Rolf K. H. Kinne scite author profile

In recent years, it has become evident that the volume of a given cell is an important factor not only in defining its intracellular osmolality and its shape, but also in defining other cellular functions, such as transepithelial transport, cell migration, cell growth, cell death, and the regulation of intracellular metabolism. In addition, besides inorganic osmolytes, the existence of organic osmolytes in cells has been discovered. Osmolyte transport systems-channels and carriers alike-have been identified and characterized at a molecular level and also, to a certain extent, the intracellular signals regulating osmolyte movements across the plasma membrane. The current review reflects these developments and focuses on the contributions of inorganic and organic osmolytes and their transport systems in regulatory volume increase (RVI) and regulatory volume decrease (RVD) in a variety of cells. Furthermore, the current knowledge on signal transduction in volume regulation is compiled, revealing an astonishing diversity in transport systems, as well as of regulatory signals. The information available indicates the existence of intricate spatial and temporal networks that control cell volume and that we are just beginning to be able to investigate and to understand.

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Purification of rat papillary collecting duct cells: functional and metabolic assessment

Stokes¹,

Grupp²,

Kinne³

1987

American Journal of Physiology-Renal Physiology

107

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Rat renal papillary collecting duct (PCD) cells were isolated using collagenase and hyaluronidase digestion and a three-step low-speed centrifugation. As assessed by binding of the lectin Dolichos biflorus and determination of vasopressin-sensitive adenylate cyclase and Na+-K+-ATPase, the enrichment of PCD cells over a crude papillary cell preparation was 1.8, 2.4, and 1.4, respectively. Microscopic evaluation indicated that the preparation was greater than 90% pure PCD cells. The isolated cells were viable as evident from the high K/Na ratio of intracellular electrolytes measured by electron probe analysis (5.3), from the high ATP/ADP ratio (2.15), and the metabolic response to alterations in Na transport. Exposure to 2 mM ouabain or removal of Na reduced O2 consumption by 25-35%; the uncoupler carboxylcyanide-m-chlorophenylhydrazone more than doubled O2 consumption. In the presence of 14 mM glucose and at a PO2 of 100 Torr the cells produced substantial quantities of lactate. This aerobic glycolysis may account for greater than 20% of the ATP production. In the presence of rotenone, glycolysis increased by 56% and was able to maintain the cellular ATP level at 65% of control. In the absence of any exogenous substrate PCD cells respired normally and had a close to normal ATP content, but lactate production was markedly decreased. These results demonstrate that viable PCD cells can be isolated from rat kidney. At normal PO2 and in the presence of D-glucose the cells show a substantial amount of aerobic glycolysis, although their mitochondrial respiration is not rate limiting. In the absence of glucose the cells derive the majority of their energy from an as yet unidentified endogenous substrate.

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Ligands on the string: single-molecule AFM studies on the interaction of antibodies and substrates with the Na+-glucose co-transporter SGLT1 in living cells

Puntheeranurak

Wildling

Gruber

et al. 2006

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Atomic force microscopy (AFM) was used to probe topology, conformational changes and initial substratecarrier interactions of Na+-glucose co-transporter (SGLT1) in living cells on a single-molecule level. By scanning SGLT1-transfected Chinese hamster ovary (CHO) cells with AFM tips carrying an epitope-specific antibody directed against the extramembranous C-terminal loop 13, significant recognition events could be detected. Specificity was confirmed by the absence of events in nontransfected CHO cells and by the use of free antigen and free antibody superfusion. Thus, contrary to computer predictions on SGLT1 topology, loop 13 seems to be part of the extracellular surface of the transporter. Binding probability of the antibody decreased upon addition of phlorizin, a specific inhibitor of SGLT1, suggesting a considerable conformational change of loop 13 when the inhibitor occludes the sugar translocation pathway. Using an AFM tip carrying 1-thio-D-glucose, direct evidence could be obtained that in the presence of Na+ a sugarbinding site appears on the transporter surface. The binding site accepts the sugar residue of the glucoside phlorizin, free D-glucose, and D-galactose, but not free Lglucose and probably represents the first of several selectivity filters of the transporter. This work demonstrates the potential of AFM to study the presence and dynamics of plasma membrane transporters in intact cells on the single molecule level.

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Cloning and expression of a renal Na-Pi cotransport system from flounder

Werner

Murer

Kinne

1994

American Journal of Physiology-Renal Physiology

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Starting with the recently published sequence of the rat renal Na-Pi cotransport system, we have cloned a corresponding cDNA from the kidney of winter flounder (Pseudopleuronectes americanus), designated flounder NaPi-II. Expression of the cognate in vitro transcribed RNA in Xenopus laevis oocytes stimulated Na-dependent Pi transport specifically and in a time- and dose-dependent manner. Apparent affinities of Na and Pi, as well as the pH dependency, were very similar to those found for the mammalian systems. The flounder NaPi-II cDNA is 2,424 base pairs long and encodes a protein of 637 amino acids. The hydropathy plot predicts eight transmembrane spanning domains. In these regions the flounder NaPi-II-deduced protein shows high homology (approximately 80%, identity, approximately 92% similarity) with the amino acid sequences reported for mammalian NaPi-II proteins. However, in the hydrophilic parts of flounder NaPi-II protein, only minimal similarity could be found between fish and mammalian systems (30% homology, 45% similarity). Northern blot analysis with flounder NaPi-II cDNA as a probe confirmed this finding: even under nonstringent washing conditions, no cross-hybridization with mRNA from rat renal cortex was observed. Interestingly, flounder intestine was found to contain high levels of mRNA corresponding to NaPi-II. Supplementary bands of 1.9 and 4.2 kb were observed on Northern blots of renal and intestinal tissue. The close functional relationship of the flounder NaPi-II protein with the previously described Na-Pi cotransport systems and the pronounced differences on the level of their primary structures provide the tools for detailed structure-function analysis of Na-Pi cotransport.

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Alkaline-shifted pH Sensitivity of AE2c1-mediated Anion Exchange Reveals Novel Regulatory Determinants in the AE2 N-terminal Cytoplasmic Domain

Kurschat

Shmukler

Jiang

et al. 2006

Journal of Biological Chemistry

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Rolf K. H. Kinne

Cell volume regulation: osmolytes, osmolyte transport, and signal transduction

Purification of rat papillary collecting duct cells: functional and metabolic assessment

Ligands on the string: single-molecule AFM studies on the interaction of antibodies and substrates with the Na+-glucose co-transporter SGLT1 in living cells

Cloning and expression of a renal Na-Pi cotransport system from flounder

Alkaline-shifted pH Sensitivity of AE2c1-mediated Anion Exchange Reveals Novel Regulatory Determinants in the AE2 N-terminal Cytoplasmic Domain

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