| T |
| Target cell killing at the immunological synapse: Mechanisms of transport, docking and exocytosis of lytic granules |
| Qu B., Pattu V., *Junker C., Schwarz E., Bhat S., Kummerow C., Marshall M., Matti U., Neumann F., Pfreundschuh M., Becherer U., Rieger H., Rettig J., *Hoth M. |
| |
| Targeted disruption of aquaporin-1 leads to impaired recruitment of juxtaglomerular cells in response to chronic stimulation of the renin-angiotensin system |
| *Tinning A., Jensen B., Kurtz A., Madsen K. |
| |
| TASK3 potassium channels are involved in the regulation of aldosterone secretion in mice |
| *Penton Ribas D., Bandulik S., Tauber P., Sterner C., Tegtmeier I., Reichold M., Haubs S., Lalli E., Barhanin J., Lesage F., Warth R. |
| |
| Teaching acid-base (patho-) physiology |
| *Alle H. |
| |
| TGF-receptor mediated NO release induced apoptosis in adult cardiomyocytes of adult rat |
| *Warga B., Heger J., Abdallah Y., Schluter K.-D., Piper H.M., Euler G. |
| |
| The (pro)renin receptor: a reappraisal of its functions |
| *Nguyen G. |
| |
| The 1S I/II loop as molecular switch for 1a to enable trafficking of the dihydropyridine receptor (DHPR) |
| Polster A., Pfitzer G., Beam K., *Papadopoulos S. |
| |
| The activated Mineralocorticoid Receptor interacts with Calcineurin- in respect of CREB signaling |
| *Seiferth A., Ruhs S., Gekle M., Grossmann C. |
| |
| The afterhyperpolarizing potential following a train of action potentials is reduced in an acute model of epilepsy via protein kinase activation |
| Kernig K., *Kirschstein T., Rohde M., Kohling R. |
| |
| The ammonia transporter RhCG contributes to but is not critical for renal ammonium excretion during high protein intake |
| *Bounoure L., Bourgeois S., Wagner C.A., Druart S., Devuyst O. |
| |
| The AMP-activated protein kinase 2 subunit is involved in platelet signaling as well as clot retraction and thrombus stability |
| *Randriamboavonjy V., Isaak J., Fromel T., Fisslthaler B., Fleming I. |
| |
| The AMP-activated protein kinase modifies gene expression in endothelial cells by interfering with protein lysine acetylation |
| *Fisslthaler B., Loot A., Fleming I. |
| |
| The analysis of aquaporin-2 regulation by means of the isolated perfused rat kidney |
| *Schurek H.-J., Klokkers J., Pavenstadt H., Schlatter E., Edemir B. |
| |
| The anesthetic octanol activates CFTR-dependent Cl--secretion in native pulmonary epithelium (Xenopus laevis) |
| *Richter K., Clauss W., Fronius M. |
| |
| The anion exchanger Slc26a6 functionally interacts and tethers the cytoplasmic carbonic anhydrase II to the apical membrane in murine duodenum |
| *Singh A.K., Riederer B., Soleimani M., Engelhardt R., Seidler U. |
| |
| The Auxiliary AMPA Receptor Subunit Cornichon - Just a Chaperone? |
| *Harmel N., Mauric V., Klocker N. |
| |
| The Ca2+-activated potassium channel KCa3.1 shows increased expression in A549 lung carcinoma cells with high metastatic potential |
| *Bulk E., Jungen D., Hascher A., Muller-Tidow C., Schwab A. |
| |
| The calcium-sensing receptor in the murine renal collecting duct cell line M1 |
| *Himmerkus N., Grussel S., Bleich M. |
| |
| The cardioprotective effect of brief acidic reperfusion after ischemia in perfused rat hearts is not mimicked by inhibition of the Na+/H+ exchanger NHE1 |
| *Andersen A.-D., Bentzen B.H., Salling H., Klingberg H., Kanneworff M., Grunnet M., Pedersen S.F. |
| |
| The Connexin40 A96S Loss-of-Function mutation from a patient suffering from atrial fibrillation causes renin dependent hypertension in mice |
| *Machura K., Lubkemeier I., Kurtz A., Willecke K. |
| |
| The contractile apparatus but not Ca2+ is the main contributor to compromised force in early pre-fibrotic mdx cardiac muscle with already detectable cardiomyopathy |
| *Wagner S., Weber C., Galmbacher R., Hein S., Schinkel S., Walther A., Martin E., Bekkeredjian R., Muller O.J., Friedrich O. |
| |
| The differential expression of several mRNA variants of HIF1a during endurance exercise and under normobar hypoxia |
| *Breitbach S., Bohringer A., Simon P., Tug S. |
| |
| The Dipeptide Isoleucine-Tryptophan (IW) Lowers Blood Pressure in the SHR-Model and Reduce Angiotensin I Conversion in Isolated Rat Aorta |
| *Martin M., Deussen A. |
| |
| The Effect of Variation artificial Dead Space Volume in Lung Ventilation Gas Exchange: A Model Study |
| *Nasrallah H, Khachab A., Kashefi A, Bernhagen J., Wald B., Mottaghy K. |
| |
| The electrophysiological effects of chronic application of aldosterone on ventricular myocytes of Gq/11 knock out mice |
| *Pahlavan S., Wiesen K., Oberhofer M., Kaestner L., Lipp P. |
| |
| The endosomal SNARE protein syntaxin-8 interacts with the K+ channel TASK-1 and modulates its intracellular traffic |
| *Renigunta V.K., Zuzarte M., Siebert K., Schlichthorl G., Preisig-Muller R., Daut J. |
| |
| The epithelial serine protease trypsin IV activates the human epithelial sodium channel (ENaC) heterologously expressed in Xenopus laevis oocytes |
| *Haerteis S., Krappitz M., Krueger B., Murphy J., Bunnett N.W., Korbmacher C. |
| |
| The ex vivo perfused lung for assessment of altered lung function during transplantation |
| *Klein S., Dhein S., Bauer L., Vollroth M., Dieterlen M.-T., Mohr F.-W., Bittner H.B. |
| |
| The functions of tight junction proteins in mammalian epidermis |
| *Brandner J.M. |
| |
| The H2O2-producing NADPH oxidase Nox4 protects against Angiotensin II induced vascular hypertrophy and inflammation |
| *Schrder K., Benkhoff S., Mieth A., Zhang M., Shah A.M., Brandes R.P. |
| |
| The impact of HIF-1 signaling in skeletal muscle injury and repair |
| *Scheerer N., Gottstein E., Swoboda S., Fandrey J. |
| |
| The importance of the transcriptional factor HIF-1 for dendritic cell function |
| *Wobben R. |
| |
| The inflammatory chemokine CXCL16 mediates platelet activation and adhesion via PI3K/AKT signaling pathway |
| *Borst O., Munzer P., Gehring E.-M., Gatidis S., Paul A., Schonberger T., Towhid S., Rose M., Seizer P., May A., Gawaz M., Lang F. |
| |
| The Influence of Lactate on the Proliferation and Differentiation of C2C12 and human primary myoblasts |
| *Willkomm L., Elsen M., Borosch S., Jung R., Bloch W. |
| |
| The K-ATP channel-independent pathways of insulin secretion |
| *Henquin J.-C. |
| |
| The lipocalin 2 receptor: A novel receptor mediating endocytosis of metal-protein complexes and cadmium-metallothionein toxicity in the kidney |
| *Langelueddecke C., Wolff N.A., Lee W.-K., Thevenod F. |
| |
| The meaning of mechanical strain for vasculogenesis of embryonic stem cells |
| *Behr S., Sauer H. |
| |
| The need for proton-driven vesicular Cl- accumulation: insights from designer mice and biophysics |
| *Jentsch T.J. |
| |
| The new hydrogen sulfide-releasing aspirin-derivative ACS14 is a highly effective platelet inhibitor in vitro and in vivo |
| *Fochler F., Pircher J., del Soldato P., Mannell H., Pohl U., Sohn H.-Y., Krotz F. |
| |
| The non-neuronal cholinergic system in mouse tracheal epithelium: Evidence for the participation of muscarinic M1, M3 receptors and nicotinic receptors |
| *Hollenhorst M., Lips K., Kummer W., Clauss W., Fronius M. |
| |
| The novel gasotransmitter hydrogen sulfide impairs pulmonary transepithelial ion transport |
| *Erb A., Fronius M., Clauss W., Althaus M. |
| |
| The number of release-ready vesicles increases rapidly during homeostatic plasticity |
| *Weyhersmller A., Hallermann S., Wagner N., Eilers J. |
| |
| The organic anion transporter 1 is a pharmacological target for inhibitors of prolyl hydroxylases |
| *Hagos Y., Krick W., Willam C., Burckhardt G., Burckhardt B.C. |
| |
| The plant alkaloide berberine prevents claudin-1- and -2-based cytokine-induced paracellular barrier impairment |
| *Amasheh S., Amasheh M., Fromm A., Krug S.M., Fromm M., Schulzke J. |
| |
| The polarity protein Scrib is essential for directed endothelial cell migration |
| *Michaelis U.R., Chavakis E., Jungblut B., Potente M., Tjwa M., Kaluza D., Urbich C., Kruse C., Wandzioch K., Borg J.-P., Brandes R.P. |
| |
| The polarity protein Scribble is a negative regulator of endothelial shear stress signalling |
| *Kruse C.K.G., Wandzioch K., Brandes R.P., Michaelis U.R. |
| |
| The protection against reperfusion injury through uncoupling of the mitochondrial respiratory chain at the start of reperfusion |
| *Raffenberg S., Woste A., Shahzad T., Johnson V., Abdallah Y., Iraqi W. |
| |
| The role of adenosine and ATP in tubuloglomerular feedback and RBF autoregulation |
| *Dautzenberg M., Just A. |
| |
| The role of phospolipase2 signaling in the enhancement of sodium transport elicited by hypotonicity in A6 cells |
| *Polyankina A., Steels P., Bleich M. |
| |
| The Role of TGFb for Renin Cell Recruitment under chronic Stimulation of the RAS |
| *Gerl M., Kurtz A., Wagner C. |
| |
| The Role of the C-Terminus in Functional Expression of Rat Connexin46 |
| *Schlingmann B., Busko S., Hemmerling F., Ngezahayo A. |
| |
| The role of TRPC6 in chemotactic signaling of murine neutrophils |
| *Lindemann O., Umlauf D., Bertrand J., Fabian A., Pap T., Dietrich A., Schwab A. |
| |
| The serum- and glucocorticoid-inducible kinase-1 (SGK1) regulates expression and function of membrane androgen receptors (mAR) as well as migration in tumor cells |
| *Gehring E.-M., Gu S., Konstantinidis G., Alevizopoulos K., Foller M., Lang F., Stournaras C. |
| |
| The SH2-domain containing protein tyrosine phosphatase 1 (SHP-1) mediates antithrombotic effects in endothelial inflammation in vivo |
| *Koch E., Pircher J., Mannell H., Sohn H.-Y., Pohl U., Krotz F. |
| |
| The sialyltransferase ST3Gal-IV regulates eosinophil recruitment in vivo |
| *Frommhold D., Doerner A., Abisch J., Huber S., Mall M., Vohringer D., Sperandio M. |
| |
| The structural basis of silencing of acid-sensing ion channel (ASIC) 3 by the integral membrane protein stomatin |
| *Siebertz H., Kadurin I., Polleichtner G., Grunder S. |
| |
| The tight junction protein claudin-17 forms a paracellular anion channel in kidney tubule cells |
| *Krug S.M., Rosenthal R., Gunzel D., Amasheh S., Schulzke J., Fromm M. |
| |
| The Tight Junctions of the Blood-Brain Barrier |
| *Wolburg H. |
| |
| The TNF-receptor-subtype 1 is responsible for ischemia/reperfusion induced endothelial dysfunction in vivo |
| Chaudhry D., *Pircher J., Mannell H., Sohn H., Pohl U., Krotz F. |
| |
| The Tyrosine Phosphatase SHP-1 regulates Hif-1 protein level in human microvascular endothelial cells during hypoxia |
| *Alig S., Mannell H., Pircher J., Sohn H.-Y., Pohl U., Krotz F. |
| |
| The unfolded protein response controls induction and activation of ADAM17/TACE by severe hypoxia and ER-stress |
| Rzymski T., *Petry A., Kracun D., Pike L., Harris A.L., Gorlach A. |
| |
| The Wilms tumor transcription factor Wt1 regulates the Interleukin-10 gene |
| *Bondke Persson A., Sciesielski L.K., Scholz H., Kirschner K.M. |
| |
| The Wilms tumor transcription factor, WT1, stimulates expression of the ADAMTS16 gene |
| *Jacobi C., Kirschner K., Scholz H. |
| |
| Thymoquinone-induced platelet apoptosis |
| *Towhid S., Gehring E.-M., Qadri S., Schmid E., Munzer P., Borst O., Lang F. |
| |
| Tight junctions of human pleura mesothelium: structure, function and pathophysiological aspects |
| *Amasheh S., Markov A.G., Volgin G.N., Voronkova M.A., Yablonsky P.K., Fromm M. |
| |
| Time dependent activation of myeloid cells by different conditions of hypoxia |
| *Schwartz M., Winning S., Fandrey J. |
| |
| TNF enhances the vasoconstrictor potential of serotonin and thromboxane through impairment of endothelial function |
| *Kleinbongard P., Schoner S., Leineweber K., Bose D., Konorza T., Eggebrecht H., Haude M., Erbel R., Heusch G. |
| |
| To burst or not to burst! The role of KATP channels in dopamine neurons |
| *Roeper J. |
| |
| Tonicity affects the WNT/-catenin pathway in rat renal inner medullary collecting duct cells |
| *Jardzejewski M., Klokkers J., Pavenstadt H., Schlatter E., Edemir B. |
| |
| Tracking of mesenchymal stem cells after infusion in mice |
| Werner F., Frohlich W., Posel C., *Deten A. |
| |
| Transcriptional regulation of the Ca2+ channel Orai1/STIM1 by the serum- and glucocorticoid-inducible kinase SGK1 |
| *Eylenstein A., Regel I., Lang F. |
| |
| Transfection of cystic fibrosis airway epithelial cells with wtCFTR-mRNA restores CFTR function |
| Bangel-Ruland N., *Knieper Y., Sobczak K., Leier G., Rosenecker J., Weber W.-M. |
| |
| Translation of ligand binding to activation in CNGA2:A4:B1b channels |
| *Nache V., Zimmer T., Kusch J., Biskup C., Schmauder R., Schulz E., Seifert R., Boenigk W., Schwede F., Benndorf K. |
| |
| Transport activity of the sodium bicarbonate cotransporter NBCe1 is increased by a functional interaction with different carbonic anhydrase isoforms |
| *Schler C., Becker H.M., McKenna R., Deitmer J.W. |
| |
| Transport rate of the p-glycoprotein (Pgp) is depending on chirality of the substrate |
| *Thews O., Biesalski B., Yilmaz B., Rosch F., Fellner M. |
| |
| TRPC6 channels are functionally expressed in mouse skeletal muscle and seem to counteract fatigue development during repetitive stimulation of the soleus muscle |
| *Zhang Y., Pritschow B., Sinnhofer C., Brinkmeier H. |
| |
| TRPC-channels modulate reciprocal GC-MC signaling in the OB |
| Stroh O., Freichel M., Hartmann J., *Egger V. |
| |
| TRPM7 is a receptor for natural and synthetic modulators of SKCa channels |
| *Chubanov V., Mederos y Schnitzler M., Meissner M., Schafer S., Abstiens K., Heilmair R., Hofmann T., Gudermann T. |
| |
| TRPV4 channels in mouse skeletal muscle: their role for Ca2+ homeostasis, muscle fatigue and motor function |
| *Pritschow B.W., Princk M., Lange T., Zhang Y.X., Kasch J., Liedtke W., Brinkmeier H. |
| |
| Tryptophan scanning analysis of the second transmembrane helix of barttin reveals two sites of interaction with ClC-K chloride channels |
| *Wojciechowski D., Fischer M., Fahlke C. |
| |
| Two different pathways contribute to cytotoxicity of mouse cytotoxic T lymphocytes |
| *Dudenhffer-Pfeifer M., Krause E., Hoth M., Rettig J. |
| |
| Two independent cGMP-mediated pathways mediate nitrergic relaxation in ICC and SMC: Studies in mice lacking NO-sensitive guanylyl cyclase |
| *Groneberg D., Lies B., Konig P., Friebe A. |
| |