Effect of d-sparteine on nicotinic acetylcholine receptors in rat superior cervical ganglion neurons

Effects of d-sparteine (d-SP), a ganglionic blocking agent, on membrane currents evoked by iontophoretic applications of acetylcholine to rat superior cervical ganglion neurons, were studied using a whole-cell patch-clamp recording technique. Blocking effects of d-SP were enhanced by membrane hyperpolarization to potentials more negative than –50 mV. Analysis of the d-SP effect on the dose—response relationship suggests that d-SP at concentrations of 0.5–5.0 µM exerts both voltage-independent and voltage-dependent competitive actions on nicotinic acetylcholine receptors. No use-dependence of the d-SP-induced blockade was found using paired ACh applications at interpulse intervals longer than 0.5 sec. Inhibitory constantK _i estimated by the Dixon method was equal to 0.62±0.15 and 0.28±0.08 µM at membrane potential levels –30 and –90 mV, respectively. These characteristics of the d-SP blocking effects are compatible with a voltage-dependent competitive blocking mechanism. The possibility remains that an open channel-blocking mechanism with a comparatively fast kinetics contributes to the d-SP-induced blockade, but its contribution is small.Neirofiziologiya/Neurophysiology, Vol. 25, No. 4, pp. 266–272, July–August, 1993.     

Voltage-activated current properties of male and female mouse vomeronasal sensory neurons: sexually dichotomous?

The vomeronasal organ, the chemosensory organ of the vomeronasal system, is vital in determining sexual and gender-specific behavior in mice. Here, whole-cell voltage-activated currents of individual mouse vomeronasal sensory neurons of two strains (BALB/c and CBA) were measured and correlated to sex in each strain. The average resting membrane potentials, maximal outward current magnitudes, and kinetics of activation and inactivation, were found to be independent of sex. Maximal inward current magnitudes differed significantly across gender in CBA, whereas they did not significantly differ in male and female BALB/c mice: BALB/c males –347±45 pA (n=51), and females –430±56 pA (n=27); CBA males –308±36 pA (n=56) and females –155±18 pA (n=28). These results suggest that some voltage-activated properties may differ slightly according to gender and to strain.D.M. Dean and A. Mazzatenta contributed equally to this work     

Sensitivity of hippocampal interneurons and pyramidal cells to GABA and some of its agonists:in vitro experiments

Effects of GABA and its agonists baclofen and muscimol on the background spike activity of single hippocampal neurons were studied in rat brain slices using an intracellular recording technique. Interneurons localized in thestratum alveus-oriens and pyramidal neurons of thestratum pyramidale showed high sensitivity to GABA (mean ID₅₀=65 µM and 40 µM, ranges 10–140 µM and 3–200 µM), baclofen (ID₅₀=2.6 µM and 3.5 µM, ranges 0.6–20.0 µM and 0.4–30.0 µM), and muscimol (ID₅₀=0.85 µM and 0.21 µM, ranges 0.11–4.0 µM and 0.05–0.45 µM, respectively). Responses of hippocampal neurons to application of GABA or either of its agonists were predominantly inhibitory. A part of interneurons (30%) differed from pyramidal neurons in their irresponsivity or low sensitivity to baclofen applications. GABA- or muscimol-induced inhibition of spike activity in many pyramidal cells was preceded by a short-lasting excitation. Our findings indicate that a part of hippocampal interneurons are very poorly supplied with GABAb receptors. Inhibition of pyramidal cells evoked by activation of GABAa receptors probably develops against the background of accompanying depolarization, which in some cases can result in a provisional excitation of these neurons. The excitatory effects of GABA on the pyramidal cells are mediated by GABAa receptors.Neirofiziologiya/Neurophysiology, Vol. 27, No. 1, pp. 36–44, January–February, 1995.     

Effect of external K+, Ca2+, and Ba2+ on membrane potential and ionic conductance in rat astrocytes

Summary 1. The purpose of this study was (a) to identify if astrocytes show a similar non-Nernstian depolarization in low K⁺ or low Ca²⁺ solutions as previously found in human glial and glioma cells, and (b) to analyze the influence of the K⁺ conductance on the membrane potential of astrocytes.2. The membrane potential (E_m) and the ionic conductance were studied with whole-cell patch-clamp technique in neonatal rat astrocytes (5–9 days in culture) and in human glioma cells (U-251MG).3. In 3.0 mM K⁺, E_m was –75 ± 1.0 mV (mean ± SEM,n=39) in rat astrocytes and –79 ± 0.7 mV (n=5) in U-251MG cells. In both cell types E_m changed linearly to the logarithm of [K⁺]₀ between 3.0 and 160 mM K⁺. K⁺ free medium caused astrocytes to hyperpolarize to –93 ± 2.7 mV (n=21) and U-251MG cells to depolarize to –27 ± 2.1 mV (n=3).4. The I-E curve did not show inward rectification in astrocytes at this developmental stage. The slope conductance (g) exhibited only a small decrease (–19%) in K⁺ free solution and no significant change in 160 mM K⁺.5. Ba²⁺ (1.0 mM) depolarized astrocytes to –45 ± 2.9 mV (n=11), decreasing the slope conductance (g) by 42.4 ± 8.3% (n=11). Ca²⁺ free solution depolarized astrocytes to –53 ± 3.4 mV (n=12) and resulted in a positive shift of the I-E curve, increasing g by 15.3 ± 8.2% (n=8).6. Calculations indicated that a block of K⁺ channels explains the depolarizing effect of Ba²⁺. The effects of K⁺ free or Ca²⁺ free solutions on E_m can be explained by a transformation of K⁺ channels to non-specific leakage channels. That astrocytes show a different reaction to low K⁺ than glioma cells can be related to the lack of inwardly rectifying K⁺ channels in astrocytes at this developmental stage.     

Mechanism of exocrine pancreatic insufficiency in streptozotocin-induced diabetes mellitus in rat: Effect of cholecystokinin-octapeptide

This study investigated the effects of cholecystokinin-octapeptide (CCK-8) on pancreatic juice flow and its contents, and on cytosolic calcium (Ca²⁺) and magnesium (Mg²⁺) levels in streptozotocin (STZ)-induced diabetic rats compared to healthy age-matched controls. Animals were rendered diabetic by a single injection of STZ (60 mg kg^–1, I.P.). Age-matched control rats obtained an equivalent volume of citrate buffer. Seven weeks later, animals were either anaesthetised (1 g kg^–1 urethane; IP) for the measurement of pancreatic juice flow or humanely killed and the pancreas isolated for the measurements of cytosolic Ca²⁺ and Mg²⁺ levels. Non-fasting blood glucose levels in control and diabetic rats were 92.40 ± 2.42 mg dl^–1 (n= 44) and >500 mg dl^–1 (n= 27), respectively. Resting (basal) pancreatic juice flow in control and diabetic anaesthetised rats was 0.56 ± 0.05 ul min^–1 (n= 10) and 1.28 ± 0.16 ul min^–1 (n= 8). CCK-8 infusion resulted in a significant (p < 0.05) increase in pancreatic juice flow in control animals compared to a much larger increase in diabetic rats. In contrast, CCK-8 evoked significant (p < 0.05) increases in protein output and amylase secretion in control rats compared to much reduced responses in diabetic animals. Basal [Ca²⁺]_i in control and diabetic fura-2-loaded acinar cells was 109.40 ± 15.41 nM (n= 15) and 130.62 ± 17.66 nM (n= 8), respectively. CCK-8 (10^–8M) induced a peak response of 436.55 ± 36.54 nM (n= 15) and 409.31 ± 34.64 nM (n= 8) in control and diabetic cells, respectively. Basal [Mg²⁺]_i in control and diabetic magfura-2-loaded acinar cells was 0.96 ± 0.06 nM (n= 18) and 0.86 ± 0.04 nM (n= 10). In the presence of CCK-8 (10^–8) [Mg²⁺]_i in control and diabetic cells was 0.80 ± 0.05 nM (n= 18) and 0.60 ± 0.02 nM (n= 10), respectively. The results indicate that diabetes-induced pancreatic insufficiency may be associated with derangements in cellular Ca²⁺ and Mg²⁺ homeostasis. (Mol Cell Biochem 261: 83–89, 2004)     

Increased insulin receptor binding in erythrocytes from growth hormone-deficient children

Erythrocytes from growth hormone-deficient children (GHd-children) (n=10) showed a statistically significant increase in insulin binding at low unlabeled insulin concentrations, together with a threefold decrease in apparent receptor affinity, as compared to control children (C) (n=11). Scatchard analysis of the binding data using the two-site model revealed that both the receptor concentration R₁ [GHd-children 0.10±0.01 ng/ml and C 0.03±0.002 ng/ml] and the dissociation constant K_D1 [GHd-children (0.48±0.05)×10^–9M and C (0.19±0.01)×10^–9M] for high affinitylow capacity sites were significantly increased in erythrocytes from GHd-children, while neither receptor concentrations (R₂) nor the dissociation constant (K_D2) for low affinity-high capacity sites proved to be altered. These events were accompanied by a normal sensitivity to insulin as well as glucose tolerance in the GHd-group. The meaning of the increased insulin binding with normal insulin sensitivity in GH-deficiency is discussed.     

Synergy of fluconazole with macrophages for antifungal activity againstCandida albicans

The possible synergy between macrophages and fluconazole for antifungal activity against different isolates ofC. albicans was studied. The susceptibility ofC. albicans isolates to fluconazole (FCZ), when incubated in RPMI-1640 with 10% fetal bovine serum (FBS) and 10% fresh mouse serum (test medium, TM) was determined by using a quantative culture methodology. Multiplication of isolate Sh27 was strongly inhibited by FCZ, even at 1.0 µg/ml. However, FCZ even at 100 µg/ml was not fungicidal. Resident murine peritoneal macrophages (MP) incubated for 48 h in RPMI-1640+10% FBS (tissue culture medium, TCM), then challenged with Sh27 in TM for 24 h, were fungistatic (20±9%,n=4). Cultured macrophages synergized with FCZ (10 µg/ml) for fungicidal activity when co-cultured with Sh27 in TM for 24 h (46±8%) and for 48 h (74±5%),n=3. Macrophages and FCZ (10 µg/ml) could not synergize for significant killing of a less FCZ-sensitiveC. albicans isolate 94-164. Multiplication of a FCZ-resistant isolate (94–20) was not inhibited by FCZ at 10 µg/ml TM; however, macrophages and FCZ (10 µg/ml) could synergize for fungistatic (64%), but not fungicidal, activity.     

Channel blocking drugs as tools to study glutamate receptors in insect muscles and molluscan neurons

The action of three dicationic drugs, derivatives of adamantane (IEM-1460 and IEM-1754) and phencyclidine (IEM-1925), on glutamate receptors (GluRs) at the insect neuromuscular junction (Calliphora vicina larva) and on neurons of the freshwater gastropodian molluscPlanorbarius corneus has been studied using the voltage clamp technique. In the presence of concanavalin A complex glutamate-induced currents recorded from molluscan neurons reflected mainly the opening of cationic channels as a result of decreased desensitisation and inhibition of a chloride component. Under these conditions all drugs studied inhibited the stationary component of glutamate-gated cationic currents in a dose-dependent manner (IC₅₀s were 0.1 μM, 1.0 μM and 19.2 μM for the action of IEM-1925, IEM-1460 and IEM-1754 respectively). The same rank order of potency: IEM-1925 > IEM-1460 > IEM-1754 was observed in both the insect and mollusc. The results of these experiments are compared with those obtained earlier on vertebrate GluRs. Open-channel blocking drugs may help to identify and classify GluRs of invertebrates, and could be used as tools to elucidate the involvement of GluRs in the transmission at certain synapses.     

Tracheal submucosal gland serous cells stimulated in vitro with adrenergic and cholinergic agonists A morphometric study

Summary A morphometric analysis was made of alterations in serous cell structure induced by adrenergic and cholinergic agonists. Ferret tracheal rings were exposed for 30 min in vitro to one of the following agonists: phenylephrine, terbutaline, or methacholine (all at 10^–5 M). Controls were incubated similarly in medium containing no drugs or medium containing both the agonist and an excess of the appropriate antagonist (phentolamine, propranolol or atropine, all at 10^–4 M).Electron microscopic observation and stereological analysis of the incubated samples revealed that the volume density of serous cell granules in controls (0.30 ± 0.02, mean ± SE, n = 4) was significantly reduced by phenylephrine (0.19 ± 0.03, n = 4) and methacholine (0.17 ± 0.01, n = 4), but not by terbutaline (0.27 ± 0.04, n = 4). The presence of antagonists in the medium prevented the observed changes (phenylephrine/phentolamine: 0.29 ± 0.03, n = 3 and methacholine/atropine: 0.33 ± 0.06, n = 3). In addition, the volume density of intracellular vacuoles in controls (0.02 ± 0.005, n = 4) was increased in response to methacholine stimulation (0.12 + 0.05, n = 4), but not in response to the other agonists. This effect was blocked by atropine (0.01 ± 0.00, n = 3).We conclude that serous-cell granules are discharged by both alpha-adrenergic and cholinergic, but not beta-adrenergic stimulation. In addition, cholinergic stimulation evokes the formation of intracellular vacuoles, a possible indication of active ion and water transport.     

Membrane properties of identified embryonic nerve and glial cells of the leech central nervous system

Summary The membrane potential of identified nerve (Retzius) cells and neuropil glial cells from 11 (±1) day-old embryos of the leechHirudo medicinalis was recorded using conventional intracellular microelectrodes. At this stage all ganglia of the segmental nervous system are formed. The membrane potential of Retzius cells was –68±4 mV (±SD,n=8), and showed a slope of 42 mV between 10 mM and 100 mM external K concentration. Retzius cells were able to fire action potentials which had a fast Na-dependent component, and, under appropriate conditions, also generated slow Ca (Ba) action potentials. The mean membrane potential of the neuropil glial cell at physiological K concentration (4 mM) was –83±5 mV (±SD,n=10), and showed a dependence of 56 mV for a tenfold change in the external K concentration (> 4mM). Neuropil glial cells showed no signs of voltage-activated excitability, but they repeatedly depolarized in the presence of 0.1 mM 5-HT.     

Estimating brocket deer (<Emphasis Type="Italic">Mazama gouazoubira</Emphasis> and <Emphasis Type="Italic">M. americana</Emphasis>) abundance by dung pellet counts and other indices in seasonal Chiquitano forest habitats of Santa Cruz,Bolivia

We assessed dung and track counts for indexing brocket deer abundance in seasonal habitats on a ranch where hunting is not practiced in the Bolivian lowlands. Surveys were replicated along four 10-km trails (totaling 180 km in the wet season and 90 km in the dry season) through four semideciduous forest habitats. Dung pellets and tracks were identified as belonging to Mazama gouazoubira or M. americana by size and shape. Pellet groups lasted more than 1 month during the dry season, but decayed within 1–2 weeks in the wet season. Mean density estimates based on dung counts varied widely between seasons for gray brockets (from 6.77±4.0 to 30.57±23.5 ind/km²; mean±SD) but not for reds (from 3.52±4.6 to 6.98±7.2 ind/km²). These values were probably too high due to underestimation of daily deposition rate, and were reduced during the wet season because of dung decay. We found consistently more dung in the dry season and more tracks in the wet season. Sightings of red brockets were too few for line-transect analysis (n=6), but those of gray brockets (n=42) produced an overall estimate of 5.6 ind/km² (95% CI=3.5–9.0 ind/km²). Different estimates indicated that gray brockets were more abundant than reds in all situations, except perhaps in the riverine forest. Environmental factors affected these indices of abundance differently, and while we recommend the use of dung counts in dry-season scenarios, we think that index reliability should be assessed locally before conducting population comparisons.     

Expression and characterization of the type III polyketide synthase 1,3,6,8-tetrahydroxynaphthalene synthase from<Emphasis Type="Italic"> Streptomyces coelicolor</Emphasis> A3(2)

Sequence analysis of the metabolically rich 8.7-Mbp genome of the model actinomycete Streptomyces coelicolor A3(2) revealed three genes encoding predicted type III polyketide synthases (PKSs). We report the inactivation, expression, and characterization of the type III PKS homologous SCO1206 gene product as 1,3,6,8-tetrahydroxynaphthalene synthase (THNS). Incubation of recombinant THNS with malonyl-CoA showed THN production, as demonstrated by UV and HPLC analyses. The K_m value for malonyl-CoA and the k_cat value for THN synthesis were determined spectrophotometrically to be 3.58±0.85 µM and 0.48±0.03 min^–1, respectively. The C-terminal region of S. coelicolor THNS, which is longer than most other bacterial and plant type III PKSs, was shortened by 25 amino acid residues and the resulting mutant was shown to be slightly more active (K_m=1.97±0.19 µM, k_cat=0.75±0.04 min^–1) than the wild-type enzyme.     

High content of polyunsaturated fatty acids in muscle phospholipids of a fast runner,the European brown hare (Lepus europaeus)

To investigate both seasonal changes and possible intracorporal gradients of phospholipid fatty acid composition, skeletal muscles (n=124), hearts (n=27), and livers (n=34) from free-living brown hares (Lepus europaeus) were analyzed. Phospholipids from both skeletal muscles and heart had a high degree of unsaturation with 66.8±0.63% and 65.7±0.5% polyunsaturated fatty acids, respectively. This is the highest proportion of polyunsaturated fatty acids reported in any mammalian tissue. Polyunsaturated fatty acid content in skeletal muscles was 2.3% greater in winter compared to summer (F_1,106=17.7; P=0.0001), which may reflect thermoregulatory adjustments. Arachidonate (C20:4n-6) showed the greatest seasonal increase (+2.5%; F=7.95; P=0.0057). However, there were no pronounced differences in polyunsaturated fatty acid content between skeletal muscles from different locations in the body (m. iliopsoas, m. longissimus dorsi and m. vastus). Total muscle phospholipid polyunsaturated fatty acid content was correlated with polyunsaturated fatty acid content in triacyglycerols from perirenal white adipose tissue depots (r²=0.61; P=0.004). Polyunsaturated fatty acids were enriched in muscle phospholipids (56.8–73.6%), compared to white adipose tissue lipids (20.9–61.2%), and liver phospholipids (25.1–54.2%). We suggest that the high degree of muscle membrane unsaturation is related to hare-specific traits, such as a high maximum running speed.Abbreviations BMR basal metabolic rate - DPA docosapentaenoic acid - DHA docosahexaenoic acid - FA fatty acid - MUFA monounsaturated fatty acid - PC principal component - PUFA polyunsaturated fatty acid - SFA saturated fatty acid - UI unsaturation index - WAT white adipose tissueCommunicated by: G. Heldmaier     

Expression of low voltage-activated calcium channels inXenopus oocytes

Calcium channels were expressed inXenopus oocytes by means of messenger RNA extracted from the rat thalamo-hypothalamic complex, mRNA(h). Inward barium currents,I _Ba, were recorded in Cl^–-free extracellular solution with 40 mM Ba²⁺ as a charge carrier, using two-microelectrode technique. Depolarizations from a very negative holding potential (V _h=–120 mV) began to activateI _Ba at about –80 mV; this current peaked at –30 to –20 mV and reversed at +50 mV, indicating that I _Ba may be transferred through the low voltage-activated (LVA) calcium channels. The time-dependent inactivation of the current during a prolonged depolarization to –20 mV was quite slow, followed a single exponential decay with a time constant of 1550 msec, and contained a residual component constituting 30% of the maximum amplitude. The current could not be completely inactivated at any holding potential. As expected for LVA current, a steady-state inactivation curve was shifted towards negative potentials. It could be described by the Boltzmann's equation with the half-inactivation potential of –78 mV, slope factor of 15 mV, and residual level of 0.3. ExpressedI _Ba could be blocked by flunarizine (K _d=0.42 µM), nifedipine (K _d=10 µM), and amiloride at a 500 µM concentration. Among the inorganic Ca²⁺ channel blockers, the most potent was La³⁺ (K _d=0.48 µM), while Cd²⁺ and Ni²⁺ were not very selective and almost thousand-fold less effective (K _d=0.52 mM andK _d=0.62 mM, respectively) than La³⁺. Our data show that mRNA(h) induces expression in the oocytes of almost exclusively LVA Ca²⁺ channels with voltage-dependent and pharmacological properties very similar to those observed for T-type Ca²⁺ current in native hypothalamic neurons, though kinetic properties of the expressed and natural currents are somewhat different.Neirofiziologiya/Neurophysiology, Vol. 27, No. 3, pp. 183–189, May–June, 1995.     

LHRH-receptor-regulated Ca2+-ATPase activity in murine pituitary gland

Addition of luteinizing hormone releasing hormone (LHRH) in vitro (10^–5–5×10^–9 M) to murine pituitary membranes resulted in a dose-related decrease in Ca²⁺-ATPase activity within 15 min. Inhibitory effects of LHRH (10^–7 M) occurred after 90 sec, and appeared maximal by 120 sec. Eadie-Hofstee analysis at 10^–7 M LHRH, at varying [Ca²⁺]_free, resulted in aK _m=0.89±0.06 M and aV _max=18.8±0.71 nmol/mg per 2 min, compared to aK _m=0.69±0.06 M and aV _max=32.8±1.21 nmol/mg per 2 min for controls. Pre-incubation for 5 min with LHRH antagonist (10^–8 M) significantly attenuated (50%) the inhibitory effects of 10^–7 M LHRH on pituitary Ca²⁺ ATPase activity with aK _m=0.97±0.24 M and aV _max=28.1±2.8 nmol/mg per 2 min. The addition of LHRH (10^–7 M) to pituitary homogenates significantly increased luteinizing hormone (LH) release already at 10 and up to 40 sec compared to basal LH release. Systemic administration of 50 ng LHRH (i.p.), significantly (P<0.05) reduced pituitary Ca²⁺-ATPase after 30, 60 and 90 min, with a return to control levels by 120 min. Pituitary LH content was reduced slightly at 15 min, but was increased significantly at 90 and 120 min post-treatment. Plasma LH levels were elevated by 5 min, reached a peak by 15 min and returned to control within 60 min. The present findings indicate that LHRH receptor activation may influence cytosolic Ca²⁺ transport through effects on membrane Ca²⁺-ATPase activity. These actions may regulate LHRH-induced synthesis, storage and release of LH from pituitary gonadotropes.     

Selective pharmacological blockade of synaptic transmission in parasympathetic pathways to the heart in rats

The blocking effects of newly synthesized compounds N-decyltropine bromide (IEM-1556) and its derivatives N-methyltropine iodide (IEM-1893) and N-hexyltropine iodide (IEM-1848), possessing aliphatic radicals of different length, on the vagus-induced reduction of the heart rate were studied in acute experiments on rats. The effects produced by these compounds on the level of arterial blood pressure and synaptic transmission in the superior cervical ganglion (SCG) of the rat were studied and compared with those produced by classical ganglion-blocking agents (hexamethonium and trimetaphan) and muscle relaxants (pancuronium and decamethonium). IEM-1556 much more effectively blocked the vagus-induced reduction of the heart rate than other tested blocking agents, and, in contrast to the classical ganglion-blocking agents and decamethonium, did not reduce the arterial blood pressure. In addition, IEM-1556 was less effective than hexamethonium in blocking synaptic transmission through the SCG. IEM-1893 and IEM-1848 demonstrated lower efficacy in blocking SCG transmission, if compared with that of IEM-1556. The results suggest that IEM-1556 is a highly selective blocking agent for parasympathetic versus sympathetic pathways, and its selectivity is determined by the presence of a decyl aliphatic radical in its molecule.Neirofiziologiya/Neurophysiology, Vol. 27, No. 5/6, pp. 323–330, September–December, 1995.     

Relative importance of the trophic and direct pathways on PCB contamination in the rotifer species Brachionus calyciflorus (Pallas)

To determine the contribution of food ingestion (trophic pathway) to PCB contamination of zooplankton in the river Meuse (Belgium), we used ¹⁴C-labelled algae (Dictyosphaerium ehrenbergianum) to measure ingestion and assimilation rates in the rotifer species Brachionus calyciflorus. When the concentration of algae in the culture medium varied from 20 10³ to 200 10³ algal cells ml^–1 (0.12 to 1.18 mg Cl^–1), the Brachionus calyciflorus ingestion rate varied from 0.25 ± 0.12 to 1.52 ± 0.43 ng C ind^–1 h^–1 at 15 °C and from 0.74 ± 0.17 to 5.93 ± 0.61 ng C ind^–1 h^–1 at 20 °C. The assimilation efficiency (ratio of the assimilation rate to the ingestion rate) measured in a culture medium containing 200 10³ algal cells ml^–1 was 55.7 ± 5.8%. Since the PCB concentration measured in the phytoplankton of the river Meuse is about 3 µg PCBs g^–1 D.W., the estimated PCB contamination of zooplankton ascribable to the trophic pathway ranges from 0.22 ± 0.17 to 1.31 ± 0.77 µg PCBs g^–1 D.W. at 15 °C and from 0.64 ± 0.34 to 5.10 ± 2.10 µg PCBs g^–1 D.W. at 20°C. The lower figure based on measurements effected at 20 °C is comparable to the actual level measured in zooplankton samples collected in the river Meuse (0.69 ± 0.20 µg PCBs g^–1 D.W.). The applicability of the formula used in our estimate was checked in a 48-hour in vitro experiment in which the rotifers were fed contaminated algae. The PCB accumulation measured in the rotifers was found to coincide with the calculated PCB contamination. Additional experiments were carried out to determine the contribution of the direct pathway to PCB contamination of zooplankton living in the river Meuse (0.02 µg PCBs l^–1 of water; average dissolved organic matter: 3 mg C 1^–1). The PCB concentration in zooplankton resulting from direct uptake of PCBs from the water was estimated at 0.19 ± 0.05 µg PCBs g^–1 D.W. These results show that in zooplankton living in polluted ecosystems, PCBs are likely to accumulate via the trophic pathway to concentrations up to 30 times higher than by direct contamination. Furthermore, our estimates of PCB contamination via the trophic pathway coincide quite well with actual concentrations measured in situ.     

Rate of activation and deactivation of K∶Cl cotransport by changes in cell volume in hemoglobin SS,CC and AA red cells

Red blood cells (RBC) of subjects homozygous for hemoglobin A (AA), C (CC) and S (SS) exhibit different cell volumes which might be related to differences in cell volume regulation. We have investigated how rapidly K:Cl cotransport is activated and deactivated to regulate the cell volume in these cells. We measured the time course of net K⁺ efflux after step changes in cell volume and determined two delay times: one for activation by cell swelling and a second for deactivation by cell shrinkage. Cell swelling induced by 220 mOsm media activated K⁺ efflux to high values (10–20 mmol/ liter cell x hr) in CC and SS; normal AA had a threefold lower activity. The delay time for activation was very short in blood with a high percentage of reticulocytes (retics): (SS, 10% retics, 1.7±0.3 min delay, n=8; AA, 10% retics, 4±1.5 min, n=3; CC, 11.6% retics, 4±0.3, n=3) and long in cells with a smaller percentage of reticulocytes: (AA, 1.5% retics, 10±1.4 min, n=8; CC whole blood 6% retics, 10±2.0 min, n=10, P<0.02 vs. SS). The delay times for deactivation by cell shrinking were very short in SS (3.6±0.4 min, n=8, P<0.02) and AA cells with high retics (2.7±1 min, n=3) and normal retics (2.8±1 min, n=3), but 8–15-fold longer in CC cells (29±2.8 min, n=9).Density fractionation of CC cells (n=3) resulted in coenrichment of the top fraction in reticulocytes and in swelling-activated cotransport (fourfold) with short delay time for activation (4±0.3 min) and long delay for deactivation (14±4 min). The delay time for activation, but not for deactivation, increased markedly with increasing cell density. These findings indicate that all CC cells do not promptly shut off cotransport with cell shrinkage and high rates of cellular K⁺ loss persist after return to isotonic conditions.In summary, (i) K:Cl cotransport is not only very active in young cells but it is also very rapidly activated and deactivated in young AA and SS cells by changes in cell volume. (ii) Delay times for cotransport activation markedly increased with RBC age and in mature cells with low cotransport rates, long delay times for activation were observed. (iii) The long delay time for deactivation exhibited even by young CC cells induces a persistent loss of K⁺ after cell shrinkage which may contribute in vivo to the uniformly low cell volume, low K⁺ and water content of CC cells.This research was supported by National Institutes of Health grants Shannon Award HL-35664, HL-42120, Sickle Cell Center grant HL-38655, and a Grant-in-Aid of the New York Branch of the American Heart Association. The technical help of Sandra M. Suzuka, M.S. is gratefully acknowledged.     

Voltage-dependent effect of tetraethylammonium on the nicotinic acetylcholine receptors of rat superior cervical ganglion neurons

The effect of tetraethylammonium (TEA) on the currents evoked in neurons of the rat superior cervical ganglion by iontophoretic application of acetylcholine (ACh) was studied using a whole-cell patch-clamp recording technique. Tetraethylammonium was used at a concentration of about 20 µM, providing no blocking effect on the ACh-induced membrane currents at a range of positive membrane potentials and reducing these currents recorded at a range of negative membrane potentials by about half. The blocking effect of TEA increased with hyperpolarization within the –50 to –90 mV membrane potential range, and did not depend on the membrane potential level within a range of 0 to –50 mV. The analysis of dose dependence showed that both the voltage-dependent and the voltage-independent blocking effects are due to TEA competitive action on the ganglionic nicotinic acetylcholine receptors (nAChR). The results suggest that the TEA-induced competitive blockade is voltage-dependent.Neirofiziologiya/Neurophysiology, Vol. 27, No. 1, pp. 63–66, January–February, 1995.     

Intracellular potassium activity in mammalian proximal tubule: Effect of perturbations in transepithelial sodium transport

Summary Intracellular potassium activity (a _{K i} ) was measured in control conditions in mid-cortical rabbit proximal convoluted tubule using two methods: (i) by determination of the K⁺ equilibrium potential (E _K) using Ba²⁺-induced variations in the basolateral membrane potential (V _BL) during transepithelial current injections and (ii) with double-barrel K-selective microelectrodes. Using the first method, the meanV _BL was –48.5±3.2 mV (n=16) and the meanE _K was –78.4±4.1 mV corresponding to aa _{K i} of 68.7mm. With K-selective microelectrodes,V _BL was –36.6±1.1 mV (n=19),E _K was –64.0±1.1 mV anda _{K i} averaged 40.6±1.7mm. While these lastE _K andV _BL values are significantly lower than the corresponding values obtained with the first method (P<0.001 andP<0.01, respectively), the electrochemical driving force for K transport across the basolateral membrane ( _K =V _BL –E _K) is not significantly different for both techniques (30.1±3.3 mV for the first technique and 27.6±1.8 mV for ion-selective electrodes). This suggests an adequate functioning of the selective barrel but an underestimation ofV _BL by the reference barrel of the double-barrel microelectrode. Such double-barrel microelectrodes were used to measure temporal changes ina _{K i} and _K in different experimental conditions where Na reabsorption rate (J _Na) was reduced.a _{K i} was shown to increase by 12.2±2.7 (n=5) and 14.1±4.4mm (n=5), respectively, whenJ _Na was reduced by omitting in the luminal perfusate: (i) 5.5mm glucose and 6mm alanine and (ii) glucose, alanine, other Na-cotransported solutes and 110mm Na. In terms of the electrochemical driving force for K exit across the basolateral membrane, _K, a decrease of 5.4±2.0 mV (P<0.05,n=5) was measured when glucose and alanine were omitted in the luminal perfusate while _K remained unchanged whenJ _Na was more severely reduced (mean change =–1.7±2.1 mV, NS,n=5). In the latter case, this means that the electrochemical driving force for K efflux across the basolateral membrane has not changed while both the active influx through the Na–K pump and the passive efflux in steady state are certainly reduced. If the main pathway for K transport is through the basolateral K conductance, this implies that this conductance must have decreased in the same proportion as that of the reduction in the Na–K pump activity.