Topical application of B-aminopropionitrile

Application of ¹⁴CB-aminopropionitrile (BAPN) to the skin of rats followed by measurement of urinary radioactivity was used for comparative studies of the absorption of ¹⁴C-BAPN fumarate and ¹⁴C-BAPN free base (F.B.). ¹⁴C-BAPN (F.B.) was absorbed more rapidly and to a greater extent than the fumarate salt. Six hours after topical administration of ¹⁴C-BAPN (F.B.) only traces of ¹⁴C were found on the skin and less than 1% of the dose within the skin section suggesting rapid drug absorption. Lysyl oxidase activity of sponge granuloma tissue was significantly inhibited by a single small dose (20 μl) of BAPN (F.B.) applied to the intact skin over the implant. Chronic application of twice daily 5 μl doses of BAPN (F.B.) significantly inhibited lysyl oxidase of the granuloma tissue underlying the area of topical application as well as that on the opposite side not receiving BAPN. Extractibility of collagen was significantly increased only in the granuloma tissue under the skin receiving BAPN.     

Identification of phalloidin uptake systems of rat and human liver

To determine whether the liver toxin phalloidin is transported into hepatocytes by one of the known bile salt transporters, we expressed the sodium-dependent Na⁺/taurocholate cotransporting polypeptide (Ntcp) and several sodium-independent bile salt transporters of the organic anion transporting polypeptide (OATP/SLCO) superfamily in Xenopus laevis oocytes and measured uptake of the radiolabeled phalloidin derivative [³H]demethylphalloin. We found that rat Oatp1b2 (previously called Oatp4 (Slc21a10)) as well as human OATP1B1 (previously called OATP-C (SLC21A6)) and OATP1B3 (previously called OATP8 (SLC21A8)) mediate uptake of [³H]demethylphalloin when expressed in X. laevis oocytes. Transport of increasing [³H]demethylphalloin concentrations was saturable with apparent K_m values of 5.7 μM (Oatp1b2), 17 μM (OATP1B1) and 7.5 μM (OATP1B3). All other tested Oatps/OATPs as well as the rat liver Ntcp did not transport [³H]demethylphalloin. Therefore, we conclude that rat Oatp1b2 as well as human OATP1B1 and OATP1B3 are responsible for phalloidin uptake into rat and human hepatocytes.     

Electro-optic scattering studies on deoxyribonucleic acid

Measurements have been made of the intensity of light scattered from aqueous solutions of calf thymus DNA with and without the application of electric fields. For fields approaching 150 V/cm and frequencies below 2.5 KHz, changes (ΔI) of up to 10% in the residual scattered intensity were observed. In agreement with previous dielectric and electric birefringence measurements, a low frequency dispersion of ΔI was observed, from which a rotary diffusion constant (D) of 1200 s^?1 was determined. Interpreting the electric field data in terms of the classical dipolar orientation theory led to values of 2.4 × 10^?25 cm (7.4 × 10^?14 esu) and 4.3 × 10^?25 cm (13 × 10^?14 esu) for the permanent dipole moment and the anisotropy of the electric polarisabilities respectively. Furthermore the permanent dipole moment was along the major molecular axis and the particles orientated in the field as rigid entities. The zero field data indicated a molecular shape which was not rodlike but corresponded to the Kratky-Porod “stiffness” parameter of x = 24 for the wormlike coil model. Although curved, the molecules appeared to orientate in low-intensity electric fields as rigid, but not rodlike molecules. The implications of this on recent discrepancies in D determined by two or more dynamic relaxation methods is briefly discussed.     

The influence of an electric field on growth and trace metal content in aquatic plants

It is known that both natural and artificial electric fields (EF) affect plants physiological parameters as well as germination, growth and yield. The present article describes results of a preliminary experiment on the impact of electric field on aquatic plants biogeochemistry. The objective of the present study was the assessment of the influence exerted by the electric field on growth and trace metals content of Elodea canadensis. In a laboratory experiment plants were exposed to the field intensity of 54?kV m^?1 for 7?days. The plants length was measured and the content of Fe, Mn, Ni, Pb, and Zn was determined using atomic absorption spectrometry (AAS). Results showed that the application of electric field slightly enhanced the growth of E. canadensis shoots. The content of Mn and Ni was significantly lower, and Pb and Zn significantly higher in plants exposed to the electric filed, while Fe content did not differ between control and EF treatment. This provides a rationale for further studies on biological effects of electric field in trace metal contaminated waters and application of an electrically enhanced phytoremediation.     

Effect of ursodeoxycholate on the bile flow in the rat

The relationship between the bile flow and biliary excretion rate of bile salt was studied by a continuous infusion of ursodeoxycholate and its glycine conjugate in rats. Infusion of glycoursodeoxycholate produced a higher flow rate and higher bile salt concentration than previously reported values for taurocholate. The estimated biliary transport maximum value was 2.21±0.15 μmole/min/100g body weight (mean±SD, N=13). Furthermore, a linear relation was found between the bile flow and bile salt excretion rate for a wide range of bile salt excretion with a slope value of 4.10±0.64 μl/μmole (N=10). These values were close to values previously reported for tauroursodeoxycholate. In contrast, when free ursodeoxycholate was infused, a bile salt excretion rate increased at first to a level of around 1.0 μmole/min/100g body weight with a concomitant bile flow increase, but after one hr, the bile salt excretion dropped sharply and a lower plateau of about half of the initial maximum level was established in the following hr. On the other hand, the bile flow further increased even in the second hr. Consequently, the linear relationship initially observed between the bile flow and bile salt excretion rate became gradually distorted and after one hr even the positive correlation between the two parameters was completely lost. The sharp drop in the bile salt excretion rate was found to be due to the decrease in the taurine conjugate of ursodeoxycholate in the bile. The excretion rate of free ursodeoxycholate remained at a very low level (about 0.1 μmole/min/100g body weight) throughout the experiments. The concentration of ursodeoxycholate in the liver increased sharply in the second hr corresponding to the decrease in the bile salt excretion rate. These results appear to be most easily explained by the thesis that there is a fraction of bile independent of bile salt excretion but dependent on the bile salt concentration in the hepatocyte.     

Effect of ML-236B (compactin) on biliary excretion of bile salts and lipids, and on bile flow, in the rat

To assess the importance of de novo cholesterol synthesis for bile salt formation, the effects of ML-236B (an inhibitor of 3-hydroxy-3-methylglutaryl-coenzyme A reductase) on biliary excretion of bile salts and lipids were studied in rats with permanent catheters in bile duct, heart and duodenum. In rats having their bile diverted continuously for 8 days, duodenal administration of ML-236B (50 mg/kg) caused an immediate transient choleresis, which subsided after 2 h. Concomitant with the choleresis concentrations of bile salt, phospholipid and cholesterol fell, but this decrease was maintained for 6 h. Consequently, ML-236B inhibited biliary output salts and lipids from the second till the sixth hour after injection. The kinetics of biliary excretion of intravenously injected [14C]taurocholate were not affected by ML-236B administration. In rats having their biliary catheter connected to the duodenal catheter, or in rats with prolonged bile diversion but treated with mevalonolactone, ML-236B again caused a transient choleresis (having subsided after 2 h), but now did not affect biliary excretion of bile salts and lipids. It is concluded that (1) ML-236B causes a transient bile salt-independent choleresis, (2) ML-236B depresses excretion of bile salts and lipids by blocking mevalonate synthesis and not by blocking the bile salt or lipid transport, (3) biliary excretions of phospholipids and cholesterol partly depend on excretion of bile salt, and (4) in rats with a prolonged total bile diversion newly formed mevalonate is a major substrate for bile salt synthesis.     

The role of microfilaments and of microtubules in taurocholate uptake by isolated rat liver cells

The role of microfilaments and microtubules on bile salt transport was studied by investigating the influence of a microfilament and a microtubule inhibitor, cytochalasin B and colchicine, respectively, on taurocholate uptake by isolated hepatocytes in vitro. Hepatocytes were prepared by the enzyme perfusion method and [¹⁴C]taurocholate uptake velocity was determined by a filtration assay. Taurocholate uptake obeyed Michaelis-Menten kinetics, maximal uptake velocity and apparent half-saturation constants averaging $\text{0.87 ±}\text{SD}\text{0.05}\text{nmol}\text{· s}{}^{\mathrm{?1}}\text{· 10}{}^{\mathrm{?6}}\text{cells}$ and $\text{10.9 ± 1.8 μ}\text{M}$, respectively. Cytochalasin B ($\text{4.2–420 μ}\text{M}$) inhibited taurocholate uptake in a competitive fashion; $\text{K}{}_{\mathrm{<mtext>i</mtext>}}$ being $\text{33 ± 7 μ}\text{M}$. At concentrations above 100 μM the compound decreased ³⁶Cl membrane potential and intracellular K⁺ concentration. Other parameters of cell viability were not affected by cytochalasin B. Colchicine (0.1–1.0 mM), by contrast, inhibited taurocholate uptake non-competitively, $\text{K}{}_{\mathrm{<mtext>i</mtext>}}$ being $\text{0.47 ± 0.07}\text{mM}$. The inhibition brought about by colchicine was considerably smaller than that induced by cytochalasin B. None of the parameters of cell viability tested was affected by colchicine. These results suggest that microfilaments may be involved in the carrier-mediated hepatocellular transport of bile salts. This could, at least in part, account for cytochalasin B-induced cholestasis. The contribution of the microtubular system, if any, is less important quantitatively. The mechanisms whereby these two components of the cytoskeleton partake in bile salt transport remain to be elucidated.     

High-performance liquid chromatographic-electrospray mass spectrometric analysis of bile acids in biological fluids

The present work describes the development of HPLC-mass spectrometric systems equipped with an electrospray interface for the quantitative analysis of bile acids. Good separation of free as well as glycine- and taurine-conjugated bile acids was achieved with a C₁₈ reversed-phase column (3 μm particle size, 70 × 4.6 mm I.D.) employing methanol-15 mM ammonium acetate as the mobile phase for both isocratic and gradient mode, at a flow-rate of 0.3 ml/min. This system permits post-column splitting of the eluate for analysis by two different detectors: (1) electrospray-mass spectrometer with a flow-rate of 18 μl/min; and (2) a complementary evaporative light scattering mass detector. When bile salts were ionized in the electrospray interface operating in the negative-ion mode, only [M  H]⁻ molecular ions were generated; the detection limit was 15 pg injected for all bile acids studied. In the second system, a semi-micro pre-column splitting apparatus (Acurate, LC Packings) was utilized: with this device the flow-rate from the HPLC pump was reduced to 1.4 μl/min and bile acids were separated with a micro-bore C₁₈ column (3 μm particle size, 150 × 0.30 I.D.), using the same mobile phase as above. With this latter system, a head-column enrichment technique can be used: the amount injected can be increased from 60 to 200 nl, permitting an improvement in the detection limit to 5 pg injected. Application of the HPLC-electrospray-mass spectrometric method to bile and serum bile acid analysis is described; preliminary data on the ability of the first system to determine the ¹³C/¹²C isotope ratio in ¹³C-labeled bile acid enriched serum is also critically discussed.     

Optimum Conditions for Electric Pulse-mediated Gene Transfer to Bacillus subtilis Cells

It was found that plasmid DNA (pUB 110) can be introduced into not only protoplasts but also intact cells of Bacillus subtilis by electric field pulses. The transformation of, B. subtilis using protoplasts results in an efficiency of 2.5 × 10⁴ transformants per μg of DNA, with a single pulse of 50 jisec with an initial electric field strength of 7kV/cm. Even transformation of intact B. subtilis cells results in a maximum efficiency of 1.5 × 10³ transformants per μg DNA, with a single pulse of 400 μsec with an initial electric field strength of 16kV/cm. The cell survival of protoplasts and intact cells was approximately 100% and 30%, respectively, under the conditions found to be optimal for the transformation process. Plasmid DNA isolated from pUB 110 containing transformants was indistinguishable from authentic preparations of pBU 110 on gel electrophoretic analysis.     

Differential modulation of natural and adaptive immunity in fischer rats exposed for 6 weeks to 60 Hz linear sinusoidal continuous-wave magnetic fields

Two separate, independent experiments were conducted to evaluate the effect of 60 Hz linearly polarized, sinusoidal, continuous-wave magnetic fields (MFs) on immune system performances in rats born and raised under these fields. Each experiment lasted for 6 weeks. A total of 96 animals, divided into groups of eight animals each, was exposed for 20 h/day to MFs of different intensities, i.e., sham (<0.02 μT) and 2, 20, 200, and 2000 μT. Another group of animals, which was housed in a separate room, served as cage controls (CC). These animals were exposed to ambient MFs of <0.02 μT. The following immune responses were evaluated in both experiments: total T and B cells; CD4⁺ and CD8⁺ subpopulation and natural killer (NK) cell activity in splenic lymphocytes; hydrogen peroxide (H₂O₂), nitrous oxide (NO), and tumor necrosis factor (TNF) production by peritoneal macrophages. Our results show that a 6 week exposure to MFs induced a significant decrease in the number of CD5⁺, CD4⁺, and CD8⁺ populations. These changes were even more significant in rats that were exposed to fields of 2000 μT. A lower, although significant, decrease in the CD5⁺ population was also observed in animals that were exposed to fields of 200 μT. Linear regression analysis demonstrated a dose effect with MF intensity. B lymphocyte (Ig⁺ cell) populations also showed a 12% decrease (P < .05) in the groups that were exposed to fields of 20 and 200 μT. However, these results were not significant, and no relation with MF intensities could be demonstrated. In contrast, evaluation of splenic NK cell activity revealed a 50% increase (P < .05) in animals that were exposed to fields of 2000 μT. No significant results were obtained from the evaluation of TNF activity and NO secretion in peritoneal macrophages. Phorbol 12-myristate 13-acetate (PMA)-stimulated and net H₂O₂ productions for a minor subpopulation of peritoneal cells showed positive dose-response correlations by linear regression analysis. Taken together, our results suggest that an in vivo exposure of rats for 6 weeks to 60 Hz MFs can induce significant immunological perturbations on effector cells of both natural and adaptive immunity in a dose-dependent fashion. © 1996 Wiley-Liss, Inc.     

Reinterpretation of Linear Dichroism of Chromatin Supports a Perpendicular Linker Orientation in the Folded State

Abstract

We present a reinterpretation of linear dichroism data for the salt induced condensation of chromatin. A conflict between electric and flow linear dichroism data for identical chromatin samples, studied at varying degrees of Mg²⁺ induced folding, can be solved if the orientation in electric fields is mainly determined through the polarization of counter ions along the linker parts, whereas the orientation in flow is governed by the hydrodynamical response of the entire chromatin fiber. The orientation of a chromatin fiber in an electric field would then depend on the linker tilt angle so that at an angle larger than 55° the fiber would tend to orient perpendicular to the applied field. The different orientation distributions obtained with the two methods of alignment may in this way provide extra information about the structure and folding of chromatin.     

Apparent volume of the biliary tree in the dog.

The apparent volume of the biliary tree (ABV) in the dog was determined by measuring the mean biliary transit time of injected [14C]taurocholate ([14C]TC). After bolus injection of [14C]TC, entry of bile salt into the lumen of the biliary tree is signaled by an increase in bile flow. The volume of bile collected at the common duct from onset of choleresis until maximal concentration of 14C radioactivity is reached in bile minus the calculated quantity of bile that contains radioactivity and the cannula volume yields a value for the volume of the biliary tree present just prior to injection of [14C]TC. The mean value for ABV in 19 dogs was 2.49 +/- 0.65 microL/g liver (mean +/- SD).     

Method of simplified kinetic equation for simulating the electron kinetics in dense gases in strong electric fields

A method for calculating the electron kinetics in dense gases in strong electric fields is developed. The method differs from the forward-backward approximation proposed by Ra?zer and Shne?der for “high-energy” electrons in that it introduces the effective cosines of the scattering angles with respect to the electric force, μ⁺(?, E) and μ^?(?, E), which are different from +1 and ?1, as in the forward-backward approximation. The method was implemented numerically for atmospheric-pressure helium and molecular nitrogen for fields in the ranges 10–200 and 50–800 kV/cm, respectively. The cosines μ⁺(?, E) and μ^?(?, E), the frequency of “fatal” collisions making high-energy electrons to pass from an acceleration regime to a deceleration one, and the rate at which the electrons leave the low-energy reservoir with energies of ≤15 eV for nitrogen and of ≤20 eV for helium are calculated.     

Enhancing effect of taurohyodeoxycholate on ABCB4-mediated phospholipid efflux

Hydrophilic bile salts, ursodeoxycholate and hyodeoxycholate, have choleretic effects. ABCB4, a member of the ABC transporter family, is essential for the secretion of phospholipids from hepatocytes into bile. In this study, we assessed the effects of taurine- or glycine-conjugated cholate, ursodeoxycholate and hyodeoxycholate on the ABCB4-mediated phosphatidylcholine (PC) efflux using Abcb4 knockout mice and HEK293 cells stably expressing ABCB4. To evaluate the effects of bile salts on bile formation in Abcb4^+/+ or Abcb4^−/− mice, the bile was collected during intravenous infusion of saline or bile salts. The biliary PC secretion in Abcb4^+/+ mice was significantly increased by the infusions of all tested bile salts, especially taurohyodeoxycholate. On the other hand, Abcb4^−/− mice exhibited extremely low secretion of PC into bile, which was not altered by bile salt infusions. We also showed that the PC efflux from ABCB4-expressing HEK293 cells was stimulated by taurohyodeoxycholate much more strongly than the other tested bile salts. However, taurohyodeoxycholate did not restore the activities of ABCB4 mutants. Furthermore, light scattering measurements demonstrated a remarkable ability of taurohyodeoxycholate to form mixed micelles with PC. Therefore, the enhancing effect of taurohyodeoxycholate on the ABCB4-mediated PC efflux may be due to the strong mixed micelle formation ability.     

Effect of cytochalasins on surfactant release from alveolar type II cells

Cytochalasins enhanced surfactant secretion from primary cultures of [³H]choline-labeled type II epithelial cells from the rat. Cytochalasins A, B, C, D and dihydrocytochalasin B enhanced secretion of phosphatidyl-[³H]choline ([³H]PC) in a dose-dependent manner with EC₅₀ values of 1, 2, 0.5, 0.1 and 1 μM for cytochalasins A, B, C, D and dihydrocytochalasin B, respectively. Only cytochalasin A caused significant cytotoxicity as determined by release of the intracellular enzyme lactate dehydrogenase (EC 1.1.1.17). Dose responses of surfactant release induced by cytochalasins B, C and D were biphasic; maximal release was observed between 0.1–1.0 μM for cytochalasins C and D between 1 and 10 μM for cytochalasin B. Secretion decreased toward control levels at concentrations of cytochalasin above these maximal concentrations. Increased rates of [³H]PC release were noted between 1 and 3 h after exposure to cytochalasin D. Increased rates of surfactant release induced by cytochalasin D were additive to release induced by the β-adrenergic agonist, terbutaline, or forskolin, although cytochalasin D had no direct effect on cytosolic cyclic AMP levels. Changes in cell shape and microfilament organization were observed by phase-contrast microscopy and fluorescence microscopy using rhodamine-conjugated phalloidin after exposure of the isolated type II cells to cytochalasin D. Disruption of microfilaments associated with lamellar bodies of the purified type II cells occurred after treatment with cytochalasin D. Cytochalasin D augmented surfactant release from purified type II cells and disrupted the microfilament structure of those cells, supporting the hypothesis that alterations in microfilaments are associated with surfactant release.     

Environmental magnetic fields inhibit the antiproliferative action of tamoxifen and melatonin in a human breast cancer cell line

We have previously reported that environmental-level magnetic fields (1.2 μT [12 milligauss], 60 Hz) block the growth inhibition of the hormone melatonin (10⁻⁹ M) on MCF-7 human breast cancer cells in vitro. We now report that the same 1.2 μT, 60 Hz magnetic fields significantly block the growth inhibitory action of pharmacological levels of tamoxifen (10⁻⁷ M). In biophysical studies we have taken advantage of Faraday's Law of Current Induction and tested whether the 1.2 μT magnetic field or the associated induced electric field is responsible for this field effect on melatonin and tamoxifen. We observe that the magnetic field component is associated with the field blocking effect on melatonin and tamoxifen function. To our knowledge the tamoxifen studies represent the first experimental evidence for an environmental-level magnetic field modification of drug interaction with human breast cancer cells. Together, these findings provide support to the theory that environmental-level magnetic fields can act to modify the action of a drug or hormone on regulation of cell proliferation. Melatonin and tamoxifen may act through different biological pathways to down-regulate cell growth, and further studies are required to identify a specific biological site of interaction for the 1.2 μT magnetic field. Bioelectromagnetics 18:555–562, 1997. Published 1997 Wiley-Liss, Inc.

1 This article is a US Government work and, as such, is in the public domain in the United States of America.

     

The transport of lipoprotein cholesterol into bile: a reassessment of kinetic studies in the experimental animal

Studies were undertaken to assess the contribution of lipoprotein cholesterol to bile and to determine whether already-existent hepatic free cholesterol and the free cholesterol which is newly generated from the hydrolysis of hepatic cholesteryl esters are equally available for secretion into bile or constitute metabolically separate pools. Rats with a bile fistula were injected with an intravenous bolus of high-density lipoprotein recombinants containing free [14C]cholesterol and [3H]cholesteryl esters. Results showed (1) that bile free [14C]cholesterol secretion was a constant and linear proportion of the whole liver free [14C]cholesterol pool, (2) that secretion into bile of free [3H]cholesterol was in direct proportion to the rate of hydrolysis of hepatic [3H]cholesteryl esters, and (3) that rates of biliary cholesterol secretion were very similar when secretion was calculated using the specific activity of free [14C]cholesterol and free [3H]cholesterol in the entire liver to 'label' the precursor free cholesterol pool. Furthermore, rates of secretion that were calculated using either isotope closely approximated the mass of free cholesterol that was directly measured in bile. Results thus indicate that because of equilibration and extensive dilution by the large pool of already-existent free cholesterol, the transport of isotopic cholesterol from lipoproteins cannot be used to directly assess the contribution of lipoprotein cholesterol to the cholesterol that is secreted in bile. These studies further suggest that the totality of preformed free cholesterol in the liver is in metabolic equilibrium in one single kinetic pool and that all hepatic free cholesterol is potentially available for secretion into bile.     

Electric field-induced changes in agonist-stimulated calcium fluxes of human HL-60 leukemia cells

The mechanism of biological effects of extremely-low-frequency electric and magnetic fields may involve induced changes of Ca²⁺ transport through plasma membrane ion channels. In this study we investigated the effects of externally applied, low-intensity 60 Hz electric (E) fields (0.5 V/m, current density 0.8 A/m²⁺) on the agonist-induced Ca²⁺ fluxes of HL-60 leukemia cells. The suspensions of HL-60 cells received E-field or sham exposure for 60 min and were simultaneously stimulated either by 1 μM ATP or by 100 μM histamine or were not stimulated at all. After E-field or sham exposure, the responses of the intracellular calcium levels of the cells to different concentrations of ATP (0.2–100 μM) were assessed. Compared with control cells, exposure of ATP-activated cells to an E-field resulted in a 20–30% decrease in the magnitude of [Ca²⁺]_i elevation induced by a low concentration of ATP (<1 μM). In contrast, exposure of histamine-activated HL-60 cells resulted in a 20–40% increase of ATP-induced elevation of [Ca²⁺]_i. E-field exposure had no effect on non-activated cells. Kinetic analysis of concentration-response plots also showed that compared with control cells, exposure to the E-field resulted in increases of the Michaelis constant, K_m, value in ATP-treated cells and of the maximal [Ca²⁺]_i peak rise in histamine-treated HL-60 cells. The observed effects were reversible, indicating the absence of permanent structural damages induced by acute 60 min exposure to electric fields. These results demonstrate that low-intensity electric fields can alter calcium distribution in cells, most probably due to the effect on receptor-operated Ca²⁺ and/or ion channels. Bioelectromagnetics 19:366–376, 1998. © 1998 Wiley-Liss, Inc.     

Ion channel clustering enhances weak electric field detection by neutrophils: apparent roles of SKF96365-sensitive cation channels and myeloperoxidase trafficking in cellular responses

We have tested Galvanovskis and Sandblom’s prediction that ion channel clustering enhances weak electric field detection by cells as well as how the elicited signals couple to metabolic alterations. Electric field application was timed to coincide with certain known intracellular chemical oscillators (phase-matched conditions). Polarized, but not spherical, neutrophils labeled with anti-K_v1.3, FL-DHP, and anti-TRP1, but not anti-T-type Ca²⁺ channels, displayed clusters at the lamellipodium. Resonance energy transfer experiments showed that these channel pairs were in close proximity. Dose-field sensitivity studies of channel blockers suggested that K⁺ and Ca²⁺ channels participate in field detection, as judged by enhanced oscillatory NAD(P)H amplitudes. Further studies suggested that K⁺ channel blockers act by reducing the neutrophil’s membrane potential. Mibefradil and SKF93635, which block T-type Ca²⁺ channels and SOCs, respectively, affected field detection at appropriate doses. Microfluorometry and high-speed imaging of indo-1-labeled neutrophils was used to examine Ca²⁺ signaling. Electric fields enhanced Ca²⁺ spike amplitude and triggered formation of a second traveling Ca²⁺ wave. Mibefradil blocked Ca²⁺ spikes and waves. Although 10 μM SKF96365 mimicked mibefradil, 7 μM SKF96365 specifically inhibited electric field-induced Ca²⁺ signals, suggesting that one SKF96365-senstive site is influenced by electric fields. Although cells remained morphologically polarized, ion channel clusters at the lamellipodium and electric field sensitivity were inhibited by methyl-β-cyclodextrin. As a result of phase-matched electric field application in the presence of ion channel clusters, myeloperoxidase (MPO) was found to traffic to the cell surface. As MPO participates in high amplitude metabolic oscillations, this suggests a link between the signaling apparatus and metabolic changes. Furthermore, electric field effects could be blocked by MPO inhibition or removal while certain electric field effects were mimicked by the addition of MPO to untreated cells. Therefore, channel clustering plays an important role in electric field detection and downstream responses of morphologically polarized neutrophils. In addition to providing new mechanistic insights concerning electric field interactions with cells, our work suggests novel methods to remotely manipulate physiological pathways.     

Influence of tauroursodeoxycholic and taurodeoxycholic acids on hepatic metabolism and biliary secretion of phosphatidylcholine in the isolated rat liver

Studies were carried out using an isolated rat liver system to define: the contribution of exogenous phosphatidylcholine (PC) to biliary phospholipid secretion; and its hepatic metabolism during perfusion of the livers with conjugated bile salts with different hydrophilic/hydrophobic properties. A tracer dose of sn-1-palmitoyl-sn-2-[14C]linoleoylPC was injected as a bolus into the recirculating liver perfusate, under constant infusion of 0.75 mumol/min of tauroursodeoxycholate or taurodeoxycholate. The effects on bile flow, biliary lipid secretion, 14C disappearance from the perfusate and its appearance in bile, as well as hepatic and biliary biotransformation were determined. With both the bile salts, about 40% of the [14C]PC was taken up by the liver from the perfusate over 100 min. During the same period less than 2% of the given radioactivity was secreted into bile. More than 95% of the 14C recovered in bile was located within the identical injected PC molecular species. The biliary secretion of labeled as well as unlabeled PC, however, was significantly higher in livers perfused with taurodeoxycholate than tauroursodeoxycholate, while the reverse was observed with respect to bile flow and total bile salt secretion. The exogenous PC underwent extensive hepatic metabolization which appeared to be influenced by the type of bile salt perfusing the liver. After 2 h perfusion, the liver radioactivity was found, in decreasing order, in PC, triacylglycerol, phosphatidylethanolamine and diacylglycerol. In addition, the specific activity of triacylglycerol was significantly higher in tauroursodeoxycholate than in taurodeoxycholate-perfused livers (P less than 0.025), while the reverse was true for the specific activity of hepatic PC (P less than 0.01). Because taurodeoxycholate and tauroursodeoxycholate showed opposite effects on both biliary lipid secretion and hepatic PC biotransformations, we conclude that the hepatic metabolism of glycerolipids is influenced by the physiochemical properties of bile salts.