCl, pH 7.4 (KCl medium), is characterized by a Km(app) of 0.4 +/- 0.1 mM and a Vmax of 114 +/- 20 mumol L-1 min-1. Lysis of red cells in 40 volumes of EGTA-containing hypotonic medium and resealing in 10 volumes of KCl medium increase the Km(app) and Vmax for uptake to 7.1 +/- 1.8 mM and 841 +/- 191 mumol L-1 min-1, respectively. Addition of ATP (4 mM) to the resealing medium restores Michaelis and velocity constants for zero-trans 3OMG uptake to 0.42 +/- 0.11 mM and 110 +/- 15 mumol L-1 min-1, respectively. Addition of CaCl2 to extracellular KCl medium (calculated [Ca2+]o = 101 microM) reduces the Vmax for zero-trans 3OMG uptake in intact cells and ATP-containing ghosts by 79 +/- 4% and 61 +/- 9%, respectively. Intracellular Ca2+ (15 microM) reduces the Vmax for 3OMG uptake by ATP-containing ghosts by 38 +/- 12%. In nominally ATP-free ghosts, extracellular (101 microM) and intracellular (11 microM) Ca2+ reduce the Vmax for 3OMG uptake by 96 and 94%, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)     

The cercarial tail in Proterometra macrostoma (Digenea: Azygiidae): permeability and fine structure of the tegument

Permeability of the cercarial tail in Proterometra macrostoma was examined in vitro with 1 mM 3H-glucose, which tails absorb by diffusion alone. Naturally emerged cercariae (bodies withdrawn into tails) were permeable, but they rapidly (3 min) equilibrated with glucose in the bathing medium and maintained steady state for 4 hr. Metabolism of absorbed glucose was not detectable until after 90 min, and radioactivity in bodies dissected from tails after 4 hr was negligible. On the basis of cercarial water content (90% of total weight) and absorbed isotope at steady state, the calculated volume of the equilibrating compartment was 4% of an intact cercaria. This value correlated well with that of the tegument (3-5%), which was 1-2 microm thick as seen by transmission electron microscopy. A continuous, electron-dense basal membrane/lamina separated the tegument from subtegument. We conclude that the glycocalyx and external plasma membrane are freely permeable, whereas the basal membrane is the barrier that effectively isolated the subtegument from exogenous glucose. The basal membrane also may be the primary structure that protects the subtegument and cercarial body from effects of osmotic stress.     

Hamster zonae pellucidae cannot induce physiological acrosome reactions in chemically capacitated hamster spermatozoa in the absence of albumin

Cauda epididymal hamster spermatozoa were capacitated with D-penicillamine in a chemically defined (protein-free) medium (= "chemical" capacitation). Hamster zonae pellucidae were incapable of inducing functional acrosome reactions in chemically capacitated hamster sperm in a protein-free medium during sperm-egg coincubation. The culture medium used throughout incubation was a modified Tyrode's solution containing 10 mM sodium lactate, 100 microM sodium pyruvate and 1.0 mg/ml polyvinylalcohol (TLP-PVA). Sperm motility was maintained in all media with PHE (20 microM penicillamine, 100 microM hypotaurine, and 1.0 microM epinephrine). Additional D-penicillamine (125 or 500 microM) or 3 mg/ml bovine serum albumin (high control: TALP-PVA) was used to capacitate sperm during preincubation at 1-2 X 10(6) sperm/ml for 4.0 h at 37 degrees C in 5% CO2 in air. Sperm were then coincubated (2 X 10(4) sperm/ml) with cumulus-free hamster eggs in TALP-PVA or TLP-PVA +/- additional D-penicillamine (total: 500 or 125 microM) for 1.5 or 6.0 h. Percent egg penetration was used as the definitive index of sperm capacitation and functional acrosome reactions. Chemically capacitated sperm did not penetrate eggs (0.0 +/- 0.0%) in the absence of albumin during 1.5 h of sperm-egg coincubation. When sperm were chemically capacitated with 125 microM or 500 microM D-penicillamine, then coincubated with eggs for 6.0 h in the absence of albumin, only 18.8 +/- 28.6% and 23.7 +/- 29.7%, respectively, of eggs were penetrated. Significantly (p less than 0.05) more eggs (67.7 +/- 22.4%) were penetrated when coincubated with chemically capacitated sperm for 1.5 h in medium containing albumin. These results demonstrate that zonae pellucidae of hamster eggs require the presence of albumin to efficiently induce functional acrosome reactions in sperm that are chemically capacitated with D-penicillamine.     

Specific enhancement of the cardiac myofibrillar ATPase by bound creatine kinase.

The kinetic influence of bound creatine kinase (CK) on the Ca(2+)-activated myosin ATPase was evaluated. ATPase rates were measured from 0.8 microM to 3.2 mM MgATP. Under control conditions, the apparent KmATP was 79.9 +/- 13.3 microM. In contrast, the addition of 12.2 mM phosphocreatine (PCr) decreased the apparent KmATP to a value of 13.6 +/- 1.4 microM. To determine if this reduction was merely the result of an ATP maintenance system, ATP was regenerated using either phosphoenolpyruvate and pyruvate kinase (PEP-PK), or PCr and soluble bovine cardiac CK. Data obtained with PEP + PK indicated an apparent KmATP of 65.5 +/- 7.3 microM. To study the effects of exogenous CK, the endogenous CK was irreversibly inhibited with 1 mM iodoacetamide. The kinetics of the ATPase were then examined by adding soluble CK to the incubation medium. Under these conditions, the KmATP was 56.4 +/- 0.86 microM. Therefore, these two ATP regeneration systems could not duplicate the effects of endogenous CK. The reduction of the apparent KmATP by endogenous CK was not the result of an altered inhibition by MgADP. MgADP inhibition was determined to be non-competitive, with a Ki of 5.0 +/- 0.1 mM. These data suggest that the observed kinetic effects reflect the proximity of the enzymes in the myofibrillar bundle, thus emphasizing the importance of bound CK for the localized regeneration of MgATP utilized by the myosin ATPase.