999 resultados para Induced Currents
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Odorant-induced currents in mammalian olfactory receptor neurons have proved difficult to obtain reliably using conventional whole-cell recording. By using a mathematical model of the electrical circuit of the patch and rest-of-cell, we demonstrate how cell-attached patch measurements can be used to quantitatively analyze responses to odorants or a high (100 mM) K+ solution. High K+ induced an immediate current flux from cell to pipette, which was modeled as a depolarization of similar to 52 mV, close to that expected from the Nernst equation (56 mV), and no change in the patch conductance. By contrast, a cocktail of cAMP-stimulating odorants induced a current flux from pipette into cell following a significant (4-10 s) delay. This was modeled as an average patch conductance increase of 36 pS and a depolarization of 13 mV, Odorant-induced single channels had a conductance of 16 pS. In cells bathed with no Mg2+ and 0.25 mM Ca2+, odorants induced a current flow from cell to pipette, which was modeled as a patch conductance increase of similar to 115 pS and depolarization of similar to 32 mV, All these results are consistent with cAMP-gated cation channels dominating the odorant response, This approach, which provides useful estimates of odorant-induced voltage and conductance changes, is applicable to similar measurements in any small cells.
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We investigate a coronal mass ejection (CME) propagating toward Earth on 29 March 2011. This event is specifically chosen for its predominately northward directed magnetic field, so that the influence from the momentum flux onto Earth can be isolated. We focus our study on understanding how a small Earth-directed segment propagates. Mass images are created from the white-light cameras onboard STEREO which are also converted into mass height-time maps (mass J-maps). The mass tracks on these J-maps correspond to the sheath region between the CME and its associated shock front as detected by in situ measurements at L1. A time series of mass measurements from the STEREO COR-2A instrument is made along the Earth propagation direction. Qualitatively, this mass time series shows a remarkable resemblance to the L1 in situ density series. The in situ measurements are used as inputs into a three-dimensional (3-D) magnetospheric space weather simulation from the Community Coordinated Modeling Center. These simulations display a sudden compression of the magnetosphere from the large momentum flux at the leading edge of the CME, and predictions are made for the time derivative of the magnetic field (dB/dt) on the ground. The predicted dB/dt values were then compared with the observations from specific equatorially located ground stations and showed notable similarity. This study of the momentum of a CME from the Sun down to its influence on magnetic ground stations on Earth is presented as a preliminary proof of concept, such that future attempts may try to use remote sensing to create density and velocity time series as inputs to magnetospheric simulations.
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In modern magnetic resonance imaging (MRI), patients are exposed to strong, nonuniform static magnetic fields outside the central imaging region, in which the movement of the body may be able to induce electric currents in tissues which could be possibly harmful. This paper presents theoretical investigations into the spatial distribution of induced electric fields and currents in the patient when moving into the MRI scanner and also for head motion at various positions in the magnet. The numerical calculations are based on an efficient, quasi-static, finite-difference scheme and an anatomically realistic, full-body, male model. 3D field profiles from an actively shielded 4T magnet system are used and the body model projected through the field profile with a range of velocities. The simulation shows that it possible to induce electric fields/currents near the level of physiological significance under some circumstances and provides insight into the spatial characteristics of the induced fields. The results are extrapolated to very high field strengths and tabulated data shows the expected induced currents and fields with both movement velocity and field strength. (C) 2003 Elsevier Science (USA). All rights reserved.
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1 The effects of intravenous (i.v.) anaesthetics on nicotinic acetylcholine receptor (nAChR)-induced transients in intracellular free Ca2+ concentration ([Ca2+](i)) and membrane currents were investigated in neonatal rat intracardiac neurons. 2 In fura-2-loaded neurons, nAChR activation evoked a transient increase in [Ca2+](i), which was inhibited reversibly and selectively by clinically relevant concentrations of thiopental. The half-maximal concentration for thiopental inhibition of nAChR-induced [Ca2+](i) transients was 28 muM, close to the estimated clinical EC50 (clinically relevant (half-maximal) effective concentration) of thiopental. 3 In fura-2-loaded neurons, voltage clamped at -60mV to eliminate any contribution of voltage-gated Ca2+ channels, thiopental (25 muM) simultaneously inhibited nAChR-induced increases in [Ca2+](i) and peak current amplitudes. Thiopental inhibited nAChR-induced peak current amplitudes in dialysed whole-cell recordings by - 40% at - 120, -80 and -40 mV holding potential, indicating that the inhibition is voltage independent. 4 The barbiturate, pentobarbital and the dissociative anaesthetic, ketamine, used at clinical EC50 were also shown to inhibit nAChR-induced increases in [Ca2+](i) by similar to40%. 5 Thiopental (25 muM) did not inhibit caffeine-, muscarine- or ATP-evoked increases in [Ca2+](i), indicating that inhibition of Ca2+ release from internal stores via either ryanodine receptor or inositol-1,4,5-trisphosphate receptor channels is unlikely. 6 Depolarization-activated Ca2+ channel currents were unaffected in the presence of thiopental (25 muM), pentobarbital (50 muM) and ketamine (10 muM). 7 In conclusion, i.v. anaesthetics inhibit nAChR-induced currents and [Ca2+](i) transients in intracardiac neurons by binding to nAChRs and thereby may contribute to changes in heart rate and cardiac output under clinical conditions.
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We analyzed the expression profile of two NMDAR1 mRNA isoform subsets. NR1(0xx) and NR1(1xx), in discrete regions of human cerebral cortex. The subsets are characterized by the absence or presence of a 21-amino acid N-terminal cassette. Reverse transcription polymerase chain reaction for NR1 isoforms was performed on total RNA preparations from spared and susceptible regions from 10 pathologically confirmed Alzheimer's disease (AD) cases and 10 matched controls. Primers spanning the splice insert yielded two bands, 342 bp (NR1(0xx)) and 405 bp (NR1(1xx)), on agarose gel electrophoresis. The bands were visualized with ethidium and quantified by densitometry. NR1(1xx) transcript expression was calculated as a proportion of the NR1(1xx) + NR1(0xx) total. Values were significantly lower in AD cases than in controls in mid-cingulate cortex, p < 0.01, superior temporal cortex, p < 0.01 and hippocampus, p similar to 0.05. Cortical proportionate NR1(1xx) transcript expression was invariant over the range of ages acid areas of controls tested, at similar to 50%. This was also true for AD motor and occipital cortex. Proportionate NR1(1xx) expression in AD cingulate and temporal cortex was lower at younger ages and increased with age: this regression was significantly different from that in the homotropic areas of controls. Variations in NR1 N-terminal cassette expression may underlie the local vulnerability to excitotoxic damage of some areas in the AD brain. Alternatively, changes in NR1 mRNA expression may arise as a consequence of the AD disease process.
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Plants have multiple potassium (K+) uptake and efflux mechanisms that are expressed throughout plant tissues to fulfill different physiological functions. Several different classes of K+ channels and carriers have been identified at the molecular level in plants. K+ transporters of the HKT1 superfamily have been cloned from wheat (Triticum aestivum), Arabidopsis, and Eucalyptus camaldulensis. The functional characteristics as well as the primary structure of these transporters are diverse with orthologues found in bacterial and fungal genomes. In this report, we provide a detailed characterization of the functional characteristics, as expressed in Xenopus laevis oocytes, of two cDNAs isolated from E. camaldulensis that encode proteins belonging to the HKT1 superfamily of K+/Na+ transporters. The transport of K+ in EcHKT-expressing oocytes is enhanced by Na+, but K+ was also transported in the absence of Na+. Na+ is transported in the absence of K+ as has been demonstrated for HKT1 and AtHKT1. Overall, the E. camaldulensis transporters show some similarities and differences in ionic selectivity to HKT1 and AtHKT1. One striking difference between HKT1 and EcHKT is the sensitivity to changes in the external osmolarity of the solution. Hypotonic solutions increased EcHKT induced currents in oocytes by 100% as compared with no increased current in HKT1 expressing or uninjected oocytes. These osmotically sensitive currents were not enhanced by voltage and may mediate water flux. The physiological function of these osmotically induced increases in currents may be related to the ecological niches that E. camaldulensis inhabits, which are periodically flooded. Therefore, the osmosensing function of EcHKT may provide this species with a competitive advantage in maintaining K+ homeostasis under certain conditions.
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This work aims to shed some light on longshore sediment transport (LST) in the highly energetic northwest coast of Portugal. Data achieved through a sand-tracer experiment are compared with data obtained from the original and the new re-evaluated longshore sediment transport formulas (USACE Waterways Experiment Station’s Coastal Engineering and Research Center, Kamphuis, and Bayram bulk formulas) to assess their performance. The field experiment with dyed sand was held at Ofir Beach during one tidal cycle under medium wave-energy conditions. Local hydrodynamic conditions and beach topography were recorded. The tracer was driven southward in response to the local swell and wind- and wave-induced currents (Hsb=0.75mHsb=0.75m, Tp=11.5sTp=11.5s, θb=8−12°θb=8−12°). The LST was estimated by using a linear sediment transport flux approach. The obtained value (2.3×10−3m3⋅s−12.3×10−3m3⋅s−1) approached the estimation provided by the original Bayram formula (2.5×10−3m3⋅s−12.5×10−3m3⋅s−1). The other formulas overestimated the transport, but the estimations resulting from the new re-evaluated formulas also yield approximate results. Therefore, the results of this work indicated that the Bayram formula may give satisfactory results for predicting the longshore sediment transport on Ofir Beach.
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Inflammatory proteases (mast cell tryptase and trypsins) cleave protease-activated receptor 2 (PAR2) on spinal afferent neurons and cause persistent inflammation and hyperalgesia by unknown mechanisms. We determined whether transient receptor potential vanilloid receptor 1 (TRPV1), a cation channel activated by capsaicin, protons, and noxious heat, mediates PAR2-induced hyperalgesia. PAR2 was coexpressed with TRPV1 in small- to medium-diameter neurons of the dorsal root ganglia (DRG), as determined by immunofluorescence. PAR2 agonists increased intracellular [Ca2+] ([Ca2+]i) in these neurons in culture, and PAR2-responsive neurons also responded to the TRPV1 agonist capsaicin, confirming coexpression of PAR2 and TRPV1. PAR2 agonists potentiated capsaicin-induced increases in [Ca2+]i in TRPV1-transfected human embryonic kidney (HEK) cells and DRG neurons and potentiated capsaicin-induced currents in DRG neurons. Inhibitors of phospholipase C and protein kinase C (PKC) suppressed PAR2-induced sensitization of TRPV1-mediated changes in [Ca2+]i and TRPV1 currents. Activation of PAR2 or PKC induced phosphorylation of TRPV1 in HEK cells, suggesting a direct regulation of the channel. Intraplantar injection of a PAR2 agonist caused persistent thermal hyperalgesia that was prevented by antagonism or deletion of TRPV1. Coinjection of nonhyperalgesic doses of PAR2 agonist and capsaicin induced hyperalgesia that was inhibited by deletion of TRPV1 or antagonism of PKC. PAR2 activation also potentiated capsaicin-induced release of substance P and calcitonin gene-related peptide from superfused segments of the dorsal horn of the spinal cord, where they mediate hyperalgesia. We have identified a novel mechanism by which proteases that activate PAR2 sensitize TRPV1 through PKC. Antagonism of PAR2, TRPV1, or PKC may abrogate protease-induced thermal hyperalgesia.
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Nicotinic acetylcholine receptors (AChRs) are pentameric proteins that form agonist-gated cation channels through the plasma membrane. AChR agonists and antagonists are potential candidates for the treatment of neurodegenerative diseases. Cembranoids are naturally occurring diterpenoids that contain a 14-carbon ring. These diterpenoids interact with AChRs in complex ways: as irreversible inhibitors at the agonist sites, as noncompetitive inhibitors, or as positive modulators, but no cembranoid was ever shown to have agonistic activity on AChRs. The cembranoid eupalmerin acetate displays positive modulation of agonist-induced currents in the muscle-type AChR and in the related gamma-aminobutyric acid (GABA) type A receptor. Moreover, cembranoids display important biological effects, many of them mediated by nicotinic receptors. Cembranoids from tobacco are neuroprotective through a nicotinic anti-apoptotic mechanism preventing excitotoxic neuronal death which in part could result from anti-inflammatory properties of cembranoids. Moreover, tobacco cembranoids also have anti-inflammatory properties which could enhance their neuroprotective properties. Cembranoids from tobacco affect nicotine-related behavior: they increase the transient initial ataxia caused by first nicotine injection into naive rats and inhibit the expression of locomotor sensitization to repeated injections of nicotine. In addition, cembranoids are known to act as anti-tumor compounds. In conclusion, cembranoids provide a promising source of lead drugs for many clinical areas, including neuroprotection, smoking-cessation, and anti-cancer therapies. (C) 2009 Elsevier Ltd. All rights reserved.
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This work consists in the development of a theoretical and numerical analysis for frequency selective surfaces (FSS) structures with conducting patch elements, such as rectangular patches, thin dipoles and cross dipoles, on anisotropic dielectric substrates. The analysis is developed for millimeter wave band applications. The analytical formulation is developed in the spectral domain, by using a rigorous technique known as equivalent transmission line method, or immitance approach. The numerical analysis is completed through the use of the Galerkin's technique in the Fourier transform domain, using entire-domain basis functions. In the last decades, several sophisticated analytical techniques have been developed for FSS structure applications. Within these applications, it can be emphasized the use of FSS structures on reflecting antennas and bandpass radomes. In the analysis, the scattered fields of the FSS geometry are related to the surface induced currents on the conducting patches. After the formulation of the scattering problem, the numerical solution is obtained by using the moment method. The choice of the basis functions plays a very important role in the numerical efficiency of the numerical method, once they should provide a very good approximation to the real current distributions on the FSS analyzed structure. Thereafter, the dyadic Green's function components are obtained in order to evaluate the basis functions unknown coefficients. To accomplish that, the Galerkin's numerical technique is used. Completing the formulation, the incident fields are determined through the incident potential, and as a consequence the FSS transmission and reflection characteristics are determined, as function of the resonant frequency and structural parameters. The main objective of this work was to analyze FSS structures with conducting patch elements, such as thin dipoles, cross dipoles and rectangular patches, on anisotropic dielectric substrates, for high frequency applications. Therefore, numerical results for the FSS structure main characteristics were obtained in the millimeter wave bando Some of these FSS characteristics are the resonant
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Nas últimas três décadas os métodos eletromagnéticos vem se desenvolvendo satisfatoriamente em função da aplicabilidade na prospecção de corpos de sulfetos maciços. Em regiões de climas tropicais, normalmente o manto de intemperismo apresenta-se condutivo. E este, na maioria das vezes, não é levado em conta na prospecção eletromagnética, causando portanto erros consideráveis de interpretações. Neste trabalho consideramos o manto de intemperismo em contato e sem-contato com o corpo condutor. Com o objetivo de estudar os efeitos dos mantos sobre anomalias EM de corpos tabulares inclinados, foram feitos vários experimentos utilizando modelamento analógico em escala reduzida, admitindo-se diferentes parâmetros de resposta para o corpo e o manto. Para simular o corpo foram utilizadas placas de aço inoxidável com as dimensões suficientemente grande em relação ao espaçamento entre as bobinas, de tal modo que simulassem um semi-plano. Para simular o manto foi utilizado uma solução de sais, sendo que para o caso de manto-condutivo, o corpo foi colocado em contato galvânico com a solução. Para o manto-indutivo foi considerado sem-contato galvânico, de tal forma que o corpo e o manto fossem acoplados apenas indutivamente. Onde 1) o corpo foi colocado totalmente sem contato com o manto 2) o corpo foi revestido por uma película resistiva e colocado em contato com o manto. Com a presença de manto-indutivo, observamos que a amplitude dos perfis é levemente atenuada. Além disso, observamos na quadratura a reversão e o aparecimento de um pico-extra nas inclinações do corpo θ≤60º e nos valores de número de indução αc≥78.16 e αm≥0.5 respectivamente do corpo e do manto. E a rotação de fase se dava no sentido horário, sendo mais intensa para altos valores de número de indução do corpo. No manto-indutivo o corpo parece estar a uma profundidade maior que a verdadeira, e ser mais condutivo do que realmente é. Com manto-condutivo, observamos que as amplitudes dos perfis são ligeiramente acrescidos assim como, a rotação de fase se dava no sentido anti-horário sendo mais intensa para pequenos valores de número de indução do corpo. Os demais efeitos tais como reversão na quadratura e presença de pico-extra ocorrem de modo análogo ao ocorrido no caso de manto-indutivo. No manto-condutivo, o corpo parece estar a uma profundidade inferior à verdadeira e ser menos condutivo. As anomalias EM são ligeiramente modificadas em função da rotação de fase e atenuação de amplitudes que ocorrem nos campos primário e secundário quando atravessam o manto, e também em consequência da interação indutiva de corrente induzida entre corpo e manto. Além disso ocorre a redistribuição de corrente no manto devido à presença de corpo dentro do manto. No manto-condutivo as correntes são canalizadas dentro do corpo que está em contato galvânico com o manto, enquanto no manto-indutivo ocorre um desvio de corrente, devido à película resistiva que envolve o corpo.
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Die freien Endigungen von Spinalganglienneuronen sind für die Detektion schmerzhafter Reize verantwortlich. Dabei rufen thermische, chemische oder mechanische Reize Ionenströme über die Membran und dadurch Membranpotentialänderungen hervor. Diese noxisch induzierten Ströme sind in großem Ausmaß durch chemische Substanzen und andere Reize modulierbar. Der Ionenkanal TRPV1 ist für die Detektion zahlreicher chemischer Reize und zumindest eines Teils der noxischen Hitzereize verantwortlich. Im Rahmen dieser Arbeit wurden einige der Mechanismen geklärt, die zur schnellen Sensibilisierung hitzeevozierter Ionenströme führen. Hierfür wurden akut dissoziierte Spinalganglienneurone der Ratte als Modell ihrer peripheren Endigung verwendet und mittels Ganzzellableitung in der patch-clamp-Technik untersucht. Die Verwendung von Trypsin während der Präparation von Spinalganglienneuronen hat keinen funktionellen Einfluss auf hitze- oder capsaicininduzierte Ströme, verbessert aber die Untersuchungsbedingungen für das patch-clamp-Verfahren. Bei 144 akut dissoziierten Spinalganglienneuronen wurden die Stromantworten auf drei im Abstand von 40 s durch Überspülen mit 45,3 bis 46,3°C heißer Extrazellularlösung applizierte einsekündige Hitzereize gemessen. Dabei ließen sich repetitiv reproduzierbare hitzeinduzierte Einwärtsströme von etwa 160 pA erzielen; es konnte keine Tachyphylaxie und nahezu keine Inaktivierung beobachtet werden. Direkt vor dem zweiten Hitzereiz wurden die Neurone für zwei Sekunden mit Extrazellularlösung überspült, die Kontrolllösung, 0,5 μM Capsaicin, 10 μM Natriumnitroprussid oder 10 μM YC-1 enthielt. Es fand sich kein Hinweis, dass Stickstoffmonoxid oder die Guanylatzyklase einen signifikanten Beitrag zur Sensibilisierung von hitzeinduzierten Strömen in Spinalganglienneuronen leisten, wobei ein durch den Versuchsaufbau bedingtes Auswaschen zytosolischer Faktoren, die für den Signalweg notwendig sind, nicht ausgeschlossen werden kann. Bei einer Konzentration von 0,5 μM löst Capsaicin für zwei Sekunden einen sehr kleinen Einwärtsstrom von etwa 33 pA aus und führt innerhalb von zwei Sekunden zu einer schnell reversiblen Sensibilisierung von hitzeinduzierten Einwärtsströmen in Spinalganglienneuronen (p<0,01). Das Ausmaß der Sensibilisierung ist proportional zur Größe des capsaicininduzierten Stromes (r=−0,7, p<0,001). Konstant halten der intrazellulären Calciumkonzentration mittels des Calciumchelators BAPTA verhindert die capsaicininduzierte Sensibilisierung hitzeinduzierter Ströme an Spinalganglienneuronen. Demzufolge beruht die capsaicininduzierte Sensibilisierung trotz der schnellen Kinetik nicht auf einer synergistischen Wirkung der beiden Agonisten Capsaicin und Hitze auf ihren gemeinsamen Rezeptor; vielmehr ist sie von einer Erhöhung der intrazellulären freien Calciumkonzentration abhängig. Funktionelle Änderungen der zellulären Funktion werden häufig durch Proteinkinasen vermittelt. Die zur Gruppe der MAP-Kinasen gehörende ERK (extracellular signal related kinase) wird bei Membrandepolarisation und Calciumeinstrom in die Zelle durch MEK (MAPK/extracellular signal related kinase kinase) aktiviert. Blockade der MEK/ERK-Kaskade durch den spezifischen MEK-Hemmstoff U0126 führt ebenfalls zu einer Aufhebung der Sensibilisierung der Hitzeantworten durch Capsaicin. Applikation von Capsaicin führt innerhalb von zwei Sekunden zu einer schnell reversiblen Sensibilisierung hitzeevozierter Ionenströme an nozizeptiven Spinalganglienneuronen. Diese Sensibilisierung wird durch einen Calciumeinstrom in die Zelle und die dadurch eintretende Aktivierung von Proteinkinasen hervorgerufen. Die MEK/ERK-Kaskade ist ein sehr schnell (deutlich unter 2 s) aktivierbares intrazelluläres Signalsystem, welches bei der Regulation der Empfindlichkeit nozizeptiver Spinalganglienneurone eine entscheidende Rolle spielt; die schnelle Kinetik ist dabei nur durch eine membranständige oder zumindest membrannahe Lokalisation dieser Proteinkinasen erklärbar. Durch Applikation zehnsekündiger Hitzereize lässt sich ebenfalls eine Sensibilisierung hitzeevozierter Ionenströme auslösen, die ebenso ausgeprägt ist, wie die Sensibilisierung durch 0,5 μM Capsaicin (p<0,005). Durch das immer größere Verständnis der Funktionsweise des nozizeptiven Systems ergeben sich ständig neue Ansätze für die Entwicklung neuer Analgetika. So könnte durch Modulation spezifischer intrazellulärer Proteinkinasen der Phosphorylierungszustand und damit die Aktivierbarkeit von Ionenkanälen, die der Transduktion noxischer Reize dienen, positiv beeinflusst werden. Neuere, noch spezifischere Inhibitoren der MEK können der Forschung und später auch der Therapie neue Möglichkeiten eröffnen.
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Shine and rise! GABA(A) receptors are ligand-gated chloride ion channels that respond to γ-aminobutyric acid (GABA), which is the major inhibitory neurotransmitter of the mammalian central nervous system. Azobenzene derivatives of propofol, such as compound 1 (see scheme), increase GABA-induced currents in the dark form and lose this property upon light exposure and thus function as photochromic potentiators. Compound 1 can be employed as a light-dependent general anesthetic in translucent tadpoles.
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Amino acid transporters are crucial for parasite survival since the cellular metabolism of parasitic protozoa depends on the uptake of exogenous amino acids. Amino acid transporters are also of high pharmacological relevance because they may mediate uptake of toxic amino acid analogues. In the present study we show that the eflornithine transporter AAT6 from Trypanosoma brucei (TbAAT6) mediates growth on neutral amino acids when expressed in Saccharomyces cerevisiae mutants. The transport was electrogenic and further analysed in Xenopus laevis oocytes. Neutral amino acids, proline analogues, eflornithine and acivicin induced inward currents. For proline, glycine and tryptophan the apparent affinities and maximal transport rates increased with more negative membrane potentials. Proline-induced currents were dependent on pH, but not on sodium. Although proline represents the primary energy source of T. brucei in the tsetse fly, down-regulation of TbAAT6-expression by RNAi showed that in culture TbAAT6 is not essential for growth of procyclic form trypanosomes in the presence of glucose or proline as energy source. TbAAT6-RNAi lines of both bloodstream and procyclic form trypanosomes showed reduced susceptibility to eflornithine, whereas the sensitivity to acivicin remained unchanged, indicating that acivicin enters the cell by more than one transporter
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GABA-A receptors are chloride ion channels composed of five subunits, mediating fast synaptic and tonic inhibition in the mammalian brain. 19 different subunit isoforms have been identified, with the major receptor type in mammalian adult brain consisting of α1, β2, and γ2 subunits. GABA-A receptors are the target of numerous sedating and anxiolytic drugs such as benzodiazepines. The currently known endogenous ligands are GABA, neurosteroids and the endocannabinoid 2- arachidonoyl glycerol (2-AG). The pharmacological properties of this chloride ion channel strictly depend on receptor subunit composition and arrangement. GABA-A receptors bind and are inhibited by epileptogenic agents such as picrotoxin, and cyclodiene insecticides such as dieldrin. We screened aromatic monovalent anions with five-fold symmetry for inhibition of GABA-A receptors. One of the anions, PCCPinhibited currents elicited by GABA with comparable potency as picrotoxin. This inhibition showed all characteristics of an open channel block. The GABA-A receptor ion channel is lined by residues from the M2 membrane-spanning segment. To identify important residues of the pore involved in the interaction with the blocking molecules PCCP-, a mutation scan was performed in combination with subsequent analysis of the expressed mutant proteins using electrophysiological techniques. In a second project we characterised a light-switchable modulator of GABA-A receptors based on propofol. It was my responsibility to investigate the switching kinetics in patch clamp experiments. After its discovery in 1980, propofol has become the most widely used intravenous general anaesthetic. It is commonly accepted that the anaesthesia induced by this unusually lipophilic drug mostly results from potentiation of GABA induced currents. While GABA-A receptors respond to a variety of ligands, they are normally not sensitive towards light. This light sensitivity could be indirectly achieved by using modulators that can be optically switched between an active and an inactive form. We tested an azobenzene derivative of propofol where an aryldiazene unit is directly coupled to the pharmacophore. This molecule was termed azopropofol (AP2). The effect of AP2 on Cl- currents was investigated with electrophysiological techniques using α1β2γ2 GABA-A receptors expressed in Xenopus oocytes and HEK-cells. In the third project we wanted to investigate the functional role of GABA-A receptors in the liver, and their possible involvement in cell proliferation. GABA-A receptors are also found in a wide range of peripheral tissues, including parts of the peripheral nervous system and non-neural tissues such as smooth muscle, the female reproductive system, liver and several cancer tissues. However their precise function in non neuronal or cancerous cells is still unknown. For this purpose we investigated expression, localization and function of the hepatocytes GABA-A receptors in model cell lines and healthy and cancerous hepatocytes.
