Iron requirement and chelator production of staphylococci,Streptococcus faecalis and enterobacteriaceae

The effect of iron deprivation on growth of 101 aerobic strains of gram-positive and gram-negative bacteria was studied on agar media in the presence of various concentrations of the synthetic iron chelator ethylene diamine diorthohydroxyphenyl acetic acid (EDDA) and the iron binding protein transferrin.Growth of Staphylococcus epidermidis was inhibited by 15mm EDDA and 1.5mm transferrin. Staphylococcus aureus was only inhibited by 44mm EDDA and not by transferrin. None of the strains of S. faecalis was inhibited. The majority of the enterobacteriaceae (E. coli, Salmonella spp, Klebsiella spp) was inhibited by 44mm EDDA and 1.5mm transferrin. The relation between susceptibility and concentration of EDDA and transferrin was expressed as S-value for each species. Iron supply with various iron compounds could restore the effects of inhibition.In all species except in S. faecalis iron chelator production could be demonstrated, using indicator plates of media containing EDDA and flooded with 10⁴–10⁵ colony forming units of indicator organisms.The iron chelator of both S. epidermidis and S. aureus could stimulate growth of S. epidermidis, but not that of enterobacteriaceae. Iron chelators from all gram-negative bacteria were functionally interchangeable, but did not stimulate growth of gram-positive bacteria.     

Purification and characterization of trypsin from an entomopathogen,Nomuraea rileyi NRRL 13755

Nomuraea rileyi isolate NRRL-13755 produced a large amount of trypsin enzyme when cultured on basal salt medium containing 1% (w/v) gelatin. The trypsin was purified nearly 60-fold, with a recovery of about 13% of the initial activity from the culture supernatant. This protease exhibited a remarkably high specific activity of nearly 370,000 IU/mg protein. The native molecular weight was estimated by gel permeation chromatography to be 30 kDa, and the subunit molecular weight was determined to be about 30 kDa by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). The pH and temperature optima were determined to be 8.5 and 35°C, respectively. With a relative trypsin activity of 100%, this purified preparation showed about 10% chymoelastase and nearly 50% chymotrypsin activity. Metal-chelating agents such as EDTA and EGTA at 2mm inhibited the enzyme activity by 40%, whereas N-carbobenzoxy-glycyl-l-phenylalaninamide (CBZ-gly-phe-NH₂) (2mm) and DTT (2mm) had no effect on activity. Trypsin inhibitor from turkey egg-white at 100 g/ml strongly inhibited the enzyme activity.The mention of firm names or trade products does not imply that they are endorsed or recommended by the U.S. Department of Agriculture over other firms or similar products not mentioned.     

Coupled Na+/H+ exchange in rat parotid basolateral membrane vesicles

Summary pH gradient-dependent sodium transport in highly purified rat parotid basolateral membrane vesicles was studied under voltage-clamped conditions. In the presence of an outwardly directed H⁺ gradient (pH_in=6.0, pH_out=8.0)²²Na uptake was approximately ten times greater than uptake measured at pH equilibrium (pH_in=pH_out=6.0). More than 90% of this sodium flux was inhibited by the potassium-sparing diuretic drug amiloride (K ₁ =1.6 m) while the transport inhibitors furosemide (1mm), bumetanide (1mm) SITS (0.5mm) and DIDS (0.1mm) were without effect. This transport activity copurified with the basolateral membrane marker K⁺-stimulatedp-nitrophenyl phosphatase. In addition²²Na uptake into the vesicles could be driven against a concentration gradient by an outwardly directed H⁺ gradient. pH gradient-dependent sodium flux exhibited a simple Michaelis-Menten-type dependence on sodium concentration cosistent with the existence of a single transport system withK _M =8.0mm at 23°C. A component of pH gradient-dependent, amiloride-sensitive sodium flux was also observed in rabbit parotid basolateral membrane vesicles. These results provide strong evidence for the existence of a Na⁺/H⁺ antiport in rat and rabbit parotid acinar basolateral membranes and extend earlier less direct studies which suggested that such a transporter was present in salivary acinar cells and might play a significant role in salivary fluid secretion.     

Apical and basolateral Na+/H+ exchange in the rabbit outer medullary thin descending limb of henle: Role in intracellular pH regulation

Summary The present study was designed to investigate the apical and basolateral transport processes responsible for intracellular pH regulation in the thin descending limb of Henle. Rabbit thin descending limbs of long-loop nephrons were perfused in vitro and intracellular pH (pH _i ) was measured using BCECF. Steady-state pH _i in HEPES buffered solutions (pH 7.4) was 7.18±0.03. Following the removal of luminal Na⁺, pH _i decreased at a rate of 1.96±0.37 pH/min. In the presence of luminal amiloride (1mm), the rate of decrease of pH _i was significantly less, 0.73±0.18 pH/min. Steady-state pH _i decreased 0.18 pH units following the addition of amiloride (1mm) to the lumen (Na⁺ 140mm lumen and bath). When Na⁺ was removed from the basolateral side of the tubule, pH _i decreased at a rate of 0.49±0.05 pH/min. The rate of decrease of pH _i was significantly less in the presence of 1mm basolateral amiloride, 0.29±0.04 pH/min. Addition of 1mm amiloride to the basolateral side (Na⁺ 140mm lumen and bath) caused steady-state pH _i to decrease significantly by 0.06 pH units. When pH _i was acutely decreased to 5.87±0.02 following NH₄Cl removal (lumen, bath), pH _i failed to recover in the absence of Na⁺ (lumen, bath). Addition of 140mm Na⁺ to the lumen caused pH _i to recover at a rate of 2.17±0.59 pH/min. The rate of pH _i recovery was inhibited 93% by 1mm luminal amiloride. When 140mm Na⁺ was added to the basolateral side, pH _i recovered only partially at 0.38±0.07 pH/min. Addition of 1mm basolateral amiloride inhibited the recovery of pH _i , by 97%. The results demonstrate that the rabbit thin descending limb of long-loop nephrons possesses apical and basolateral Na⁺/N⁺ antiporters. In the steady state, the rate of Na⁺-dependent H⁺ flux across the apical antiporter exceeds the rate of Na⁺-dependent H⁺ flux via the basolateral antiporter. Recovery of pH _i following acute intracellular acidification is Na⁺ dependent and mediated primarily by the luminal antiporter.     

Transport of glutamine inXenopus laevis oocytes: Relationship with transport of other amino acids

Summary We have investigated transport of the amino acid glutamine across the surface membranes of prophase-arrestedXenopus laevis oocytes. Glutamine accumulation was linear with time for 30 min; it was stereospecific with aK _m of 0.12±0.02mm andV _max of 0.92±0.17 pmol/oocyte · min forl-glutamine. Transport ofl-glutamine was Na⁺-dependent, the cation not being replaceable with Li⁺, K⁺, choline, tris(hydroxymethyl)-aminomethane (Tris), tetramethylammonium (TMA) or N-methyld-glucamine NMDG); external Cl^– appeared to be necessary for full activation of Na⁺-dependent glutamine transport. Two external Na⁺ may be required for the transport of one glutamine molecule.l-glutamine transport (at 50 m glutamine) was inhibited by the presence of other amino acids:l-alanine,d-alanine,l-leucine,l-asparagine andl-arginine (about 60% inhibition at 1mm);l-histidine,l-valine and glycine (25 to 40% inhibition at 1mm);l-serine,l-lysine,l-phenylalanine andl-glutamate (45 to 55% inhibition at 10mm). N-methylaminoisobutyric acid (meAIB) had no effect at 10mm, but 2-aminobicyclo[2,2,1]heptane-2-carboxylic acid (BCH) inhibited Na⁺/glutamine transport by about 50% at 10mm.l-glutamine was a competitive inhibitor of the Na⁺-dependent transport ofl-alanine,d-alanine andl-arginine; this evidence is consistent with the existence of a single system transporting all four amino acids. Glutamine uptake in oocytes appears to be catalyzed by a transport system distinct from the cotransport Systems A, ASC, N and Gly, although it resembles System B^0,+.     

Modulation of apical Na permeability of the toad urinary bladder by intracellular Na,Ca, and H

Summary The Na conductance of the apical membrane of the toad urinary bladder was measured at different concentrations of Na both in the external medium and in the cell. Bladders were bathed in high K-sucrose medium to reduce basal-lateral resistance and voltage, and the transepithelial currents measured under voltage-clamp conditions. Amiloride was used as a specific blocker of the apical Na channel. At constant external Na, the internal Na concentration was increased by blocking the basallateral Na pump with ouabain. With high Na activity in the mucosal medium (86mm), increases in intracellular Na activity from 10 to over 40mm increased the amiloride-sensitive slope conductance at zero voltage while apical Na permeability, estimated from current-voltage plots using the constant field equation, decreased by less than 20%. Lowering the serosal Ca concentration from 1 to 0.1mm had no effect on the change inP _Na with increasing Na_c, but increasing serosal Ca to 5mm enhanced the reduction inP _Na with increasing Na _c , presumably by increasing Ca influx into the cell.P _Na was also reduced by serosal vanadate (0.5mm), a putative blocker of ATP-dependent Ca extrusion from the cell, and by acute exposure to CO₂, which presumably acidifies the cytoplasm. Current-voltage relationships of the amiloridesensitive transport pathway were also measured in the absence of a Na gradient across the apical membrane. These plots show that outward current passes through the channels somewhat less easily than does inward current. The shape of theI-V relationships was not significantly altered by changes in cellular Na, Ca or H, indicating that the effects of these ions onP _Na are voltage independent.     

Further photophysical and photochemical characterization of flavins associated with single-shelled vesicles

Summary In order to investigate whether the loop diuretic sensitive, sodium-chloride cotransport system described previously in shark rectal gland is in fact a sodium-potassium chloride cotransport system, plasma membrane vesicles were isolated from rectal glands ofSqualus acanthias and sodium and rubidium uptake were measured by a rapid filtration technique. In addition, the binding of N-methylfurosemide to the membranes was investigated. Sodium uptake into the vesicles in the presence of a 170mm KCl gradient was initially about five-fold higher than in the presence of a 170mm KNO₃ gradient. In the presence of chloride, sodium uptake was inhibited 56% by 0.4mm bumetanide and 40% by 0.8mm N-methylfurosemide. When potassium chloride was replaced by choline chloride or lithium chloride, sodium uptake decreased to the values observed in the presence of potassium nitrate. Replacement of potassium chloride by rubidium chloride, however, did not change sodium uptake. Initial rubidium uptake into the membrane vesicles was about 2.5-fold higher in the presence of a 170mm NaCl gradient than in the presence of a 170mm NaNO₃ gradient. The effect of chloride was completely abolished by 0.4mm bumetanide. Replacement of the sodium chloride gradient by a lithium chloride gradient decreased rubidium uptake by about 40%; replacement by a choline chloride gradient reduced the uptake even further. Rubidium uptake was also strongly inhibited by potassium. Sodium chloride dependence and bumetanide inhibition of rubidium flux were also found in tracer exchange experiments in the absence of salt gradients. The isolated plasma membranes bound³[H]-N-methylfurosemide in a dose-dependent manner. In Scatchard plots, one saturable component could be detected with an apparentK _D of 3.5×10^–6 m and a number of sitesn of 104 pmol/mg protein. At 0.8 m, N-methylfurosemide binding decreased 51% when sodium-free or low-potassium media were used. The same decrease was observed when the chloride concentration was increased from 200 to 600mm or when 1mm bumetanide or furosemide were added to the incubation medium. These studies indicate that the sodium-chloride cotransport system described previously in the rectal gland is in fact a sodium-potassium chloride cotransport system. It is postulated that this transport system plays an essential role in the secondary active chloride secretion of the rectal gland.     

Microelectrode characterization of the basolateral membrane of rabbit S3 proximal tubule

Summary The purpose of this study was to characterize the basolateral membrane of the S3 segment of the rabbit proximal tubule using conventional and ion-selective microelectrodes. When compared with results from S1 and S2 segments, S3 cells under control conditions have a more negative basolateral membrane potential (V _bl=–69 mV), a higher relative potassium conductance (t _K=0.6), lower intracellular Na⁺ activity (A _Na=18.4mm), and higher intracellular K⁺ activity (A _K=67.8mm). No evidence for a conductive sodium-dependent or sodium-independent HCO ₃ ^– pathway could be demonstrated. The basolateral Na–K pump is inhibited by 10^–4 m ouabain and bath perfusion with a potassium-free (0-K) solution. 0-K perfusion results inA _Na=64.8mm,A _K=18.5mm, andV _bl=–28 mV. Basolateral potassium channels are blocked by barium and by acidification of the bathing medium. The relative K⁺ conductance, as evaluated by increasing bath K⁺ to 17mm, is dependent upon the restingV _bl in both S2 and S3 cells. In summary, the basolateral membrane of S3 cells contains a pump-leak system with similar properties to S1 and S2 proximal tubule cells. The absence of conductive bicarbonate pathways results in a hyperpolarized cell and larger Na⁺ and K⁺ gradients across the cell borders, which will influence the transport properties and intracellular ion activities in this tubule segment.     

Anion-dependent transport of thallous ions through human erythrocyte membrane

Summary Unidirectional fluxes of ²⁰⁴Tl⁺ through the human red blood cell membrane were measured. The inward rate coefficient measured in a K⁺-free saline was 15.6±0.6 hr^–1. The influx of Tl⁺ could be partially inhibited with 0.1mm ouabain (by 28%), 0.1mm DIDS (by 50%) or 1mm furosemide (by 51%). The inhibitory effects of ouabain and DIDS or furosemide were additive. Half-maximal responses were seen at 0.72 m and 0.22mm concentrations of DIDS and furosemide, respectively. A similar action of these blockers on Tl⁺ influx was observed in the erythrocytes incubated in MgCl₂-sucrose media. The outward rate coefficient of ²⁰⁴Tl was also inhibited by DIDS and furosemide (by 65 and 52%, respectively). Rate coefficients of ²⁰⁴Tl influx and efflux decreased significantly in the red cells exposed to Cl^–-free media (NaNO₃ or Mg(NO₃)₂-sucrose). Under these conditions addition of DIDS and furosemide led to only a small inhibition of Tl⁺ fluxes. There was a linear increase in Tl⁺ influx with rising of external Cl^– concentration within 80–155mm or HCO ₃ ^– concentration from 20 to 40mm when the sum of anions was kept constant (155mm) with NO ₃ ^– . The HCO ₃ ^– -stimulated Tl⁺ influx was completely blocked by 0.05mm DIDS but only 67% by 1mm furosemide. The present study provides direct evidence for the occurrence of Cl^– (HCO ₃ ^– )-dependent, DIDS-sensitive movement of Tl⁺ across the human erythrocyte membrane in both directions. Under physiological conditions, about half of net Tl⁺ fluxes occurs due to an anion exchange mechanism. Our data fail to detect a contribution of the Na-K-Cl cotransport system to Tl⁺ transport in human erythrocytes.     

Comparative study of K channel behavior inβ cell lines with different secretory responses to glucose

Summary The patch-clamp technique was used to identify and investigate two K channels in the cell membrane of the HIT cell, an insulin secreting cell line with glucose-sensitive secretion. Channel characteristics were compared with those of glucose-modulated K channels in the RINm5F cell, an insulin secreting cell line in which secretion is largely glucose insensitive. A 65.7 pS channel, identified with the ATP-sensitive K channel was seen in HIT cell-attached patches. Channel activity was dose-dependently inhibited by glucose, by 50 and 100% at 450 m and 8mm glucose, respectively, similar to the values previously reported for RIN cells. In inside-out patches channel activity was 50% inhibited by 56 m ATP and completely blocked between 500 m and 1mm, again, similar to the values reported for RIN cells.As in RIN cells a second, considerably larger (184 pS), K channel was glucose sensitive; the glucose sensitivity was similar to that in RIN cells with 50 and 100% channel inhibition at 7.5 and 25mm, respectively. After patch excision the mean channel conductance increased from 184 to 215 pS. Under these conditions activity was strongly calcium dependent in the rangepCa 5–7, identifying this as a calcium- and voltage-dependent K (K(Ca,V)) channel; the calcium sensitivity was similar to that of the adult rat cell K(Ca,V) channel. In inside-out RIN cell patches, the large K channel was less abundant but displayed a similar conductance (223 pS). However, its calcium sensitivity was more than 10 times lower than in HIT cells, similar to that of the K(Ca,V) channel in the neonatal rat cell, which also displays a reduced secretory response to glucose. Based on these observations, it is proposed that the low calcium sensitivity of the K(Ca,V) channel may be causally associated with secretory deficiency in RIN cells and the immature secretory response of the neonatal cell.     

A quantitative study of peroxidase activity in unfixed tissue sections of the guinea-pig thyroid gland

Summary A technique for the cytochemical demonstration of peroxidase activity in unfixed guinea-pig thyroid tissue is described in this paper. The substrate 3,3-diaminobenzidine tetrahydrochloride (DAB) is oxidized by the peroxidase to form an insoluble reaction product. Optimal results were obtained after 20 min incubation at 37° C in reaction medium containing 1.4mm DAB (in 0.1m Tris-HCl) and 0.15mm hydrogen peroxide at pH 8.0. Peroxidase activity was seen in the thyroid follicle cells as a diffuse brown reaction product (which was more dense and granular in erythrocytes). The enzyme activity was quantified using a scanning-integrating microdensitometer, and the effects of two specific peroxidase inhibitors were evaluated. Both 3-amino-1,2,4-triazole and methimazole inhibited peroxidase activity in the follicle cells (enzyme activity was still seen in the erythrocytes), maximal inhibition occurring at 10mm. Stimulation of peroxidase in the thyroid was observedin vivo (1 I.U. TSH administered every 8 h for two days), with the maximal stimulation occurring after 1 day.     

Sulfate influx across the rabbit ileal brush border membrane: Sodium and proton dependence,and substrate specificities

Summary In intact ileal mucosa, uptake of SO₄ across the brush border membrane requires the presence of Na and is saturable, withK1/2=1.3mm at 140mm Na (P.L. Smith, S.A. Orellana & M. Field, 1981.J. Membrane Biol. 63:199–206). The present study examines the substrate specificities and transport stoichiometry of the Na-dependent SO₄ uptake process. The effects of variations in medium anion and cation composition on lumen-to-epithelium influx of SO₄ (J _me ^SO4 ) were determined under short-circuit conditions.J _me ^SO4 is inhibited by thiosulfate, but not by phosphate, methylsulfate, vanadate or taurocholate. Cl is weakly inhibitory. Uptake of SO₄ is poorly supported by Li, and is unaffected by K, indicating a specific dependence on Na. At low SO₄ concentration (0.22mm),J _me ^SO4 is a hyperbolic function of medium Na concentration; the corresponding Hill plot is linear with a slope of 1.0, suggesting a transport stoichiometry of 1 Na: 1 SO₄. At high SO₄ concentration (6.7mm), the Na-dependent SO₄ velocity curve is sigmoidal and yields a Hill plot which is again linear but has a slope of 1.56, suggesting transport of more than 1 Na per SO₄. SO₄ uptake in presence of Na exhibits a dependence on medium pH. At 0.22mm SO₄ and 140mm Na,J _me ^SO4 was doubled by lowering pH from 7.4 to 6.8. However, at 6.7mm SO₄ and 140mm Na, changing pH had no effect onJ _me ^SO4 over the range 6.8 to 8.5. The pH dependence ofJ _me ^SO4 at 6.7mm SO₄ was restored when medium Na was lowered to 3mm, suggesting that pH sensitivity is a function of the concentration of preformed NaSO ₄ ^– ion pair. The results suggest that SO₄ influx across the ileal brush border occurs by electroneutral Na⁺/NaSO ₄ ^– or Na⁺/H⁺/SO ₄ ^2– cotransport, the former being favored by high concentrations of Na and SO₄.     

Caffeine inhibition of calcium accumulation by the sarcoplasmic reticulum in mammalian skinned fibers

Summary Oxalate-supported Ca accumulation by the sarcoplasmic reticulum (SR) of chemically skinned mammalian skeletal muscle fibers is activated by MgATP and Ca²⁺ and partially inhibited by caffeine. Inhibition by caffeine is greatest when Ca²⁺ exceeds 0.3 to 0.4 m, when free ATP exceeds 0.8 to 1mm, and when the inhibitor is present from the beginning of the loading period rather than when it is added after Ca oxalate has already begun to precipitate within the SR. Under the most favorable combination of these conditions, this effect of caffeine is maximal at 2.5 to 5mm and is half-maximal at approximately 0.5mm. For a given concentration of caffeine, inhibition decreases to one-half of its maximum value when free ATP is reduced to 0.2 to 0.3mm. Varying free Mg²⁺ (0.1 to 2mm) or MgATP (0.03 to 10mm) has no effect on inhibition. Average residual uptake rates in the presence of 5mm caffeine atpCa 6.4 range from 32 to 70% of the control rates in fibers from different animals. The extent of inhibition in whole-muscle homogenates is similar to that observed in skinned fibers, but further purification of SR membranes by differential centrifugation reduces their ability to respond to caffeine. In skinned fibers, caffeine does not alter the Ca²⁺ concentration dependence of Ca uptake (K _0.5, 0.5 to 0.8 m; Hilln, 1.5 to 2.1). Reductions in rate due to caffeine are accompanied by proportional reductions in maximum capacity of the fibers, and this configuration can be mimicked by treating fibers with the ionophore A23187. Caffeine induces a sustained release of Ca from fibers loaded with Ca oxalate. However, caffeine-induced Ca release is transient when fibers are loaded without oxalate. The effects of caffeine on rate and capacity of Ca uptake as well as the sustained and transient effects on uptake and release observed under different conditions can be accounted for by a single mode of action of caffeine: it increases Ca permeability in a limited population of SR membranes, and these membranes coexist with a population of caffeine-insensitive membranes within the same fiber.     

Lysine catabolism inStreptomyces ambofaciens producer of macrolide antibiotic,spiramycin

Spiramycin production was highly stimulated when lysine was used as the sole nitrogen source. This amino acid was catabolized by the -transaminase pathway characterized by dosage of cadaverine aminotransferase (CAT) enzyme. The Km_cadaverine was of 57mM. CAT was highly induced by lysine (634% in comparison with ammonium). Addition of 40mm of ammonium in a culture begun with 20mm of lysine as the sole initial nitrogen source repressed CAT biosynthesis by 24% but did not affect spiramycin production seriously. Addition of 20mm of lysine in a culture started with 40mm ammonium induced CAT biosynthesis of 425%, but did not allow spiramycin production. In these two cases, spiramycin production seems to be conditioned by the nitrogen source initially present in the culture medium. CAT activity was inhibited by ammonium ions (33% at 20mm), whereas lysine had no effects.     

Action of phenazine methyl sulfate,inhibitors, and uncouplers on the light-induced proton transport by cells ofRhodospirillum rubrum

Summary Suspensions of log phase cells ofRhodospirillum rubrum at pH 5.5 show a light-induced decrease in the pH of the medium which is reversed during the subsequent dark period. The velocity and magnitude of the pH change were the same whether the cells were bubbled with air, CO₂-free air or N₂ during experimentation. The pH response is temperature dependent. Phenazine methyl sulfate (PMS) at concentrations above 0.05mm stimulates the light-induced pH change. PMS at 1mm gives a 2-fold increase in the initial rate upon illumination and a 1.5-fold increase in the total change in pH after 2 min of illumination. The inhibition of the proton transport by 10 g/ml antimycin A or 20 m 2-n-heptyl-4-hydroxyquinoline-N-oxide can be partially relieved by PMS. However, inhibition of the light-induced proton transport with 0.5mm 2,4-dinitrophenol or 3 m carbonylcyanide-m-chlorophenylhydrazone (CCCP) cannot be overcome by addition of PMS. Valinomycin, at a concentration of 3 m, caused a slight stimulation of the light-induced proton transport in the presence of 200mm KCl. The inhibition of proton transport by 3 m CCCP was partially relieved with 3 m valinomycin in the presence of 200mm KCl, but the antibiotic was without effect when the cells were suspended in 200mm NaCl. The results are discussed in terms of current theories of the action of PMS, antimycin A, valinomycin, and uncouplers on the light-induced electron flow and photophosphorylation inR. rubrum.     

Chloride conductive and cotransport mechanisms in cultures of canine tracheal epithelial cells measured by an entrapped fluorescent indicator

Summary To study Cl conductive and cotransport mechanisms, primary cultures of canine tracheal cells were grown to confluency on thin glass cover slips and on porous filters. Transepithelial resistance was >100 ·cm², and short circuit current (I _sc=2–20 A/cm²), representing active secretion of Cl, increased >threefold with addition of 10 m isoproterenol to the serosal solution. Cells made transiently permeable in hypotonic solution were loaded with the Cl-sensitive fluorophore 6-methoxy-N-(3-sulfopropyl) quinolinium (SPQ) (5mm, 4 min, 150 mOsm). The electrical properties of the cell monolayers were not altered by the loading procedure. Intracellular SPQ fluorescence was monitored continuously by epifluorescence microscopy (excitation 360±5 nm, emission>410 nm). SPQ leakage from the cells was <10% in 60 min at 37°C. Intracellular calibration of SPQ fluorescencevs. [Cl] (0–90mm) was carried out using high-K buffers containing the ionophores nigericin (5 m) and tributyltin (10 m); SPQ fluorescence was quenched with a Stern-Volmer constant of 13m ^–1. Intracellular Cl activity was 43±4mm. Cl flux was measured in response to addition and removal of 114mm Cl from the bathing solution. Addition of 10 m isoproterenol increased Cl efflux from 0.10 to 0.27mm/sec. The increase was inhibited by the Cl-channel blocker diphenylamine-2-carboxylic acid (1mm). In the absence of isoproterenol, removal of external Na or addition of 0.5mm furosemide, reduced Cl influx by >fourfold. In ouabain-treated monolayers, removal of external K in the presence of 5mm barium diminished Cl influx by >twofold, suggesting that Cl entry is in part K dependent. These results establish an accurate optical method for the realtime measurement of intracellular Cl activity in tracheal cells that does not require an electrically tight cell monolayer. The data demonstrate the presence of an isoproterenol-regulated Cl channel and a furosemide-sensitive cation-coupled transport mechanism.     

An endonuclease fromCaenorhabditis elegans: Partial purification and characterization

A deoxyribonuclease was partially purified from the free-living nematodeCaenorhabditis elegans. The DNase functioned as an endonuclease and introduced both single-strand nicks and double-strand breaks into DNA. The enzyme hydrolyzed double-stranded DNA seven times more rapidly than single-stranded DNA. DNase activity was not affected by the addition of divalent cations below 1mm but was inhibited at higher ionic concentrations. In addition, the enzyme was not inhibited in the presence of 10mm EDTA. The enzyme was inhibited by salt concentrations greater than 20mm. Three independent mutations in thenuc-1 gene were shown to reduce nuclease activity to less than 1% of that seen in wild-type organisms. This work was supported by National Institutes of Health Grant AG03161 and a TCU Research Foundation Grant. Some stocks used in these experiments were obtained from theCaenorhabditis Genetics Center, which is supported by Contract NOI-AG-9-2113 between the NIH and the curators of the University of Missouri.     

Apical membrane K conductance in the toad urinary bladder

Summary The conductance of the apical membrane of the toad urinary bladder was studied under voltage-clamp conditions at hyperpolarizing potentials (mucosa negative to serosa). The serosal medium contained high KCl concentrations to reduce the voltage and electrical resistance across the basal-lateral membrane, and the mucosal solution was Na free, or contained amiloride, to eliminate the conductance of the apical Na channels. As the mucosal potential (V _m) was made more negative the slope conductance of the epithelium increased, reaching a maximum at conductance of the epithelium increased, reaching a maximum atV _m=–100 mV. This rectifying conductance activated with a time constant of 2 msec whenV _m was changed abruptly from 0 to –100 mV, and remained elevated for at least 10 min, although some decrease of current was observed. ReturningV _m to+100 mV deactivated the conductance within 1 msec. Ion substitution experiments showed that the rectified current was carried mostly by cations moving from cell to mucosa. Measurement of K flux showed that the current could be accounted for by net movement of K across the apical membrane, implying a voltage-dependent conductance to K (G _K). Mucosal addition of the K channel blockers TEA and Cs had no effect onG _K, while 29mm Ba diminished it slightly. Mucosal Mg (29mm) also reducedG _K, while Ca (29mm) stimulated it.G _K was blocked by lowering the mucosal pH with an apparent pK₁ of 4.5. Quinidine (0.5mm in the serosal bath) reducedG _K by 80%.G _K was stimulated by ADH (20 mU/ml), 8-Br-cAMP (1mm), carbachol (100 m), aldosterone (5×10^–7 m for 18 hr), intracellular Li and extracellular CO₂.     

Na,K-ATPase and the development of Na+ transport in rat distal colon

Summary Na, K-ATPase function was studied in order to evaluate the mechanism of increased colonic Na⁺ transport during early postnatal development. The maximum Na⁺-pumping activity that was represented by the equivalent short-circuit current after addition of nystatin (I _sc ^N ) did not change during postnatal life or after adrenalectomy performed in 16-day-old rats.I _sc ^N was entirely inhibited by ouabain; the inhibitory constant was 0.1mm in 10-day-old (young) and 0.4mm in 90-day-old (adult) rats. The affinity of the Na, K pump for Na⁺ was higher in young (11mm) than in adult animals (19mm). The Na, K-ATPase activity (measured after unmasking of latent activity by treatment with sodium dodecylsulfate) increased during development and was also not influenced by adrenalectomy of 16-day-old rats. The inhibitory constant for ouabain (K _I ) was not changed during development (0.1–0.3mm). Specific [³H]ouabain binding to isolated colonocytes increased during development (19 and 82 pmol/mg protein), the dissociation constant (K _D ) was 8 and 21 m in young and adult rats, respectively. The Na⁺ turnover rate per single Na, K pump, which was calculated fromI _sc ^N and estimated density of binding sites per cm² of tissue was 500 in adult and 6400 Na⁺/min·site in young rats. These data indicate that the very high Na⁺ transport during early postnatal life reflects an elevated turnover rate and increased affinity for Na⁺ of a single isoform of the Na, K pump. The development of Na⁺ extrusion across the basolateral membrane is not directly regulated by corticosteroids.     

Potassium-induced insulin release and voltage noise measurements in single mouse islets of Langerhans

Summary Insulin release and membrane potential fluctuations in response to increased extracellular potassium [K⁺] _o have been measured in single perifused islets of Langerhans from normal mice. An increase in [K⁺] _o from 5mm to 50mm induced a transient insulin release with a peak at about 1 min. The peak value was [K⁺] _o -dependent but the half-timet _1/2 for the decline was constant at nearly 1 min. 2.5mm cobalt completely inhibited the potassium-induced stimulation of insulin release. The insulin release elicited by 28 and 50mm [K⁺] _o was similar in terms of peak, total release and half-time from maximum release. Stepwise increase in [K⁺] _o from 10 to 28 to 50mm resulted in a normal response to 28mm but no peak of release after the 28 to 50mm increase. The results indicate good correlation between excess voltage noise, thought to reflect calcium channel activity, and insulin release evoked by changing extracellular potassium.