Search Results - "KAISSLING, B"

The role of the BK channel in potassium homeostasis and flow-induced renal potassium excretion by Rieg, T., Vallon, V., Sausbier, M., Sausbier, U., Kaissling, B., Ruth, P., Osswald, H.

“…The kidney is the major regulator of potassium homeostasis. In addition to the ROMK channels, large conductance Ca2+-activated K+ (BK) channels are expressed…”
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The renal Na+/phosphate cotransporter NaPi-IIa is internalized via the receptor-mediated endocytic route in response to parathyroid hormone by Bacic, D., LeHir, M., Biber, J., Kaissling, B., Murer, H., Wagner, C.A.

“…The major renal Na+/phosphate cotransporter, NaPi-IIa, is regulated by a number of factors including parathyroid hormone (PTH), dopamine, and dietary phosphate…”
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Metabolomic study of cisplatin-induced nephrotoxicity by Portilla, D., Li, S., Nagothu, K.K., Megyesi, J., Kaissling, B., Schnackenberg, L., Safirstein, R.L., Beger, R.D.

“…We have shown that cisplatin inhibits fatty acid oxidation, and that fibrate treatment ameliorates renal function by preventing the inhibition of fatty acid…”
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Segment-specific expression of sodium-phosphate cotransporters NaPi-IIa and -IIc and interacting proteins in mouse renal proximal tubules by Madjdpour, C, Bacic, D, Kaissling, B, Murer, H, Biber, J

“…Sodium-dependent phosphate cotransport in renal proximal tubules (PTs) is heterogeneous with respect to proximal tubular segmentation (S1 vs. S3) and nephron…”
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Chronic metabolic acidosis increases NHE3 protein abundance in rat kidney by Ambuhl, P.M. (University of Texas Southwestern Medical Center, Dallas, TX.), Amemiya, M, Danczkay, M, Lotscher, M, Kaissling, B, Moe, O.W, Preisig, P.A, Alpern, R.J

“…Chronic metabolic acidosis increases the activity of the proximal tubule apical membrane Na/H antiporter, which is encoded predominantly by the NHE3 isoform…”
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Role of microtubules in the rapid regulation of renal phosphate transport in response to acute alterations in dietary phosphate content by Lötscher, M, Kaissling, B, Biber, J, Murer, H, Levi, M

“…Renal proximal tubular response to acute administration of a low Pi diet is characterized by a rapid adaptive increase in apical brush border membrane (BBM)…”
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Distribution and regulation of renal ecto-5'-nucleotidase: implications for physiological functions of adenosine by Le Hir, M, Kaissling, B

“…Adenosine exerts various effects via membrane receptors in the kidney. It reduces the glomerular filtration rate by altering the resistance of the glomerular…”
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Structural aspects of adaptive changes in renal electrolyte excretion by Kaissling, B

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Renal Na/H exchanger NHE-3 and Na-PO4 cotransporter NaPi-2 protein expression in glucocorticoid excess and deficient states by LOFFING, J, LÖTSCHER, M, KAISSLING, B, BIBER, J, MURER, H, SEIKALY, M, ALPERN, R. J, LEVI, M, BAUM, M, MOE, O. W

“…Administration of pharmacologic doses of glucocorticoid in vivo increases renal proximal tubule apical membrane Na/H exchange and decreases Na/PO4 cotransport…”
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Localization of NaPi-1, a Na/Pi cotransporter, in rabbit kidney proximal tubules. II: Localization by immunohistochemistry by BIBER, J, CUSTER, M, WERNER, A, KAISSLING, B, MURER, H

“…Polyclonal antibodies have been raised against a C-terminal peptide of NaPi-1, a recently cloned Na-Pi cotransport system of rabbit kidney cortex with a…”
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Tonic Stimulation of Renin Gene Expression by Nitric Oxide is Counteracted by Tonic Inhibition Through Angiotensin II by Schricker, Karin, Hegyi, Ivan, Hamann, Marlies, Kaissling, Brigitte, Kurtz, Armin

“…This study was designed to examine the possible involvement of prostaglandins and nitric oxide (NO) in the renin stimulatory effect of angiotensin II (AngII)…”
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Cell growth and cell death in renal distal tubules, associated with diuretic treatment by KAISSLING, B, LOFFING, J

“…Abstract only…”
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Regulation of renal ion transport and cell growth by sodium by Stanton, B A, Kaissling, B

“…Intracellular sodium has been implicated in a variety of cellular processes including regulation of Na+-K+-ATPase activity, mitogen-induced cell growth, and…”
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Immunolocalization of Na/SO4-cotransport (NaSi-1) in rat kidney by Lötscher, M, Custer, M, Quabius, E S, Kaissling, B, Murer, H, Biber, J

“…The proximal tubule is the major site for renal reabsorption of sulphate. A sodium-dependent transport system for sulphate (NaSi-1) has recently been…”
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Sodium and calcium transport pathways along the mammalian distal nephron: from rabbit to human by Loffing, Johannes, Kaissling, Brigitte

“…The final adjustment of renal sodium and calcium excretion is achieved by the distal nephron, in which transepithelial ion transport is under control of…”
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Structural adaptation of the distal convoluted tubule to prolonged furosemide treatment by Kaissling, B, Bachmann, S, Kriz, W

“…Rats were treated with furosemide, continuously applied by implanted minipumps, for 6 days. As compensation for the salt lost with the urine the animals drank…”
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Postnatal maturation of renal cortical peritubular fibroblasts in the rat by Marxer-Meier, A, Hegyi, I, Loffing, J, Kaissling, B

“…The stromal cells in the renal cortex and medulla of adult rats reveal different phenotypes. Cortical peritubular fibroblasts are ecto-5'nucleotidase…”
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Distribution of erythropoietin producing cells in rat kidneys during hypoxic hypoxia by Eckardt, Kai-Uwe, Koury, Stephen T., Tan, Chorh C., Schuster, Stephen J., Kaissling, Brigitte, Ratcliffe, Peter J., Kurtz, Armin

“…Distribution of erythropoietin producing cells in rat kidneys during hypoxic hypoxia. We have used in situ hybridization to determine the localization and…”
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Role of renal nerves for the expression of renin in adult rat kidney by Holmer, S, Rinne, B, Eckardt, K U, Le Hir, M, Schricker, K, Kaissling, B, Riegger, G, Kurtz, A

“…Utilizing a combination of mechanical and chemical unilateral denervation, we have examined the relevance of renal innervation for the expression of renin in…”
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Adaptation of distal tubule and collecting duct to increased sodium delivery. I. Ultrastructure by Kaissling, B, Stanton, B A

“…We examined the effects of a chronic increase in tubular sodium delivery on the structure of the distal convoluted tubule (DCT), connecting tubule (CNT), and…”
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