A novel neutrophil elastase inhibitor prevents elastase activation and surface cleavage of the epithelial sodium channel expressed in Xenopus laevis oocytes.

The amiloride-sensitive epithelial sodium channel (ENaC) constitutes a limiting step in sodium reabsorption across distal airway epithelium and controlling mucociliary clearance. ENaC is activated by serine proteases secreted in the extracellular milieu. In cystic fibrosis lungs, high concentrations of secreted neutrophil elastase (NE) are observed. hNE could activate ENaC and contribute to further decreased mucociliary clearance. The aims of this study were (i) to test the ability of an engineered human neutrophil elastase inhibitor (EPI-hNE4) to specifically inhibit the elastase activation of ENaC-mediated amiloride-sensitive currents (I(Na)) and (ii) to examine the effect of elastase on cell surface expression of ENaC and its cleavage pattern (exogenous proteolysis). Oocytes were exposed to hNE (10-100 microg/ml) and/or trypsin (10 microg/ml) for 2-5 min in the presence or absence of EPI-hNE4 (0.7 microm). hNE activated I(Na) 3.6-fold (p < 0.001) relative to non-treated hENaC-injected oocytes. EPI-hNE4 fully inhibited hNE-activated I(Na) but had no effect on trypsin- or prostasin-activated I(Na). The co-activation of I(Na) by hNE and trypsin was not additive. Biotinylation experiments revealed that cell surface gamma ENaC (but not alpha or beta ENaC) exposed to hNE for 2 min was cleaved (as a 67-kDa fragment) and correlated with increased I(Na). The elastase-induced exogenous proteolysis pattern is distinct from the endogenous proteolysis pattern induced upon preferential assembly, suggesting a causal relationship between gamma ENaC cleavage and ENaC activation, taking place at the plasma membrane.

El Pla d'Orientació Acadèmica i Professional (POAP). Assessorament psicopedagògic per a la seva elaboració i planificació dins del PAT del centre : els programes basats en l'educació per a la carrera

Assessorament psicopedagògic al centre per a dissenyar una proposta de millora del Pla d'orientació acadèmica i professional (POAP), integrat dins del Pla d'acció tutorial global, a partir de la revisió del recull d'activitats que s'estan fent fins ara pel que fa a l'orientació acadèmica i professional i de la incorporació de les noves aportacions dels corrents teòrics actuals centrats en l'educació per a la carrera.

Application for fault location in electrical power distribution systems

Fault location has been studied deeply for transmission lines due to its importance in power systems. Nowadays the problem of fault location on distribution systems is receiving special attention mainly because of the power quality regulations. In this context, this paper presents an application software developed in Matlabtrade that automatically calculates the location of a fault in a distribution power system, starting from voltages and currents measured at the line terminal and the model of the distribution power system data. The application is based on a N-ary tree structure, which is suitable to be used in this application due to the highly branched and the non- homogeneity nature of the distribution systems, and has been developed for single-phase, two-phase, two-phase-to-ground, and three-phase faults. The implemented application is tested by using fault data in a real electrical distribution power system

Perinatal Hypoxia Enhances Cyclic Adenosine Monophosphate-mediated BKCa Channel Activation in Adult Murine Pulmonary Artery.

Exposure to perinatal hypoxia results in alteration of the adult pulmonary circulation, which is linked among others to alterations in K channels in pulmonary artery (PA) smooth muscle cells. In particular, large conductance Ca-activated K (BKCa) channels protein expression and activity were increased in adult PA from mice born in hypoxia compared with controls. We evaluated long-term effects of perinatal hypoxia on the cyclic adenosine monophosphate (cAMP)/protein kinase A (PKA) pathway-mediated activation of BKCa channels, using isoproterenol, forskolin, and dibutyryl-cAMP. Whole-cell outward current was higher in pulmonary artery smooth muscle cells from mice born in hypoxia compared with controls. Spontaneous transient outward currents, representative of BKCa activity, were present in a greater proportion in pulmonary artery smooth muscle cells of mice born in hypoxia than in controls. Agonists induced a greater relaxation in PA of mice born in hypoxia compared with controls, and BKCa channels contributed more to the cAMP/PKA-mediated relaxation in case of perinatal hypoxia. In summary, perinatal hypoxia enhanced cAMP-mediated BKCa channels activation in adult murine PA, suggesting that this pathway could be a potential target for modulating adult pulmonary vascular tone after perinatal hypoxia.

Anti-impérialisme et nouvelle gauche radicale dans la Suisse des années 68

Cette thèse entend apporter un éclairage sur l'histoire politique et sociale de la Suisse des années 68, en étudiant l'articulation entre les mouvements anti-impérialistes et la nouvelle gauche radicale, alors foisonnante. Il s'agit d'analyser cette période de contestation au prisme de l'anti-impérialisme révolutionnaire, lequel, dans le contexte de l'opposition à la guerre du Vietnam, a fortement imprégné le mouvement protestataire, en assignant notamment au tiers-monde le rôle de sujet de l'émancipation mondiale. Combinant une triple approche - chronologique, thématique et biographique - ce travail est structuré en quatre parties. La première partie esquisse un panorama des mouvements anti-impérialistes des années 1960 et 1970 en Suisse, avec une focalisation sur les «années anti-imp», entre 1968 et 1975. La deuxième interroge le rapport entre anti¬impérialisme et nouvelle gauche radicale, en proposant une typologie des principaux courants. La troisième partie s'attache à examiner le système de représentations du monde et de la Suisse véhiculé par le discours de l'extrême gauche. Prenant pour objet le militantisme, la dernière partie esquisse un portrait de groupe de la « génération anti-imp », fondé sur une enquête prosopographique et sur un corpus d'entretiens réalisés avec des militants de l'époque. L'étude révèle que l'anti-impérialisme a fourni à la contestation soixante-huitarde un cadre conceptuel et analytique, un facteur de structuration, ainsi qu'un vecteur de mobilisation. Il a en particulier permis à la gauche radicale suisse d'inscrire sa lutte anticapitaliste locale dans un horizon global d'émancipation. L'analyse de l'anti-impérialisme révolutionnaire, qui a connu son apogée dans les années 68 avant de connaître un déclin rapide et presque total, invite à appréhender cette « décennie mouvementée » comme la fin d'un long cycle politique. -- This thesis aims to shed light on the social and political history of Switzerland in the 1960s and 1970s by studying the relationship between anti-imperialist movements and the emerging new radical left. It analyses this time of rebellion through the prism of revolutionary anti-imperialism. In the context of opposition to the Vietnam War, anti-imperialism strongly influenced protest movements, notably by assigning to the Third World the role of main actor in the fight for global emancipation. Combining a threefold approach - chronological, thematic and biographical - this work is structured in four parts. The first part provides a panorama of the anti-imperialist movements of the long 1960s in Switzerland with a focus on the « anti-imp years » between 1968 and 1975. The second part questions the relationship between anti-imperialism and the new radical left and proposes a typology of its main currents. The third part examines how the radical left's discourse represented the world, and Switzerland in particular. The last part addresses the question of activism and outlines a group portrait of the « anti-imp generation » based on a prosopographical study and on a body of interviews with former activists. This study reveals that anti-imperialism, besides serving as an agent of mobilization, provided a conceptual and ideological framework, as well as a structuring factor, to the protest movements. In particular, it enabled the Swiss radical left to fit its local anti-capitalist struggle into a global horizon of emancipation. This analysis of revolutionary anti- imperialism, which had its heyday in the 1960s and 1970s before experiencing a rapid and almost total decline, thus invites us to see this « turbulent decade » as the end of a long political cycle.

Cardiomyocyte dysfunction during the chronic phase of Chagas disease

Chagas disease, which is caused by the parasite Trypanosoma cruzi, is an important cause of heart failure. We investigated modifications in the cellular electrophysiological and calcium-handling characteristics of an infected mouse heart during the chronic phase of the disease. The patch-clamp technique was used to record action potentials (APs) and L-type Ca2+ and transient outward K+ currents. [Ca2+]i changes were determined using confocal microscopy. Infected ventricular cells showed prolonged APs, reduced transient outward K+ and L-type Ca2+ currents and reduced Ca2+ release from the sarcoplasmic reticulum. Thus, the chronic phase of Chagas disease is characterised by cardiomyocyte dysfunction, which could lead to heart failure.

Optimisation of an asymmetric polymerase chain reaction assay for the amplification of single-stranded DNA from Wuchereria bancrofti for electrochemical detection

Single-stranded DNA (ssDNA) is a prerequisite for electrochemical sensor-based detection of parasite DNA and other diagnostic applications. To achieve this detection, an asymmetric polymerase chain reaction method was optimised. This method facilitates amplification of ssDNA from the human lymphatic filarial parasite Wuchereria bancrofti. This procedure produced ssDNA fragments of 188 bp in a single step when primer pairs (forward and reverse) were used at a 100:1 molar ratio in the presence of double-stranded template DNA. The ssDNA thus produced was suitable for immobilisation as probe onto the surface of an Indium tin oxide electrode and hybridisation in a system for sequence-specific electrochemical detection of W. bancrofti. The hybridisation of the ssDNA probe and target ssDNA led to considerable decreases in both the anodic and the cathodic currents of the system's redox couple compared with the unhybridised DNA and could be detected via cyclic voltammetry. This method is reproducible and avoids many of the difficulties encountered by conventional methods of filarial parasite DNA detection; thus, it has potential in xenomonitoring.

Functional Characterization of a Novel Frameshift Mutation in the C-terminus of the Nav1.5 Channel Underlying a Brugada Syndrome with Variable Expression in a Spanish Family.

INTRODUCTION We functionally analyzed a frameshift mutation in the SCN5A gene encoding cardiac Na(+) channels (Nav1.5) found in a proband with repeated episodes of ventricular fibrillation who presented bradycardia and paroxysmal atrial fibrillation. Seven relatives also carry the mutation and showed a Brugada syndrome with an incomplete and variable expression. The mutation (p.D1816VfsX7) resulted in a severe truncation (201 residues) of the Nav1.5 C-terminus. METHODS AND RESULTS Wild-type (WT) and mutated Nav1.5 channels together with hNavβ1 were expressed in CHO cells and currents were recorded at room temperature using the whole-cell patch-clamp. Expression of p.D1816VfsX7 alone resulted in a marked reduction (≈90%) in peak Na(+) current density compared with WT channels. Peak current density generated by p.D1816VfsX7+WT was ≈50% of that generated by WT channels. p.D1816VfsX7 positively shifted activation and inactivation curves, leading to a significant reduction of the window current. The mutation accelerated current activation and reactivation kinetics and increased the fraction of channels developing slow inactivation with prolonged depolarizations. However, late INa was not modified by the mutation. p.D1816VfsX7 produced a marked reduction of channel trafficking toward the membrane that was not restored by decreasing incubation temperature during cell culture or by incubation with 300 μM mexiletine and 5 mM 4-phenylbutirate. CONCLUSION Despite a severe truncation of the C-terminus, the resulting mutated channels generate currents, albeit with reduced amplitude and altered biophysical properties, confirming the key role of the C-terminal domain in the expression and function of the cardiac Na(+) channel.

Inactivation of L-type calcium channels is determined by the length of the N terminus of mutant beta(1) subunits.

Voltage-dependent calcium channel (Ca(v)) pores are modulated by cytosolic beta subunits. Four beta-subunit genes and their splice variants offer a wide structural array for tissue- or disease-specific biophysical gating phenotypes. For instance, the length of the N terminus of beta(2) subunits has major effects on activation and inactivation rates. We tested whether a similar mechanism principally operates in a beta(1) subunit. Wild-type beta(1a) subunit (N terminus length 60 aa) and its newly generated N-terminal deletion mutants (51, 27 and 18 aa) were examined within recombinant L-type calcium channel complexes (Ca(v)1.2 and alpha(2)delta2) in HEK293 cells at the whole-cell and single-channel level. Whole-cell currents were enhanced by co-transfection of the full-length beta(1a) subunit and by all truncated constructs. Voltage dependence of steady-state activation and inactivation did not depend on N terminus length, but inactivation rate was diminished by N terminus truncation. This was confirmed at the single-channel level, using ensemble average currents. Additionally, gating properties were estimated by Markov modeling. In confirmation of the descriptive analysis, inactivation rate, but none of the other transition rates, was reduced by shortening of the beta(1a) subunit N terminus. Our study shows that the length-dependent mechanism of modulating inactivation kinetics of beta(2) calcium channel subunits can be confirmed and extended to the beta(1) calcium channel subunit.

The Ca(V)3.3 calcium channel is the major sleep spindle pacemaker in thalamus.

Low-threshold (T-type) Ca(2+) channels encoded by the Ca(V)3 genes endow neurons with oscillatory properties that underlie slow waves characteristic of the non-rapid eye movement (NREM) sleep EEG. Three Ca(V)3 channel subtypes are expressed in the thalamocortical (TC) system, but their respective roles for the sleep EEG are unclear. Ca(V)3.3 protein is expressed abundantly in the nucleus reticularis thalami (nRt), an essential oscillatory burst generator. We report the characterization of a transgenic Ca(V)3.3(-/-) mouse line and demonstrate that Ca(V)3.3 channels are indispensable for nRt function and for sleep spindles, a hallmark of natural sleep. The absence of Ca(V)3.3 channels prevented oscillatory bursting in the low-frequency (4-10 Hz) range in nRt cells but spared tonic discharge. In contrast, adjacent TC neurons expressing Ca(V)3.1 channels retained low-threshold bursts. Nevertheless, the generation of synchronized thalamic network oscillations underlying sleep-spindle waves was weakened markedly because of the reduced inhibition of TC neurons via nRt cells. T currents in Ca(V)3.3(-/-) mice were <30% compared with those in WT mice, and the remaining current, carried by Ca(V)3.2 channels, generated dendritic [Ca(2+)](i) signals insufficient to provoke oscillatory bursting that arises from interplay with Ca(2+)-dependent small conductance-type 2 K(+) channels. Finally, naturally sleeping Ca(V)3.3(-/-) mice showed a selective reduction in the power density of the σ frequency band (10-12 Hz) at transitions from NREM to REM sleep, with other EEG waves remaining unaltered. Together, these data identify a central role for Ca(V)3.3 channels in the rhythmogenic properties of the sleep-spindle generator and provide a molecular target to elucidate the roles of sleep spindles for brain function and development.

Estimation of zero-sequence impedance of undergrounds cables for single-phase fault location in distribution systems with electric arc

This paper focus on the problem of locating single-phase faults in mixed distribution electric systems, with overhead lines and underground cables, using voltage and current measurements at the sending-end and sequence model of the network. Since calculating series impedance for underground cables is not as simple as in the case of overhead lines, the paper proposes a methodology to obtain an estimation of zero-sequence impedance of underground cables starting from previous single-faults occurred in the system, in which an electric arc occurred at the fault location. For this reason, the signal is previously pretreated to eliminate its peaks voltage and the analysis can be done working with a signal as close as a sinus wave as possible

Sodium channels and mammalian sensory mechanotransduction.

BACKGROUND: Members of the degenerin/epithelial (DEG/ENaC) sodium channel family are mechanosensors in C elegans, and Nav1.7 and Nav1.8 voltage-gated sodium channel knockout mice have major deficits in mechanosensation. β and γENaC sodium channel subunits are present with acid sensing ion channels (ASICs) in mammalian sensory neurons of the dorsal root ganglia (DRG). The extent to which epithelial or voltage-gated sodium channels are involved in transduction of mechanical stimuli is unclear. RESULTS: Here we show that deleting β and γENaC sodium channels in sensory neurons does not result in mechanosensory behavioural deficits. We had shown previously that Nav1.7/Nav1.8 double knockout mice have major deficits in behavioural responses to noxious mechanical pressure. However, all classes of mechanically activated currents in DRG neurons are unaffected by deletion of the two sodium channels. In contrast, the ability of Nav1.7/Nav1.8 knockout DRG neurons to generate action potentials is compromised with 50% of the small diameter sensory neurons unable to respond to electrical stimulation in vitro. CONCLUSION: Behavioural deficits in Nav1.7/Nav1.8 knockout mice reflects a failure of action potential propagation in a mechanosensitive set of sensory neurons rather than a loss of primary transduction currents. DEG/ENaC sodium channels are not mechanosensors in mouse sensory neurons.

Eddy current effects on a clinical 7T-68 cm bore scanner.

INTRODUCTION: Eddy currents induced by switching of magnetic field gradients can lead to distortions in short echo-time spectroscopy or diffusion weighted imaging. In small bore magnets, such as human head-only systems, minimization of eddy current effects is more demanding because of the proximity of the gradient coil to conducting structures. METHODS: In the present study, the eddy current behavior achievable on a recently installed 7 tesla-68 cm bore head-only magnet was characterized. RESULTS: Residual effects after compensation were shown to be on the same order of magnitude as those measured on two whole body systems (3 and 4.7 T), while using two to three fold increased gradient slewrates.

ASIC1a oligomerization structure-function of its extracellular vestibule and functional characterization of αS243Pβɣ ENaC

Quatre cristaux du canal ASIC1a ont été publiés et soutiennent une stoechiométrie trimérique. Cependant, ces données contredisant de précédentes analyses fonctionnelles effectuées sur des canaux de la même famille, notre intérêt fut porté sur l'oligomérisation d'ASIC1a. Dans ce sens, un nouvel essai couplant la méthode d'analyse par substitution de cystéines (SCAM) avec l'utilisation de réactifs sulfhydryls bifonctionnels (crosslinkers) a été mis en place. Le but étant de stabiliser, puis sélectionner les canaux fonctionnels, pour ensuite les séparer selon leur taille par SDS-PAGE. Grâce à cette technique, nous avons démontré que le complexe stabilisé a une taille coïncidant avec une organisation tétramérique. En plus de son oligomérisation, le chemin emprunté par les ions pour traverser le canal n'est pas clairement défini dans ces structures. De ce fait, utilisant une approche électrophysiologique, nous avons étudié le lien entre la structure et la fonction du vestibule extracellulaire d'ASIC1a. Dans ce but, nous nous sommes intéressés l'accessibilité de cystéines spécifiques localisées dans ce vestibule pour des réactifs méthanethiosulfonates (MTS). Ainsi, nous avons pu corréler les cinétiques de modification de ces cystéines par les MTS avec les effets sur le courant sodique, et donc avoir des informations supplémentaires sur la voie empruntée par les ions. De plus, la simulation informatique de liaison de ces réactifs illustre le remplissage total de ce vestibule. Fonctionnellement, cette interaction ne perturbe pas le passage de ions, c'est pourquoi il nous apparaît probable que le vestibule présente une taille plus large que celle illustrée par les cristaux. Dans un deuxième temps, notre intérêt fut porté sur ENaC. Ce canal est composé des trois sous-unités (a, ß et y) et est exprimé dans divers épithéliums, dont les tubules des reins. Il participe à l'homéostasie sodique et est essentiellement régulé par voie hormonale via l'aldostérone et la Vasopressine, mais également par des sérines protéases ou le Na+. Nous avons étudié la répercussion fonctionnelle de la mutation aS243P, découverte chez un nouveau-né prématuré atteint de pseudohypoaldostéronisme de type 1. Cette maladie autosomale récessive se caractérise, généralement, par une hyponatrémie liée à d'importantes pertes de sel dans les urines, une hyperkaliémie, ainsi qu'un niveau élevé d'aldostérone. Tout d'abord aucune des expériences biochimiques et électrophysiologiques n'a pu démontrer un défaut d'expression ou une forte diminution de l'activité soutenant les données cliniques. Cependant, en challengeant aS243PßyENaC avec une forte concentration de Na+ externe, une hypersensibilité de canal fut observée. En effet, ni les phénomènes régulateurs de « feedback inhibition » ou de « Na+ self-inhibition » n'étaient semblables au canal sauvage. De ce fait, ils apparaissaient exacerbés en présence de la mutation, amenant ainsi à une diminution de la réabsorption de Na+. Ceci corrobore entièrement l'hyponatrémie diagnostiquée. Le rein d'un prématuré étant immature, la quantité de Na+ atteignant la partie distale du néphron est plus élevée, du fait que les autres mécanismes de réabsorption en amont ne sont probablement pas encore en place. Cette hypothèse est renforcée par l'existence d'un frère présentant la même mutation, mais qui, né à terme, ne présentait aucun signe d'hyponatrémie. - The main topic of my thesis is the structure-function relationship of the ENaC/Deg family of ion channels, namely the Acid-Sensing Ion Channel ASIC1a and the Epithelial Na Channel ENaC. The primary part of this research is dedicated to the structure of ASIC1a. Four channel crystals have been published, which support a trimeric stoichiometry, although these data contradict previous functional experiments on other ENaC/Deg members. We are therefore interested in ASIC1a oligomerization and have set up a new assay combining the Substituted- Cysteine Accessibility Method (SCAM) with Afunctional sulfhydryl reagents (crosslinkers) allowing its study. The aim was to first stabilize the channels, then select those that are functional and then resolve them according to their size on SDS-PAGE. We demonstrated that the stabilized complex has a molecular weight corresponding to a tetrameric stoichiometry. In addition to our interest in the oligomerization of the ENaC/Deg family of ion channels, we also wanted to investigate the thus far undefined way of permeation for these channels. Therefore, taking the advantage of a more electrophysiological approach, we studied the accessibility of specific cysteines for methanethiosulfonate reagents (MTS) and were able to correlate the MTS association kinetics on cysteine residues with Na+ currents. These results have given us an insight into ion permeation and our functional evidence indicates that the extracellular is larger than that depicted by the crystal structures. As a side project, we focused on ENaC, which is made up of three subunits (a, ß and y) and is expressed in various epithelia, especially in the distal nephron of the kidneys. It plays a role in Na+ homeostasis and is essentially regulated by hormones via aldosterone and vasopressin, but also by serine proteases or Na+. We have studied the functional impact of the aS243P mutation, discovered in a premature baby suffering from pseudohypoaldosteronism of type 1. This autosomal recessive disease is characterized by hyponatremia, hyperkalemia and high aldosterone levels. Firstly, neither biochemical nor electrophysiological experiments indicated an expression defect or a strong decrease in activity. However, challenging aS243PßyENaC with increased external Na+ concentration showed channel hypersensitivity. Indeed, both the "feedback inhibition" and the "Na+ self-inhibition" regulatory mechanisms are impaired, leading to a decrease in Na+ reabsorption, entirely supports the diagnosis. The kidneys in preterm infants are immature and Na+ levels reaching the distal nephron are higher than normally observed. We hypothesize that the upstream reabsorption machinery is unlikely to be sufficiently matured and this assumption is supported by an asymptomatic sibling carrying the same mutation, but born at term. - La cellule, unité fonctionnelle du corps humain, est délimitée par une membrane plasmique servant de barrière biologique entre les milieux intra et extracellulaires. Une communication entre cellules est indispensable pour un fonctionnement adéquat. Sa survie dépend, entre autres, du maintien de la teneur en ions dans chacun des milieux qui doivent pouvoir être réabsorbés, ou sécrétés, selon les besoins. Les protéines insérées dans la membrane forment un canal et sont un moyen de communication permettant spécifiquement à des ions tel que le sodium (Na+) de traverser. Le Na+ se trouve dans la plupart des aliments et le sel, et est spécifiquement réabsorbé au niveau des reins grâce au canal sodique épithélial ENaC. Cette réabsorption se fait de l'urine primaire vers l'intérieur de la cellule, puis est transporté vers le sang. Pour maintenir un équilibre, une régulation de ce canal est nécessaire. En effet, des dysfonctionnements impliquant la régulation ou l'activité d'ENaC lui-même sont à l'origine de maladies telles que la mucoviscidose, l'hypertension ou encore, le pseudohypoaldostéronisme (PHA). Cette maladie est caractérisée, notamment, par d'importantes pertes de sel dans les urines. Des pédiatres ont diagnostiqué un PHA chez un nouveau-né, ce dernier présentant une modification du canal ENaC, nous avons recréé cette protéine afin d'étudier l'impact de ce changement sur son activité. Nous avons démontré que la régulation d'ENaC était effectivement perturbée, conduisant ainsi à une forte réduction de la réabsorption sodique. Afin de développer des molécules capables de moduler l'activité de protéines. Il est nécessaire d'en connaître la structure. Celle du canal sodique sensible à l'acidification ASIC1, un canal cousin d'ENaC, est connue. Ces données structurales contredisant cependant les analyses fonctionnelles, nous nous sommes penchés une nouvelle fois sur ASIC1. Une protéine est une macromolécule biologique composée d'une chaîne d'acides aminés (aa). De l'enchaînement d'aa à la protéine fonctionnelle, quatre niveaux de structuration existent. Chaque aa donne une indication quant au repliement et plus particulièrement la cystéine. Arborant un groupe sulfhydryle (SH) capable de former une liaison spécifique et stable avec un autre SH, celle-ci est souvent impliquée dans la structure tridimensionnelle de la protéine. Ce type de liaison intervient également dans la stabilisation de la structure quaternaire, qui est l'association de plusieurs protéines identiques (homomère), ou pas (hétéromère). Dans cette partie, nous avons remplacé des aa par des cystéines à des endroits spécifiques. Le but était de stabiliser plusieurs homomères d'ASICl ensemble avec des réactifs créant des ponts entre deux SH. Ainsi, nous avons pu déterminer le nombre de protéines ASIC1 participant à la formation d'un canal fonctionnel. Nos résultats corroborent les données fonctionnelles soutenant un canal tétramérique. Nous avons également étudié l'accessibilité de ces nouvelles cystéines afin d'obtenir des informations supplémentaires sur la structure du chemin emprunté par le Na+ à travers ASIC1 et plus particulièrement du vestibule extracellulaire.

Functional expression of a pseudohypoaldosteronism type I mutated epithelial Na+ channel lacking the pore-forming region of its alpha subunit.

The autosomal recessive form of type I pseudohypoaldosteronism (PHA-I) is an inherited salt-losing syndrome resulting from diminution-of-function mutations in the 3 subunits of the epithelial Na+ channel (ENaC). A PHA-I stop mutation (alpha(R508stop)) of the ENaC alpha subunit is predicted to lack the second transmembrane domain and the intracellular COOH-terminus, regions of the protein involved in pore function. Nonetheless, we observed a measurable Na+ current in Xenopus laevis oocytes that coexpress the beta and gamma subunits with the truncated alpha subunit. The mutant alpha was coassembled with beta and gamma subunits and was present at the cell surface at a lower density, consistent with the lower Na+ current seen in oocytes with the truncated alpha subunit. The single-channel Na+ conductance for the mutant channel was only slightly decreased, and the appearance of the macroscopic currents was delayed by 48 hours with respect to wild-type. Our data suggest novel roles for the alpha subunit in the assembly and targeting of an active channel to the cell surface, and suggest that channel pores consisting of only the beta and gamma subunits can provide significant residual activity. This activity may be sufficient to explain the absence of a severe pulmonary phenotype in patients with PHA-I.