Glucose transporter-1 deficiency syndrome: the expanding clinical and genetic spectrum of a treatable disorder.

Glucose transporter-1 deficiency syndrome is caused by mutations in the SLC2A1 gene in the majority of patients and results in impaired glucose transport into the brain. From 2004-2008, 132 requests for mutational analysis of the SLC2A1 gene were studied by automated Sanger sequencing and multiplex ligation-dependent probe amplification. Mutations in the SLC2A1 gene were detected in 54 patients (41%) and subsequently in three clinically affected family members. In these 57 patients we identified 49 different mutations, including six multiple exon deletions, six known mutations and 37 novel mutations (13 missense, five nonsense, 13 frame shift, four splice site and two translation initiation mutations). Clinical data were retrospectively collected from referring physicians by means of a questionnaire. Three different phenotypes were recognized: (i) the classical phenotype (84%), subdivided into early-onset (<2 years) (65%) and late-onset (18%); (ii) a non-classical phenotype, with mental retardation and movement disorder, without epilepsy (15%); and (iii) one adult case of glucose transporter-1 deficiency syndrome with minimal symptoms. Recognizing glucose transporter-1 deficiency syndrome is important, since a ketogenic diet was effective in most of the patients with epilepsy (86%) and also reduced movement disorders in 48% of the patients with a classical phenotype and 71% of the patients with a non-classical phenotype. The average delay in diagnosing classical glucose transporter-1 deficiency syndrome was 6.6 years (range 1 month-16 years). Cerebrospinal fluid glucose was below 2.5 mmol/l (range 0.9-2.4 mmol/l) in all patients and cerebrospinal fluid : blood glucose ratio was below 0.50 in all but one patient (range 0.19-0.52). Cerebrospinal fluid lactate was low to normal in all patients. Our relatively large series of 57 patients with glucose transporter-1 deficiency syndrome allowed us to identify correlations between genotype, phenotype and biochemical data. Type of mutation was related to the severity of mental retardation and the presence of complex movement disorders. Cerebrospinal fluid : blood glucose ratio was related to type of mutation and phenotype. In conclusion, a substantial number of the patients with glucose transporter-1 deficiency syndrome do not have epilepsy. Our study demonstrates that a lumbar puncture provides the diagnostic clue to glucose transporter-1 deficiency syndrome and can thereby dramatically reduce diagnostic delay to allow early start of the ketogenic diet.

Functional late outgrowth endothelial progenitors isolated from peripheral blood of burned patients.

BACKGROUND: Bioengineered skin substitutes are increasingly considered as a useful option for the treatment of full thickness burn injury. Their viability following grafting can be enhanced by seeding the skin substitute with late outgrowth endothelial progenitor cells (EPCs). However, it is not known whether autologous EPCs can be obtained from burned patients shortly after injury. METHODS: Late outgrowth EPCs were isolated from peripheral blood sampled obtained from 10 burned patients (extent 19.6±10.3% TBSA) within the first 24h of hospital admission, and from 7 healthy subjects. Late outgrowth EPCs were phenotyped in vitro. RESULTS: In comparison with similar cells obtained from healthy subjects, growing colonies from burned patients yielded a higher percentage of EPC clones (46 versus 17%, p=0.013). Furthermore, EPCs from burned patients secreted more vascular endothelial growth factor (VEGF) into the culture medium than did their counterparts from healthy subjects (85.8±56.2 versus 17.6±14pg/mg protein, p=0.018). When injected to athymic nude mice 6h after unilateral ligation of the femoral artery, EPCs from both groups of subjects greatly accelerated the reperfusion of the ischaemic hindlimb and increased the number of vascular smooth muscle cells. CONCLUSIONS: The present study supports that, in patients with burns of moderate extension, it is feasible to obtain functional autologous late outgrowth EPCs from peripheral blood. These results constitute a strong incentive to pursue approaches based on using autotransplantation of these cells to improve the therapy of full thickness burns.

Linking epigenetics to lipid metabolism: focus on histone deacetylases.

A number of recent studies revealed that epigenetic modifications play a central role in the regulation of lipid and of other metabolic pathways such as cholesterol homeostasis, bile acid synthesis, glucose and energy metabolism. Epigenetics refers to aspects of genome functions regulated in a DNA sequence-independent fashion. Chromatin structure is controlled by epigenetic mechanisms through DNA methylation and histone modifications. The main modifications are histone acetylation and deacetylation on specific lysine residues operated by two different classes of enzymes: Histone acetyltransferases (HATs) and histone deacetylases (HDACs), respectively. The interaction between these enzymes and histones can activate or repress gene transcription: Histone acetylation opens and activates chromatin, while deacetylation of histones and DNA methylation compact chromatin making it transcriptionally silent. The new evidences on the importance of HDACs in the regulation of lipid and other metabolic pathways will open new perspectives in the comprehension of the pathophysiology of metabolic disorders.

Etude d'administration contrôlée de cannabis et profils cinétiques des cannabinoïdes dans les fluides biologiques

Le cannabis est l'une des drogues illégales les plus consommées au monde. Le delta-9- tétrahydrocannabinol (THC) est le composé psychoactif majeur du cannabis et est fréquemment détecté dans le sang de conducteurs impliqués dans un accident de la route, alors qu'il est actuellement interdit de conduire sous l'influence du THC en Suisse comme dans de nombreux pays européens. La détection de ce composé dans le sang est suivie d'une série de mesures pénales et administratives à l'encontre du conducteur impliqué. Cette thèse intitulée « Etude d'administration contrôlée de cannabis et profils cinétiques dans les fluides biologiques » s'inscrit dans une étude toxicologique menée au Centre Hospitalier Universitaire Vaudois (CHUV). Le but de cette étude est d'évaluer les effets du cannabis sur le fonctionnement du cerveau lorsque le consommateur accompli une tâche fondamentale de la conduite automobile. Pour cela, l'imagerie médicale par résonnance magnétique fonctionnelle (IRMf) est combinée à un test informatisé simulant une tâche psychomotrice requise pour une conduite automobile sûre. Il s'agit d'un test de double tâche de poursuite d'une cible au moyen d'un curseur dirigé par un joystick, combiné à une tâche secondaire de détection de signaux routiers. Parallèlement, les profils cinétiques sanguins et salivaires des volontaires ont été déterminés grâce à des prélèvements effectués tout au long de la journée d'étude. Les objectifs principaux de ce travail de thèse sont les suivants : après une revue de la littérature existante sur les techniques d'analyse des cannabinoïdes dans les fluides biologiques, une méthode a été développée et validée pour ces composés dans la salive puis appliquée aux échantillons de l'étude. En parallèle, les échantillons sanguins et urinaires ont été analysés, en partie avec une méthode adaptée de celle développée pour la salive. Pour montrer la versatilité de cette méthode, celle-ci a été employée pour analyser des échantillons de bile qui a l'avantage de contenir des concentrations élevées de métabolites conjugués. Dans un deuxième temps, les dosages effectués sur le sang et la salive ont permis d'établir les profils cinétiques des cannabinoïdes, de déterminer leurs paramètres pharmacocinétiques et de les comparer. Les données obtenues ont montré que la concentration sanguine en acide 11-nor-9- carboxy-delta-9-tétrahydrocannabinol (THCCOOH) pouvait servir à distinguer les fumeurs occasionnels des fumeurs réguliers de cannabis, car elle est significativement plus élevée chez les consommateurs réguliers. De plus, d'autres cannabinoïdes présents dans la salive pourraient servir de marqueurs de consommation récente dans ce fluide biologique. Enfin, que ce soit dans le sang, la salive ou l'urine, des phytocannabinoïdes peuvent être utilisés comme marqueur de consommation de cannabis illégal car ils sont absents des médicaments à base de cannabis utilisant des préparations synthétiques ou purifiées du THC.

Potential value of biliary CEA assay in early detection of colorectal adenocarcinoma liver metastases.

Elevation of the biliary CEA level in patients with liver metastases from colorectal carcinoma has been reported. The aim of this study is to determine the potential value of biliary CEA assay in the early detection of liver metastases. Biliary and serum CEA levels were determined in patients operated on for a colorectal cancer and in control groups. Among 13 patients with liver metastases from colorectal carcinomas, biliary CEA levels were markedly elevated (> 40 ng/ml) in nine, moderately elevated (5-40 ng/ml) in two and normal (arbitrarily defined as < 5 ng/ml) in two. Of 28 patients with primary colorectal carcinoma without detectable hepatic secondaries, three had marked CEA elevation in the bile, 10 had moderate CEA elevation and 15 had normal levels. Among nine patients with non-malignant hepatobiliary pathology, there was one marked biliary CEA elevation, one moderate elevation and seven normal levels. None of the 13 individuals with no identified hepatobiliary pathology had elevated biliary CEA levels. The follow-up of patients with a primary colorectal tumour, no evidence of hepatic secondaries and a biliary CEA elevation is of particular interest. If subsequent appearance of liver metastases is found in such cases, intra-operative biliary CEA assay could be considered a valuable diagnostic test. Further studies will then have to prove the possible benefit of a specific treatment for this group of patients.

Functional late outgrowth endothelial progenitors isolated from peripheral blood of burned patients.

BACKGROUND: Bioengineered skin substitutes are increasingly considered as a useful option for the treatment of full thickness burn injury. Their viability following grafting can be enhanced by seeding the skin substitute with late outgrowth endothelial progenitor cells (EPCs). However, it is not known whether autologous EPCs can be obtained from burned patients shortly after injury. METHODS: Late outgrowth EPCs were isolated from peripheral blood sampled obtained from 10 burned patients (extent 19.6±10.3% TBSA) within the first 24h of hospital admission, and from 7 healthy subjects. Late outgrowth EPCs were phenotyped in vitro. RESULTS: In comparison with similar cells obtained from healthy subjects, growing colonies from burned patients yielded a higher percentage of EPC clones (46 versus 17%, p=0.013). Furthermore, EPCs from burned patients secreted more vascular endothelial growth factor (VEGF) into the culture medium than did their counterparts from healthy subjects (85.8±56.2 versus 17.6±14pg/mg protein, p=0.018). When injected to athymic nude mice 6h after unilateral ligation of the femoral artery, EPCs from both groups of subjects greatly accelerated the reperfusion of the ischaemic hindlimb and increased the number of vascular smooth muscle cells. CONCLUSIONS: The present study supports that, in patients with burns of moderate extension, it is feasible to obtain functional autologous late outgrowth EPCs from peripheral blood. These results constitute a strong incentive to pursue approaches based on using autotransplantation of these cells to improve the therapy of full thickness burns.

A fatal overdose of cocaine associated with coingestion of marijuana, buprenorphine, and fluoxetine. Body fluid and tissue distribution of cocaine and its metabolites determined by hydrophilic interaction chromatography-mass spectrometry(HILIC-MS).

Chromatographic separation of highly polar basic drugs with ideal ionspray mass spectrometry volatile mobile phases is a difficult challenge. A new quantification procedure was developed using hydrophilic interaction chromatography-mass spectrometry with turbo-ionspray ionization in the positive mode. After addition of deuterated internal standards and simple clean-up liquid extraction, the dried extracts were reconstituted in 500 microL pure acetonitrile and 5 microL was directly injected onto a Waters Atlantis HILIC 150- x 2.1-mm, 3-microm column. Chromatographic separations of cocaine, seven metabolites, and anhydroecgonine were obtained by linear gradient-elution with decreasing high concentrations of acetonitrile (80-56% in 18 min). This high proportion of organic solvent makes it easier to be coupled with MS. The eluent was buffered with 2 mM ammonium acetate at pH 4.5. Except for m-hydroxy-benzoylecgonine, the within-day and between-day precisions at 20, 100, and 500 ng/mL were below 7 and 19.1%, respectively. Accuracy was also below +/- 13.5% at all tested concentrations. The limit of quantification was 5 ng/mL (%Diff < 16.1, %RSD < 4.3) and the limit of detection below 0.5 ng/mL. This method was successfully applied to a fatal overdose. In Switzerland, cocaine abuse has dramatically increased in the last few years. A 45-year-old man, a known HIV-positive drug user, was found dead at home. According to relatives, cocaine was self-injected about 10 times during the evening before death. A low amount of cocaine (0.45 mg) was detected in the bloody fluid taken from a syringe discovered near the corpse. Besides injection marks, no significant lesions were detected during the forensic autopsy. Toxicological investigations showed high cocaine concentrations in all body fluids and tissues. The peripheral blood concentrations of cocaine, benzoylecgonine, and methylecgonine were 5.0, 10.4, and 4.1 mg/L, respectively. The brain concentrations of cocaine, benzoylecgonine, and methylecgonine were 21.2, 3.8, and 3.3 mg/kg, respectively. The highest concentrations of norcocaine (about 1 mg/L) were measured in bile and urine. Very high levels of cocaine were determined in hair (160 ng/mg), indicating chronic cocaine use. A low concentration of anhydroecgonine methylester was also found in urine (0.65 mg/L) suggesting recent cocaine inhalation. Therapeutic blood concentrations of fluoxetine (0.15 mg/L) and buprenorphine (0.1 microg/L) were also discovered. A relatively high concentration of Delta(9)-THC was measured both in peripheral blood (8.2 microg/L) and brain cortex (13.5 microg/kg), suggesting that the victim was under the influence of cannabis at the time of death. In addition, fluoxetine might have enhanced the toxic effects of cocaine because of its weak pro-arrhythmogenic properties. Likewise, combination of cannabinoids and cocaine might have increase detrimental cardiovascular effects. Altogether, these results indicate a lethal cocaine overdose with a minor contribution of fluoxetine and cannabinoids.

Regulation of the vascular gap junctions in a mouse model of intimal hyperplasia

Objective: Intimal hyperplasia (IH) is one of the leading causes of failure¦after vascular interventions. It involves the proliferation of smooth muscle¦cells (SMCs) and the production of extracellular fibrous matrix. Gap junctional¦communication, mediated by membrane connexins (Cx), participates to the¦control of proliferation and migration. In human and mice vessels, endothelial¦cells (ECs) express Cx37, Cx40 and Cx43, whereas SMCs are coupled by Cx43.¦We previously reported that Cx43 was increased in the SMCs of a human vein¦during the development of IH.¦In our experimental model of mice carotid artery ligation (CAL), luminal¦narrowing occurred by SMCs-rich neointima after 2-4 weeks of ligation.¦This experimental model of mice allows us to decipher the regulation of the¦cardiovascular connexins in the mouse.¦Methods: C57BL/6 mice were anesthetized and the left common carotid artery¦was dissected through a neck incision and ligated near the carotid bifurcation.¦The mice were then euthanized at 7, 14 and 28 days. Morphometric analyses¦were then performed with measurements of total area, lumen and intimal area¦and media thickness. Western blots, immunocytochemistry and quantitative¦RT-PCR were performed for Cx43, Cx40 and Cx37.¦Results: All animals recovered with no symptom of stroke. Morphometric¦analysis demonstrated that carotid ligation resulted in an initial increase (after¦7 days) of the total vessel area followed by its reduction (after 28 days). This¦phenomena was associated with a progressive increase in the intimal area and a¦consecutive decrease of the lumen. The media thickness was also increased after¦14 and 28 days. This neointima formation was associated to a marked increase¦in the expression of Cx43 at both protein and RNA levels. Concomitantly,¦Cx40 and Cx37 protein expression were reduced in the endothelium. This was¦confirmed by en face analyses showing reduced Cx37 and Cx40 levels in the¦endothelial cells covering the lesion.¦Conclusion: This study assessed the regulation of the cardiovascular connexins¦in the development of IH. This model will allow us to characterize the¦involvement of gap junctions in the IH. In turn, this understanding is¦instrumental for the development of new therapeutical tools, as well as for¦the evaluation of the effects of drugs and gene therapies of this disease for which¦there is no efficient therapy available.

Rapid Site-Directed Mutagenesis Using Two-PCR-Generated DNA Fragments Reproducing the Plasmid Template.

We describe a new rapid and efficient polymerase chain reaction (PCR)-based site-directed mutagenesis method. This procedure is effective with any plasmid and it employs four oligonucleotide primers. One primer contains the desired mutation, the second is oriented in the opposite direction (one of these two primers should be phosphorylated), and the third and fourth should be coding in complementary fashion for a unique restriction site to be introduced in a nonessential region. The method consists of two simultaneous PCR reactions; the PCR products are digested with the enzyme that recognizes the newly introduced unique restriction site and then ligased and used to transform competent bacteria. Additionally, the use of Dpn I facilitates the elimination of template DNA. The newly introduced restriction site is essential for ligation in the correct orientation of the two-PCR products and is further used for mutant screening. Resulting plasmids carry both the new restriction site and the desired mutation. Using this method, more than 20 mutants have already been generated (using two different kinds of templates); all these mutants were sequenced for the desired mutation and transfected into AtT-20 cells and the expressed mutant proteins encoded by the vector were assayed.

The role of circadian timing system on drug metabolism and detoxification.

INTRODUCTION: It has been known for a long time that the efficiency and toxicity of drugs change during a 24-h period. However, the molecular mechanisms involved in these processes have started to emerge only recently. AREAS COVERED: This review aims to highlight recent discoveries showing the direct role of the molecular circadian clock in xenobiotic metabolism at the transcriptional and post-transcriptional levels in the liver and intestine, and the different ways of elimination of these metabolized drugs via biliary and urine excretions. Most of the related literature focuses on transcriptional regulation by the circadian clock of xenobiotic metabolism in the liver; however, the role of this timing system in the excretion of metabolized drugs and the importance of the kidney in this phenomenon are generally neglected. The goal of this review is to describe the molecular mechanisms involved in rhythmic drug metabolism and excretion. EXPERT OPINION: Chronopharmacology is used to analyze the metabolism of drugs in mammals according to the time of day. The circadian timing system plays a key role in the changes of toxicity of drugs by influencing their metabolisms in the liver and intestine in addition to their excretion via bile flow and urine.

13q deletion syndrome and retinoblastoma in identical dichorionic diamniotic monozygotic twins.

PURPOSE: To report the case of identical dichorionic diamniotic female twins with unilateral retinoblastoma in 13q deletion syndrome. METHODS: Clinical and ophthalmoscopic evaluation, combination of multiple ligation-dependent probe amplification, array-comparative genomic hybridization analyses, and magnetic resonance imaging were performed. RESULTS: Peculiar facial features, marked hypotonia, gastroesophageal reflux, interatrial septal defect with left to right shunt and light dilatation of right chambers, 5th finger hypoplasia, 3rd-5th toes clinodactyly, 2nd toe overlapped to 3rd toe, and cutis marmorata were found. Ophthalmoscopic evaluation revealed unilateral retinoblastoma in both girls. Magnetic resonance imaging detected corpus callosum hypoplasia in both twins. A 34.4-Mb deletion involving bands 13q13.2-q21.33 and including the RB1 gene was identified in both twins. The deletion was not present in the DNA of their parents and older brother. CONCLUSIONS: Dysmorphic features in children must be always suspicious of 13q deletion syndrome and a short ophthalmoscopic follow-up is necessary to detect the presence of a retinoblastoma.

CpG-ODN-induced sustained expression of BTLA mediating selective inhibition of human B cells.

BTLA (B- and T-lymphocyte attenuator) is a prominent co-receptor that is structurally and functionally related to CTLA-4 and PD-1. In T cells, BTLA inhibits TCR-mediated activation. In B cells, roles and functions of BTLA are still poorly understood and have never been studied in the context of B cells activated by CpG via TLR9. In this study, we evaluated the expression of BTLA depending on activation and differentiation of human B cell subsets in peripheral blood and lymph nodes. Stimulation with CpG upregulated BTLA, but not its ligand: herpes virus entry mediator (HVEM), on B cells in vitro and sustained its expression in vivo in melanoma patients after vaccination. Upon ligation with HVEM, BTLA inhibited CpG-mediated B cell functions (proliferation, cytokine production, and upregulation of co-stimulatory molecules), which was reversed by blocking BTLA/HVEM interactions. Interestingly, chemokine secretion (IL-8 and MIP1β) was not affected by BTLA/HVEM ligation, suggesting that BTLA-mediated inhibition is selective for some but not all B cell functions. We conclude that BTLA is an important immune checkpoint for B cells, as similarly known for T cells.

Analyse fonctionnelle et moléculaire d'un nouveau gène (VIT32) impliqué dans le mécanisme d'action de la vasopressine

Résumé Les mécanismes de régulation de la réabsorption fine du sodium dans la partie distale (tube distal et tube collecteur) du néphron ont un rôle essentiel dans le maintien de l'homéostasie de la composition ionique et du volume des fluides extracellulaires. Ces mécanismes permettent le maintien de la pression sanguine. Dans la cellule principale du tube collecteur cortical (CCD), le taux de réabsorption de sodium dépend essentiellement de l'activité du canal épithélial à sodium (ENaC) à la membrane apicale et de la pompe sodium-potassium-adénosine-triphosphatase (Na+-K±ATPase) à la membrane basolatérale. L'activité de ces deux molécules de transport est en partie régulée par des hormones dont l'aldostérone, la vasopressine et l'insuline. Dans les cellules principales de CCD, la vasopressine régule le transport de sodium en deux étapes : une étape précoce dite « non-génomique » et une étape tardive dite « génotnique ». Durant l'étape précoce, la vasopressine régule l'expression de gènes, dont certains peuvent être impliqués dans le transport de sodium, comme ENaC et la Na+ -K+ATP ase. Le but de mon travail a été d'étudier l'implication d'une protéine appelée VIP32 (vasopressin induced protein : VIP) dans le transport de sodium. L'expression de VIP32 est augmentée par la vasopressine dans les cellules principales de CCD. Dans l'ovocyte de Xenopus laevis utilisé comme système d'expression hétérologue, nous avons montré que l'expression de VIP32 provoque la maturation méiotique de l'ovocyte par l'activation de la voie des MAPK (mitogen-activated protein kinase : MAPK) et du facteur de promotion méiotique (MPF). La co-expression d'ENaC et de VIP32 diminue l'activité d'ENaC de façon sélective, par l'activation de la voie des MAPK, sans affecter l'expression du canal à la surface membranaire. Nous avons également montré que la régulation de l'activité d'ENaC par la voie des MAPK est dépendante du mécanisme de régulation d'ENaC lié à un motif du canal appelé PY. Ce motif est impliqué dans le contrôle de la probabilité d'ouverture ainsi que l'expression à la surface membranaire d'ENaC. Dans les cellules principales, VIP32 par l'activation de la voie des MAPK peut être impliqué dans la régulation négative du transport transépithélial qui a lieu après plusieurs heures de traitement à la vasopressine. Le tube collecteur de reins normaux présente un taux basal significatif d'activité de la voie MAPK MEK1/2-ERK1/2. Dans la lignée mpkCCDc14 de cellules principales de CCD de souris, que nous avons utilisé pour cette partie du travail, nous avons montré la présence d'un taux basal d'activité d'ERK1/2 (pERK1/2). L'aldostérone et la vasopressine, connus pour stimuler le courant sodique transépithélial dans le CCD, ne changeaient pas le taux basal de pERK1/2. Le transport de sodium transépithélial basal, ou stimulé par l'aldostérone ou la vasopressine est diminué par l'effet de PD98059, un inhibiteur de MEK1/2 qui diminue parallèlement le taux de pERK1/2. Nous avons également montré dans des cellules non stimulées, ou stimulées par de l'aldostérone ou de la vasopressine, que l'activité de la Na+-K+ ATPase, mais pas celle d'ENaC est inhibée par des traitements avec différents inhibiteurs de MEK1/2. Par un marquage de la Na±-K+ATPase à la surface membranaire nous avons montré que la voie d'ERK1/2 contrôle l'activité intrinsèque de la Na+-K+ ATPase, plutôt que son expression à la surface membranaire. Ces données ont montré que l'activité de la Na+-K+ATPase et le transport transépithélial de sodium sont contrôlés par l'activité basal et constitutive de la voie d'ERK1/2. Summary The regulation of sodium reabsorption in the distal nephron (distal tubule and cortical collecting duct) in the kidney plays an essential role in the control of extracellular fluids composition and volume, and thereby blood pressure. In the principal cell of the collecting duct (CCD), the level of sodium reabsorption mainlly depends on the activity of both epithlial sodium channel (ENaC) and sodium-potassium-adenosine-triphosphatase (Na+-K+ATPase). The activity of these two transporters is regulated by hormones especially aldosterone, vasopressin and insuline.In the principal cell of the CCD, vasopressin regulates sodium transport via a short-term effect and a late genomic effect. During the genomic effect vasopressin activates a complex network of vasopressin-dependent genes involved in the regulation of sodium transport as ENaC and Na+-K+ATPase. We were interested in the role of a recently identified vasopressin induced protein (VIP32) and its implication in the regulation of sodium transport in principal cell of the CCD. The Xenopus oocyte expression system revealed two functions : expressed alone VIP32 rapidly induces oocyte meiotic maturation through the activation of the mitogen-activated protein kinase (MAPK) pathway and the meiotic promoting factor and when co-expressed with ENaC, V1P32 selectively dowrn-egulates channel activity, but not channel cell surface expression. We have shown that the ENaC downregulation mediated by the activation of the MAPK pathway is related to the PY motif of ENaC. This motif is implicated in ENaC cell surface expression and open probability regulation. In the kidney principal cell, VIP32 through the activation of MAPK pathway may be involved in the downregulation of transepithelial sodium transport observed within a few hours after vasopressin treatment. The collecting duct of normal kidney exhibits significant activity of the MEK1/2-ERK1/2 MAPK pathway. Using in vitro cultured mpkCCDc14 principal cells we have shown a significant basal level of ERK1/2 activity (pERK1/2). Aldosterone and vasopressin, known to upregulate sodium reabsorption in CCDs, did not change ERK1/2 activity. Basal and aldosterone- or vasopressin-stimulated sodium transport were downregulated by the MEK1/2 inhibitor PD98059 in parallel with a decrease in pERK1/2 in vitro. The activity of Na+-K+ATPase but not that of ENaC was inhibited by MEK1/2 inhibitors in both, unstimulated and aldosterone- or vasopressin-stimulated CCDs in vitro. Cell surface labelling showed that intrinsic activity rather than cell surface expression of Na+-K+ATPase was controlled by pERK1/2. Our data demonstrate that basal constitutive activity of ERK1/2 pathway controls Na+-K+ATPase activity and transepithelial sodium transport in the principal cell. Résumé tout public Les mécanismes de régulation de la réabsorption fine du sodium dans la partie distale du néphron (l'unité fonctionnelle du rein) ont un rôle essentiel dans le maintien de l'homéostasie de la composition et du volume des fluides extracellulaires. Ces mécanismes permettent de maintenir une pression sanguine effective. Dans les cellules principales du tube collecteur, une région spécifique du néphron distal, le transport de sodium dépend essentiellement de l'activité de deux transporteurs de sodium : le canal épithélial à sodium (ENaC) et la pompe sodium-potassium-adénosine-triphosphatase (Na+-K+ATPase). Afin de répondre aux besoins de l'organisme, l'activité de ces deux molécules de transport est en partie régulée par des hormones dont l'aldostérone, la vasopressine et l'insuline. Dans les cellules principales du tube collecteur, la vasopressine régule le transport de sodium en deux étapes : une étape rapide et une étape lente dite « génomique ». Durant l'étape lente, la vasopressine régule l'expression de gènes pouvant être impliqués dans le transport de sodium, dont notamment ceux d'ENaC et de la Na+-K+ATPase. Parmi les gènes dont l'expression est augmentée par la vasopressine, celui de VIP32 (vasopressin induced protein : VIP) fait l'objet de cette étude. Le but de mon travail a été d'étudier, dans un système d'expression hétérologue (l'ovocyte de Xenopus leavis), l'implication de VIP32 dans le transport de sodium. Nous avons montré que VIP32 est capable d'activer un mécanisme moléculaire en cascade appelé MAPK (mitogen-activated protein kinase : MAPK) et est aussi capable de diminuer l'activité d'ENaC. Parallèlement, dans une lignée de cellules principales de tube collecteur les mpkCCDc14, nous avons montré que le taux basal d'activité de la cascade MAPK est capable de réguler l'activité de la Na+-K+ATPase, tandis qu'il n'influence pas l'activité d'ENaC.

Exploring the mechanisms regulating nutrient bioavailability and lipid metabolism through a nutrigenomics approach

SUMMARY Following the complete sequencing of the human genome, the field of nutrition has begun utilizing this vast quantity of information to comprehensively explore the interactions between diet and genes. This approach, coined nutrigenomics, aims to determine the influence of common dietary ingredients on the genome, and attempts to relate the resulting different phenotypes to differences in the cellular and/or genetic response of the biological system. However, complementary to defining the biological outcomes of dietary ingredients, we must also understand the influence of the multiple factors (such as the microbiota, bile, and function of transporters) that may contribute to the bioavailability, and ultimately bioefficacy, of these ingredients. The gastrointestinal tract (GIT) is the body's foremost tissue boundary, interacting with nutrients, exogenous compounds and microbiota, and whose condition is influenced by the complex interplay between these environmental factors and genetic elements. In order to understand GIT nutrient-gene interactions, our goal was to comprehensively elucidate the region-specific gene expression underlying intestinal functions. We found important regional differences in the expression of members of the ATP-binding cassette family of transporters in the mouse intestine, suggesting that absorption of dietary compounds may vary along the GIT. Furthermore, the influence of the microbiota on host gene expression indicated that this luminal factor predominantly influences immune function and water transport throughout the GIT; however, the identification of region-specific functions suggest distinct host-bacterial interactions along the GIT. Thus, these findings reinforce that to understand nutrient bioavailability and GIT function, one must consider the physiologically distinct regions of the gut. Nutritional molecules absorbed by the enterocytes of the GIT enter circulation and will be selectively absorbed and metabolised by tissues throughout the body; however, their bioefficacy in the body will depend on the unique and shared molecular mechanisms of the various tissues. Using a nutrigenomic approach, the biological responses of the liver and hippocampus of mice fed different long chain-polyunsaturated fatty acids diets revealed tissue-specific responses. Furthermore, we identified stearoyl-CoA desaturase as a hepatic target for arachidonic acid, suggesting a potentially novel molecular mechanism that may protect against diet-induced obesity. In summary, this work begins to unveil the fundamentally important role that nutrigenomics will play in unravelling the molecular mechanisms, and those exogenous factors capable of influencing these mechanisms, that regulate the bioefficacy of nutritional molecules. RÉSUMÉ Suite au séquençage complet du génome humain, le domaine de la nutrition a commencé à utiliser cette vaste quantité d'information pour explorer de manière globale les interactions entre la nourriture et les gènes. Cette approche, appelée « nutrigenomics », a pour but de déterminer l'influence d'ingrédients couramment utilisés dans l'alimentation sur le génome, et d'essayer de relier ces différents phénotypes, ainsi révélés, à des différences de réponses cellulaires et/ou génétiques. Cependant, en plus de définir les effets biologiques d'ingrédients alimentaires, il est important de comprendre l'influence des multiples facteurs (telle que la microflore, la bile et la fonction des transporteurs) pouvant contribuer à la bio- disponibilité et par conséquent à l'efficacité de ces ingrédients. Le tractus gastro-intestinal (TGI), qui est la première barrière vers les tissus, interagit avec les nutriments, les composés exogènes et la microflore. La fonction de cet organe est influencée par les interactions complexes entre les facteurs environnementaux et les éléments génétiques. Dans le but de comprendre les interactions entre les nutriments et les gènes au niveau du TGI, notre objectif a été de décrire de manière globale l'expression génique spécifique de chaque région de l'intestin définissant leurs fonctions. Nous avons trouvé d'importantes différences régionales dans l'expression des transporteurs de la famille des « ATP-binding cassette transporter » dans l'intestin de souris, suggérant que l'absorption des composés alimentaires puisse varier le long de l'intestin. De plus, l'étude des effets de la microflore sur l'expression des gènes hôtes a indiqué que ce facteur de la lumière intestinale influence surtout la fonction immunitaire et le transport de l'eau à travers l'intestin. Cependant, l'identification des fonctions spécifiques de chaque région suggère des interactions distinctes entre l'hôte et les bactéries le long de l'intestin. Ainsi, ces résultats renforcent l'idée que la compréhension de la bio-disponibilité des nutriments, et par conséquent la fonction du TGI, doit prendre en considération les différences régionales. Les molécules nutritionnelles transportées par les entérocytes jusqu'à la circulation sanguine, sont ensuite sélectivement absorbées et métabolisées par les différents tissus de l'organisme. Cependant, leur efficacité biologique dépendra du mécanisme commun ou spécifique de chaque tissu. En utilisant une approche « nutriogenomics », nous avons pu mettre en évidence les réponses biologiques spécifiques du foie et de l'hippocampe de souris nourris avec des régimes supplémentés avec différents acides gras poly-insaturés à chaîne longue. De plus, nous avons identifié la stearoyl-CoA desaturase comme une cible hépatique pour l'acide arachidonique, suggérant un nouveau mécanisme moléculaire pouvant potentiellement protéger contre le développement de l'obésité. En résumé, ce travail a permis de dévoiler le rôle fondamental qu'une approche telle que la « nutrigenomics » peut jouer dans le décryptage des mécanismes moléculaires et de leur régulation par des facteurs exogènes, qui ensemble vont contrôler l'efficacité biologique des nutriments.

Epithelial Na+ channel mutants causing Liddle's syndrome retain ability to respond to aldosterone and vasopressin.

Liddle's syndrome is a monogenic form of hypertension caused by mutations in the PY motif of the COOH terminus of beta- and gamma-epithelial Na+ channel (ENaC) subunits. These mutations lead to retention of active channels at the cell surface. Because of the critical role of this PY motif in the stability of ENaCs at the cell surface, we have investigated its contribution to the ENaC response to aldosterone and vasopressin. Mutants of the PY motif in beta- and gamma-ENaC subunits (beta-Y618A, beta-P616L, beta-R564stop, and gamma-K570stop) were stably expressed by retroviral gene transfer in a renal cortical collecting duct cell line (mpkCCDcl4), and transepithelial Na+ transport was assessed by measurements of the benzamil-sensitive short-circuit current (Isc). Cells that express ENaC mutants of the PY motif showed a five- to sixfold higher basal Isc compared with control cells and responded to stimulation by aldosterone (10(-6) M) or vasopressin (10(-9) M) with a further increase in Isc. The rates of the initial increases in Isc after aldosterone or vasopressin stimulation were comparable in cells transduced with wild-type and mutant ENaCs, but reversal of the effects of aldosterone and vasopressin was slower in cells that expressed the ENaC mutants. The conserved sensitivity of ENaC mutants to stimulation by aldosterone and vasopressin together with the prolonged activity at the cell surface likely contribute to the increased Na+ absorption in the distal nephron of patients with Liddle's syndrome.