Assessing the functional structure of molecular transporters by EPR spectroscopy

In this thesis, the self-assembled functional structure of a broad range of amphiphilic molecular transporters is studied. By employing paramagnetic probe molecules and ions, continuous-wave and pulse electron paramagnetic resonance spectroscopy reveal information about the local structure of these materials from the perspective of incorporated guest molecules. First, the transport function of human serum albumin for fatty acids is in the focus. As suggested by the crystal structure, the anchor points for the fatty acids are distributed asymmetrically in the protein. In contrast to the crystallographic findings, a remarkably symmetric entry point distribution of the fatty acid binding channels is found, which may facilitate the uptake and release of the guest molecules. Further, the metal binding of 1,2,3-triazole modified star-shaped cholic acid oligomers is studied. These biomimetic molecules are able to include and transport molecules in solvents of different polarity. A pre-arrangement of the triazole groups induces a strong chelate-like binding and close contact between guest molecule and metal ion. In absence of a preordering, each triazole moiety acts as a single entity and the binding affinity for metal ions is strongly decreased. Hydrogels based on N-isopropylacrylamide phase separate from water above a certain temperature. The macroscopic thermal collapse of these hydrogels is utilized as a tool for dynamic nuclear polarization. It is shown that a radical-free hyperpolarized solution can be achieved with a spin-labeled gel as separable matrix. On the nanoscale, these hydrogels form static heterogeneities in both structure and function. Collapsed regions protect the spin probes from a chemical decay while open, water-swollen regions act as catalytic centers. Similarly, thermoresponsive dendronized polymers form structural heterogeneities, which are, however, highly dynamic. At the critical temperature, they trigger the aggregation of the polymer into mesoglobules. The dehydration of these aggregates is a molecularly controlled non-equilibrium process that is facilitated by a hydrophobic dendritic core. Further, a slow heating rate results in a kinetically entrapped non-equilibrium state due to the formation of an impermeable dense polymeric layer at the periphery of the mesoglobule.

Asymmetrisches Dimethylarginin als kardiovaskulärer Risikofaktor : Transportmechanismen und Auswirkungen einer Akkumulation

Die vorliegende Dissertation beschäftigt sich mit dem Membrantransporter-vermittelten Export von asymmetrischem Dimethyl-L-Arginin (ADMA) aus der Endothelzelle. Da ADMA-Plasmakonzentrationen mit Erkrankungen wie koronaren Herzkrankheiten, Atherosklerose, Bluthochdruck und Endotheldysfunktion in Verbindung gebracht werden, ist ein effektiver ADMA-Export aus der Zelle heraus unabdingbar. Um den Mechanismus hierfür aufzuklären, wurden die immortalisierte Endothelzelllinie EA.hy926 und weitere primäre Endothelzellen (humane Umbilikalvenenendothelzellen und Endothelzellen der großen und kleinen Herzgefäße) auf die Expression basischer Aminosäuretransporter mittels einer qRT-PCR hin untersucht. Dabei zeigte sich, dass alle getesteten Endothelzellen die Aminosäuretransporter hCAT-1, y+LAT1 und y+LAT2 exprimierten. Basierend auf ADMA-Exportdaten, die mit entsprechenden Transporter-überexprimierenden Xenopus laevis-Oozyten gewonnen wurden, wurde festgestellt, dass alle drei Membrantransporter ADMA exportieren konnten. Der physiologisch wichtige Exportweg für intrazellulär anfallendes ADMA scheint dabei der via y+L zu sein, da es sich hierbei um einen aktiven Exportmechanismus handelt, der im Gegentransport von im humanen Plasma reichlich vorhandenen neutralen Aminosäuren und Natriumionen den nach innen gerichteten Natriumgradienten ausnutzt. Die Wichtigkeit des Membrantransportes für die Kontrolle intrazellulärer ADMA-Konzentrationen wurde in vitro durch Entzug von extrazellulären Austauschsubstraten und einer daraus resultierenden Blockade der Transportfunktion gezeigt. Hierbei wurde innerhalb von zwei Stunden ein 2,5-facher Anstieg der intrazellulären ADMA-Konzentration festgestellt, die bei Präsenz von Austauschsubstrat für die Transporter nicht auftrat. Die Relevanz der y+LATs für den ADMA-Export wurde durch Herunterregulation dieser Proteine mittels siRNA sichtbar: Unter diesen Bedingungen konnte ADMA auch in Anwesenheit von Austauschsubstrat für das System y+L weniger effektiv exportiert werden. Eine wichtige Aufgabe des humanen Endothels ist die Bildung bioaktiven Stickstoffmonoxids, das unter anderem eine Vasodilatation der Gefäße bewirkt. Für diese NO-Synthese wird L-Arginin als Substrat von der endothelialen NO-Synthase benötigt. ADMA stellt einen kompetitiven Inhibitor dar, dessen erhöhtes intrazelluläres Vorkommen möglicherweise hemmend auf die NO-Synthase wirken könnte. Es konnten hier allerdings keine Auswirkungen eines um das 4-fache gestiegenen, intrazellulären ADMA-Spiegels auf die Tätigkeit der endothelialen NO-Synthase festgestellt werden. Möglicherweise bedarf es eines noch weiter zu Gunsten des ADMAs verschobenen, intrazellulären L-Arginin:ADMA-Verhältnisses, um eine Hemmung der NO-Synthase festzustellen. Dies könnte bei einem pathologischen Transporterausfall eintreten, der intrazellulär permanent höhere ADMA-Konzentrationen zur Folge hätte. Des Weiteren hätte ein Anstieg der Arginasetätigkeit und damit einhergehend ein Substratdefizit für die NO-Synthase den gleichen Effekt. Der translationale Ansatz mit humanen peripheren mononukleären Blutzellen von Patienten aus der 2. Medizinischen Klinik zeigte die Tendenz einer Korrelation zwischen dem ADMA-Exportvermögen und der Endothelfunktion und brachte zudem die Erkenntnis eines individuell äußerst variablen ADMA-Exportvermögens zutage.

Safety, Security And safeguards In GEN IV sodium fast reactors

This work presents first a study of the national and international laws in the fields of safety, security and safeguards. The international treaties and the recommendations issued by the IAEA as well as the national regulations in force in France, the United States and Italy are analyzed. As a result of this, a comparison among them is presented. Given the interest of the Japan Atomic Energy Agency for the aspects of criminal penalties and monetary, also the Japanese case is analyzed. The main part of this work was held at the JAEA in the field of proliferation resistance (PR) and physical protection (PP) of a GEN IV sodium fast reactor. For this purpose the design of the system is completed and the PR & PP methodology is applied to obtain data usable by designers for the improvement of the system itself. Due to the presence of sensitive data, not all the details can be disclosed. The reactor site of a hypothetical and commercial sodium-cooled fast neutron nuclear reactor system (SFR) is used as the target NES for the application of the methodology. The methodology is applied to all the PR and PP scenarios: diversion, misuse and breakout; theft and sabotage. The methodology is applied to the SFR to check if this system meets the target of PR and PP as described in the GIF goal; secondly, a comparison between the SFR and a LWR is performed to evaluate if and how it would be possible to improve the PR&PP of the SFR. The comparison is implemented according to the example development target: achieving PR&PP similar or superior to domestic and international ALWR. Three main actions were performed: implement the evaluation methodology; characterize the PR&PP for the nuclear energy system; identify recommendations for system designers through the comparison.

Development and application of a thermo-hydraulic model supporting the design and the deterministic safety analysis in a sodium cooled fast reactor

Il CP-ESFR è un progetto integrato di cooperazione europeo sui reattori a sodio SFR realizzato sotto il programma quadro EURATOM 7, che unisce il contributo di venticinque partner europei. Il CP-ESFR ha l'ambizione di contribuire all'istituzione di una "solida base scientifica e tecnica per il reattore veloce refrigerato a sodio, al fine di accelerare gli sviluppi pratici per la gestione sicura dei rifiuti radioattivi a lunga vita, per migliorare le prestazioni di sicurezza, l'efficienza delle risorse e il costo-efficacia di energia nucleare al fine di garantire un sistema solido e socialmente accettabile di protezione della popolazione e dell'ambiente contro gli effetti delle radiazioni ionizzanti. " La presente tesi di laurea è un contributo allo sviluppo di modelli e metodi, basati sull’uso di codici termo-idraulici di sistema, per l’ analisi di sicurezza di reattori di IV Generazione refrigerati a metallo liquido. L'attività è stata svolta nell'ambito del progetto FP-7 PELGRIMM ed in sinergia con l’Accordo di Programma MSE-ENEA(PAR-2013). Il progetto FP7 PELGRIMM ha come obbiettivo lo sviluppo di combustibili contenenti attinidi minori 1. attraverso lo studio di due diverse forme: pellet (oggetto della presente tesi) e spherepac 2. valutandone l’impatto sul progetto del reattore CP-ESFR. La tesi propone lo sviluppo di un modello termoidraulico di sistema dei circuiti primario e intermedio del reattore con il codice RELAP5-3D© (INL, US). Tale codice, qualificato per il licenziamento dei reattori nucleari ad acqua, è stato utilizzato per valutare come variano i parametri del core del reattore rilevanti per la sicurezza (es. temperatura di camicia e di centro combustibile, temperatura del fluido refrigerante, etc.), quando il combustibile venga impiegato per “bruciare” gli attinidi minori (isotopi radioattivi a lunga vita contenuti nelle scorie nucleari). Questo ha comportato, una fase di training sul codice, sui suoi modelli e sulle sue capacità. Successivamente, lo sviluppo della nodalizzazione dell’impianto CP-ESFR, la sua qualifica, e l’analisi dei risultati ottenuti al variare della configurazione del core, del bruciamento e del tipo di combustibile impiegato (i.e. diverso arricchimento di attinidi minori). Il testo è suddiviso in sei sezioni. La prima fornisce un’introduzione allo sviluppo tecnologico dei reattori veloci, evidenzia l’ambito in cui è stata svolta questa tesi e ne definisce obbiettivi e struttura. Nella seconda sezione, viene descritto l’impianto del CP-ESFR con attenzione alla configurazione del nocciolo e al sistema primario. La terza sezione introduce il codice di sistema termico-idraulico utilizzato per le analisi e il modello sviluppato per riprodurre l’impianto. Nella sezione quattro vengono descritti: i test e le verifiche effettuate per valutare le prestazioni del modello, la qualifica della nodalizzazione, i principali modelli e le correlazioni più rilevanti per la simulazione e le configurazioni del core considerate per l’analisi dei risultati. I risultati ottenuti relativamente ai parametri di sicurezza del nocciolo in condizioni di normale funzionamento e per un transitorio selezionato sono descritti nella quinta sezione. Infine, sono riportate le conclusioni dell’attività.

Na +-coupled betaine symporters involved in osmotic stress response in prokaryotes and eukaryotes

The betaine/GABA transporter BGT1 is one of the most important osmolyte transporters in the kidney. BGT1 is a member of the neurotransmitter sodium symporter (NSS) family, facilitates Na+/Cl--coupled betaine uptake to cope with hyperosmotic stress. Betaine transport in kidney cells is upregulated under hypertonic conditions by a yet unknown mechanism when increasing amounts of intracellular BGT1 are inserted into the plasma membrane. Re-establishing isotonicity results in ensuing depletion of BGT1 from the membrane. BGT1 phosphorylation on serines and threonines might be a regulation mechanism. In the present study, four potential PKC phosphorylation sites were mutated to alanines and the responses to PKC activators, phorbol 12-myristate acetate (PMA) and dioctanoyl-sn-glycerol (DOG) were determined. GABA-sensitive currents were diminished after 30 min preincubation with these PKC activators. Staurosporine blocked the response to DOG. Three mutants evoked normal GABA-sensitive currents but currents in oocytes expressing the mutant T40A were greatly diminished. [3H]GABA uptake was also determined in HEK-293 cells expressing EGFP-tagged BGT1 with the same mutations. Three mutants showed normal upregulation of GABA uptake after hypertonic stress, and downregulation by PMA was normal compared to EGFP-BGT1. In contrast, GABA uptake by the T40A mutant showed no response to hypertonicity or PMA. Confocal microscopy of the EGFP-BGT1 mutants expressed in MDCK cells, grown on glass or filters, revealed that T40A was present in the cytoplasm after 24 h hypertonic stress while the other mutants and EGFP-BGT1 were predominantely present in the plasma membrane. All four mutants co-migrated with EGFP-BGT1 on Western blots suggesting they are full-length proteins. In conclusion, T235, S428, and S564 are not involved in downregulation of BGT1 due to phosphorylation by PKC. However, T40 near the N-terminus may be part of a hot spot important for normal trafficking or insertion of BGT1 into the plasma membrane. Additionally, a link between substrate transport regulation, insertion of BGT1 into the plasma membrane and N-glycosylation in the extracellular loop 2 (EL2) could be revealed. The functional importance of two predicted N-glycosylation sites, which are conserved in EL2 within the NSS family were investigated for trafficking, transport and regulated plasma membrane insertion by immunogold-labelling, electron microscopy, mutagenesis, two-electrode voltage clamp measurements in Xenopus laevis oocytes and uptake of radioactive-labelled substrate into MDCK cells. Trafficking and plasma membrane insertion of BGT1 was clearly promoted by proper N-glycosylation in both, oocytes and MDCK cells. De-glycosylation with PNGase F or tunicamycin led to a decrease in substrate affinity and transport rate. Mutagenesis studies revealed that in BGT1 N183 is the major N-glycosylation site responsible for full protein activity. Replacement of N183 with aspartate resulted in a mutant, which was not able to bind N-glycans suggesting that N171 is a non-glycosylated site in BGT1. N183D exhibited close to WT transport properties in oocytes. Surprisingly, in MDCK cells plasma membrane insertion of the N183D mutant was no longer regulated by osmotic stress indicating unambiguously that association with N-glycans at this position is linked to osmotic stress-induced transport regulation in BGT1. The molecular transport mechanism of BGT1 remains largely unknown in the absence of a crystal structure. Therefore investigating the structure-function relationship of BGT1 by a combination of structural biology (2D and 3D crystallization) and membrane protein biochemistry (cell culture, substrate transport by radioactive labeled GABA uptake into cells and proteoliposomes) was the aim of this work. While the functional assays are well established, structure determination of eukaryotic membrane transporters is still a challenge. Therefore, a suitable heterologous expression system could be defined, starting with cloning and overexpression of an optimized gene. The achieved expression levels in P. pastoris were high enough to proceed with isolation of BGT1. Furthermore, purification protocols could be established and resulted in pure protein, which could even be reconstituted in an active form. The quality and homogeneity of the protein allowed already 2D and 3D crystallization, in which initial crystals could be obtained. Interestingly, the striking structural similarity of BGT1 to the bacterial betaine transporter BetP, which became a paradigm for osmoregulated betaine transport, provided information on substrate coordination in BGT1. The structure of a BetP mutant that showed activity for GABA was solved to 3.2Å in complex with GABA in an inward facing open state. This structure shed some light into the molecular transport mechanisms in BGT1 and might help in future to design conformationally locked BGT1 to enforce the on-going structure determination.

Bedeutung von allelen Varianten des Hexose-Transporters Hxt3p und der Hexokinasen Hxk1p und Hxk2p für Aufnahme und Verwertung von Glucose und Fructose durch Weinhefen

In Hinsicht darauf, dass sich S. cerevisiae-Stämme im Laufe der Domestizierung und Anpassung an verschiedene Habitate genetisch verändert haben, wurde in dieser Arbeit eine repräsentative Auswahl von Labor-, kommerziellen und in der Natur vorkommenden Saccharomyces-Stämmen und ihren Interspezies-Hybriden auf die Verbreitung alleler Varianten der Hexokinase-Gene HXK1 und HXK2 getestet. Von den Hexose-Transportern stand Hxt3p im Mittelpunkt, da seine essentielle Rolle bei der Vergärung von Glucose und Fructose bereits belegt wurde.rnIn dieser Arbeit wurde gezeigt, dass es bedeutende Unterschiede in der Vergärung von Glucose und Fructose zwischen Weinhefen der Gattung Saccharomyces gibt, die z.T. mit Struktur-Varianten des Hexose-Transporter Hxt3p korrelieren. rnInsgesamt 51 Hefestämme wurden auf ihre allele Variante des HXT3-Gens untersucht. Dabei haben sich drei Hauptgruppen (die Fermichamp®-Typ Gruppe, Bierhefen und Hybrid-Stämme) mit unterschiedlichem HXT3-Allel ergeben. Im Zusammenhang mit der Weinherstellung wurden signifikante Nukleotid-Substitutionen innerhalb des HXT3-Gens der robusten S. cerevisiae-Stämme (wie z.B. Sekthefen, kommerzielle Starterkulturen) und Hybrid-Stämmen festgestellt. Diese Hefen zeichneten sich durch die Fähigkeit aus, den Most trotz stressigen Umwelt-Bedingungen (wie hohe Ethanol-Konzentration, reduzierter Ammonium-Gehalt, ungünstiges Glucose:Fructose-Verhältnis) zu vergären. rnDie Experimente deuten darauf hin, dass die HXT3-Allel-Variante des als Starterkultur verwendbaren Stammes Fermichamp®, für den verstärkten Fructose-Abbau verantwortlich ist. Ein gleiches Verhalten der Stämme mit dieser Allel-Variante wurde ebenfalls beobachtet. Getestet wurden die S. cerevisiae-Stämme Fermichamp® und 54.41, die bezüglich Hxt3p-Aminosäuresequenz gleich sind, gegenüber zwei S. cerevisiae-Stämmen mit dem HXT3-Standard-Alleltyp Fermivin® und 33. Der Unterschied in der Hexose-Verwertung zwischen Stämmen mit Fermichamp®- und Standard-Alleltyp war in der Mitte des Gärverlaufs am deutlichsten zu beobachten. Beide Gruppen, sowohl mit HXT3 Fermichamp®- als auch Fermivin®-Alleltyp vergoren die Glucose schneller als die Fructose. Der Unterschied aber zwischen diesen HXT3-Alleltypen bei der Zucker-Verwertung lag darin, dass der Fermichamp®-Typ eine kleinere Differenz in der Abbau-Geschwindigkeit der beiden Hexosen zeigte als der Fermivin®-Typ. Die Zuckeraufnahme-Messungen haben die relativ gute Fructose-Aufnahme dieser Stämme bestätigt.rnEbenfalls korrelierte der fructophile Charakter des Triple-Hybrides S. cerevisiae x S. kudriavzevii x S. bayanus-Stamm HL78 in Transportexperimenten mit verstärkter Aufnahme von Fructose im Vergleich zu Glucose. Insgesamt zeigte dieser Stamm ähnliches Verhalten wie die S. cerevisiae-Stämme Fermichamp® und 54.41. rnIn dieser Arbeit wurde ein Struktur-Modell des Hexose-Transporters Hxt3p erstellt. Als Basis diente die zu 30 % homologe Struktur des Proton/Xylose-Symporters XylE aus Escherichia coli. Anhand des Hxt3p-Modells konnten Sequenzbereiche mit hoher Variabilität (Hotspots) in drei Hxt3p-Isoformen der Hauptgruppen (die Fermichamp®-Typ Gruppe, Bierhefen und Hybrid-Stämme) detektiert werden. Diese signifikanten Aminosäure-Substitutionen, die eine mögliche Veränderung der physikalischen und chemischen Eigenschaften des Carriers mit sich bringen, konzentrieren sich auf drei Bereiche. Dazu gehören die Region zwischen den N- und C-terminalen Domänen, die cytosolische Domäne und der Outside-Loop zwischen Transmembranregion 9 und Transmembranregion 10. rnObwohl die Transportmessungen keinen Zusammenhang zwischen Stämmen mit unterschiedlichen HXT3-Allelen und ihrer Toleranz gegenüber Ethanol ergaben, wurde ein signifikanter Anstieg in der Zuckeraufnahme nach vorheriger 24-stündiger Inkubation mit 4 Vol% Ethanol bei den Teststämmen beobachtet. rnInsgesamt könnten allele Varianten von HXT3-Gen ein nützliches Kriterium bei der Suche nach robusten Hefen für die Weinherstellung oder für andere industrielle Anwendungen sein. Die Auswirkung dieser Modifikationen auf die Struktur und Effizienz des Hexose-Transporters, sowie der mögliche Zusammenhang mit Ethanol-Resistenz müssen weiter ausführlich untersucht werden. rnEin Zusammenhang zwischen den niedrig variablen Allel-Varianten der Hexokinase-Gene HXK1 und HXK2 und dem Zucker-Metabolismus wurde nicht gefunden. Die Hexokinasen der untersuchten Stämme wiesen allerdings generell eine signifikante geringere Affinität zu Fructose im Vergleich zu Glucose auf. Hier liegt sicherlich eine Hauptursache für den Anstieg des Fructose:Glucose-Verhältnisses im Laufe der Vergärung von Traubenmosten.rn

Sodium/hydrogen exchanger NHA2 in osteoclasts: subcellular localization and role in vitro and in vivo

NHA2 was recently identified as a novel sodium/hydrogen exchanger which is strongly upregulated during RANKL-induced osteoclast differentiation. Previous in vitro studies suggested that NHA2 is a mitochondrial transporter required for osteoclast differentiation and bone resorption. Due to the lack of suitable antibodies, NHA2 was studied only on RNA level thus far. To define the protein's role in osteoclasts in vitro and in vivo, we generated NHA2-deficient mice and raised several specific NHA2 antibodies. By confocal microscopy and subcellular fractionation studies, NHA2 was found to co-localize with the late endosomal and lysosomal marker LAMP1 and the V-ATPase a3 subunit, but not with mitochondrial markers. Immunofluorescence studies and surface biotinylation experiments further revealed that NHA2 was highly enriched in the plasma membrane of osteoclasts, localizing to the basolateral membrane of polarized osteoclasts. Despite strong upregulation of NHA2 during RANKL-induced osteoclast differentiation, however, structural parameters of bone, quantified by high-resolution microcomputed tomography, were not different in NHA2-deficient mice compared to wild-type littermates. In addition, in vitro RANKL stimulation of bone marrow cells isolated from wild-type and NHA2-deficient mice yielded no differences in osteoclast development and activity. Taken together, we show that NHA2 is a RANKL-induced plasmalemmal sodium/hydrogen exchanger in osteoclasts. However, our data from NHA2-deficient mice suggest that NHA2 is dispensable for osteoclast differentiation and bone resorption both in vitro and in vivo.

Cardiac sodium channel Na(v)1.5 and interacting proteins: Physiology and pathophysiology

The cardiac voltage-gated Na(+) channel Na(v)1.5 generates the cardiac Na(+) current (INa). Mutations in SCN5A, the gene encoding Na(v)1.5, have been linked to many cardiac phenotypes, including the congenital and acquired long QT syndrome, Brugada syndrome, conduction slowing, sick sinus syndrome, atrial fibrillation, and dilated cardiomyopathy. The mutations in SCN5A define a sub-group of Na(v)1.5/SCN5A-related phenotypes among cardiac genetic channelopathies. Several research groups have proposed that Na(v)1.5 may be part of multi-protein complexes composed of Na(v)1.5-interacting proteins which regulate channel expression and function. The genes encoding these regulatory proteins have also been found to be mutated in patients with inherited forms of cardiac arrhythmias. The proteins that associate with Na(v)1.5 may be classified as (1) anchoring/adaptor proteins, (2) enzymes interacting with and modifying the channel, and (3) proteins modulating the biophysical properties of Na(v)1.5 upon binding. The aim of this article is to review these Na(v)1.5 partner proteins and to discuss how they may regulate the channel's biology and function. These recent investigations have revealed that the expression level, cellular localization, and activity of Na(v)1.5 are finely regulated by complex molecular and cellular mechanisms that we are only beginning to understand.

Expression, localization, and functional model of cholesterol transporters in lactating and nonlactating mammary tissues of murine, bovine, and human origin

Members of the ATP-binding cassette (ABC) transporters play a pivotal role in cellular lipid efflux. To identify candidate cholesterol transporters implicated in lipid homeostasis and mammary gland (MG) physiology, we compared expression and localization of ABCA1, ABCG1, and ABCA7 and their regulatory genes in mammary tissues of different species during the pregnancy-lactation cycle. Murine and bovine mammary glands (MGs) were investigated during different functional stages. The abundance of mRNAs was determined by quantitative RT-PCR. Furthermore, transporter proteins were localized in murine, bovine, and human MGs by immunohistochemistry. In the murine MG, ABCA1 mRNA abundance was elevated during nonlactating compared with lactating stages, whereas ABCA7 and ABCA1 mRNA profiles were not altered. In the bovine MG, ABCA1, ABCG1, and ABCA7 mRNAs abundances were increased during nonlactating stages compared with lactation. Furthermore, associations between mRNA levels of transporters and their regulatory genes LXRalpha, PPARgamma, and SREBPs were found. ABCA1, ABCG1, and ABCA7 proteins were localized in glandular MG epithelial cells (MEC) during lactation, whereas during nonlactating stages, depending on species, the proteins showed distinct localization patterns in MEC and adipocytes. Our results demonstrate that ABCA1, ABCG1, and ABCA7 are differentially expressed between lactation and nonlactating stages and in association with regulatory genes. Combined expression and localization data suggest that the selected cholesterol transporters are universal MG transporters involved in transport and storage of cholesterol and in lipid homeostasis of MEC. Because of the species-specific expression patterns of transporters in mammary tissue, mechanisms of cholesterol homeostasis seem to be differentially regulated between species.

Channels and transporters. Mini-symposium of the Division of Medicinal Chemistry (DMC) of the Swiss Chemical Society (SCS) at the Department of Chemistry, University of Basel, May 27, 2010

During a half-day symposium, the topic 'Channels and Transporters' was covered with five lectures, including a presentation on 'Introduction and Basics of Channels and Transporters' by Beat Ernst, lectures on structure, function and physiology of channels and transporters ('The Structural Basis for Ion Conduction and Gating in Pentameric Ligand-Gated Ion Channels' by Raimund Dutzler and 'Uptake and Efflux Transporters for Endogenous Substances and for Drugs' by Dietrich Keppler), and a case study lecture on 'Avosentan' by Werner Neidhart. The program was completed by Matthias Hediger who introduced to the audience the National Center of Competence in Research (NCCR)-TransCure in his lecture entitled 'From Transport Physiology to Identification of Therapeutic Targets'.

Sodium thiosulfate pharmacokinetics in hemodialysis patients and healthy volunteers

Vascular calcification is a major cause of morbidity and mortality in dialysis patients. Human and animal studies indicate that sodium thiosulfate (STS) may prevent the progression of vascular calcifications. The pharmacokinetics of STS in hemodialysis patients has not been investigated yet.