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6. Acid-induced stimulation of Na-Pi cotransport in OK cells: molecular characterization and effect of dexamethasone

Author

Jehle, Andreas W., Forgo, Judith, Biber, Jurg, Lederer, Eleanor, Krapf, Reto, and Murer, Heini

Subjects
Sodium phosphates -- Physiological aspects, Biological transport -- Research, Dexamethasone -- Physiological aspects, Kidneys -- Physiological aspects, Biological sciences
Abstract

Effects of an acidic hydrogen-ion concentration (pH) on apical Na-Pi cotransport were analyzed in OK cells. Na-Pi cotransport activity was sensitive to parathyroid hormone-induced inhibition. Results show that Na-Pi cotransport increase was prevented by dexamethasone. However, there was a reduction in the increase in specific protein content in the cells caused by dexamethasone. It was concluded that exposure of OK cells to an acidic medium causes a stimulation of the NaPi-4 cotransporter that is prevented by dexamethasone.

Published
1997

14. Expression cloning of rat renal Na(+)/So(sub 4)(super 2-) cotransport

Author

Markovich, Daniel, Forgo, Judith, Stange, Gerti, Biber, Jurg, and Murer, Heini

Subjects
Xenopus -- Research, Biological transport, Active -- Regulation, Sodium metabolism -- Analysis, Science and technology
Abstract

A cDNA (NaSi-1), which is probably linked to a Na+/So2/4 cotransport system, was isolated based on the knowledge that Na+ dependent So2/4 uptake results from the injection of rat kidney cortex mRNA into Xenopus laevis oocytes. Specific stimulation of Na+-dependent So2/4 uptake in oocytes results from NaSi-1 RNA, depending on time and dose. A membrane protein concerned with renal and small intestinal brush border membrane Na+/So2/4 cotransport has been structurally established.

Published
1993

15. The rBAT gene is responsible for L-cystine uptake via the b0,(+)-like amino acid transport system in a 'renal proximal tubular' cell line (OK cells)

Author

Mora, Conchi, Chillarón Chaves, José Julio, Calonge, María Julia, Forgo, Judith, Testar, Xavier, Nunes Martínez, Virginia, Murer, Heini, Zorzano Olarte, Antonio, Palacín Prieto, Manuel, University of Zurich, and Palacín, M

Subjects
1307 Cell Biology, Cistinosi, 1303 Biochemistry, Proteïnes portadores, Carrier proteins, Cystinosis, 1312 Molecular Biology, Amino acids, 570 Life sciences, biology, Aminoàcids, Glicoproteïnes, Glycoproteins, 10052 Institute of Physiology
Abstract

Several studies have shown that the cRNA of human, rabbit, or rat rBAT induces in Xenopus oocytes sodium-independent, high affinity uptake of L-cystine via a system b0,(+)-like amino acid exchanger. We have shown that mutations in rBAT cause type I cystinuria (Calonge, M. J., Gasparini, P., Chillarón, J., Chillón, M., Gallucci, M., Rousaud, F., Zelante, L., Testar, X., Dallapiccola, B., Di Silverio, F., Barceló, P., Estivill, X., Zorzano, A., Nunes, V., and Palacín, M. (1994) Nat. Genet. 6, 420-425; Calonge, M. J., Volipini, V., Bisceglia, L., Rousaud, F., De Sanctis, L., Beccia, E., Zelante, L., Testar, X., Zorzano, A., Estivill, X., Gasparini, P., Nunes, V., and Palacín, M. (1995) Proc. Natl. Acad. Sci. U. S. A. 92, 9667-9671). Apart from oocytes, no other expression system has been used for transfection of functional rBAT activity. Furthermore, the b0,(+)-like transport activity has not been clearly described in the kidney or intestine. Here, we report that a 'proximal tubular-like' cell line derived from opossum kidney (OK cells) expresses an rBAT transcript. Poly(A)+ RNA from OK cells induced by system b0,(+)-like transport activity in oocytes. This was hybrid-depleted by human rBAT antisense oligonucleotides. A polymerase chain reaction-amplified cDNA fragment (approximately 700 base pairs) from OK cell RNA corresponds to an rBAT protein fragment 65-69% identical to those from human, rabbit and rat kidneys. We have also examined transport of l-cystine in OK cells and found characteristics very similar to the amino acid exchanger activity induced by rBAT cRNA in oocytes. Uptake of L-cystine was of high affinity, sodium-independent and shared with L-arginine and L-leucine. It was trans-stimulated by amino acids with the same specificity as rBAT-induced transport activity in oocytes. Furthermore, it was localized to the apical pole of confluent OK cells. To demonstrate that the rBAT protein is functionally related to this transport activity, we have transfected OK cells with human rBAT antisense and sense sequences. Transfection with rBAT antisense, but not with rBAT sense, resulted in the specific reduction of rBAT mRNA expression and b0,(+)-like transport activity. These results demonstrate that rBAT is functionally related to the L-cystine uptake via system b0,(+)-like in the apical pole of the renal OK cell line.

Published
1996

20. Acid-induced stimulation of Na-Pi cotransport in OK cells: molecular characterization and effect of dexamethasone.

Author

JEHLE, ANDREAS W., FORGO, JUDITH, BIBER, JÜRG, LEDERER, ELEANOR, KRAPF, RETO, and MURER, HEINI

Abstract

Alterations in systemic acid/base balance affect renal Pi excretion. In the present study, the effects of an acidic pH on aPical Na-dependent Pi (Na-Pi) cotransport were analyzed using OK cells (opossum kidney cell line). Cells were maintained at either pH 7.4 or 7.1 (altered HCO3- concentration at constant PCO2). Incubation in acidic medium led to an increase in Na-Pi cotransport activity, which was characterized by a transient, initial response (2-4 h, 25% increase) followed by a sustained response (24 h, 75% increase). Increased Na-Pi cotransport activity (24 h) was sensitive to inhibition by parathyroid hormone. Actinomycin D did not abolish the acid-induced increases (initial and sustained responses). Cycloheximide abolished the increase in Na-Pi cotransport observed after 24 h. The increase in Na-Pi cotransport (24 h) was prevented by dexamethasone (2 x 10-6 M). Western blots showed a twofold (3 h) and two- to threefold (24 h) increase in NaPi-4 protein after acid exposure. Cycloheximide prevented the late increase in NaPi-4 protein abundance. Also dexamethasone reduced the increase in specific protein content. In conclusion, the exposure of OK cells to an acidic medium causes a stimulation of the NaPi-4 cotransporter that is prevented by dexamethasone. [ABSTRACT FROM AUTHOR]

Published
1997
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21. IGF-I and vanadate stimulate Na/Pi-cotransport in OK cells by increasing type II Na/Pi-cotransporter protein stability.

Author

Jehle, Andreas W., Forgo, Judith, Biber, J., Lederer, Eleanor, Krapf, Reto, and Murer, Heini

Abstract

Insulin-like growth factor (IGF)-I and vanadate increase Na-dependent phosphate (Na/Pi) cotransport in opossum kidney (OK) cells. To gain more information about the mechanisms by which IGF-I and vanadate stimulate Na/Pi-cotransport, we measured type II Na/Pi-cotransporter (NaPi-4) protein abundance by Western blot analysis and investigated the effects of protein synthesis and tyrosine kinase inhibitors. The key findings in the present studies are as follows. First, incubation in IGF-I (10–8 M) and/or vanadate (10–3 M) for 3 h led to a non-additive 1.4-fold increase in Na/Pi-cotransport activity which was paralleled by a 1.5- to 2-fold increase in NaPi-4 protein. Second, actinomycin D did not abolish the increase in Na/Pi-cotransport and cycloheximide did not prevent the IGF-I-induced increase in Na/Pi-cotransport and NaPi-4 protein. Third, among the protein kinase inhibitors tested, only staurosporine substantially reduced the stimulation of Na/Pi-cotransport. In conclusion, the stimulatory effect of IGF-I on Na/Pi-cotransport is paralleled by an increased expression of NaPi-4 protein that is independent of protein synthesis and therefore results from increased protein stability. The observation that IGF-I and/or vanadate lead to similar increases in Na/Pi-cotransport and NaPi-4 protein abundance provides further evidence that the stimulation of Na/Pi-cotransport by IGF-I and vanadate involves protein tyrosine phosphorylation of the same signalling molecules. [ABSTRACT FROM AUTHOR]

Published
1998
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22. Cellular mechanisms involved in the acute adaptation of OK cell Na/Pi-cotransport to high- or low-Pi medium.

Author

Pfister, Markus F., Hilfiker, Helene, Forgo, Judith, Lederer, Eleanor, Biber, J., and Murer, Heini

Abstract

Variations in dietary phosphate (Pi) intake in rats lead to alterations of renal Pi reabsorption. These effects are associated with corresponding changes in the abundance of the type II Na/Pi-cotransporter protein in proximal tubular brush-border membranes. In the present study we investigated the regulation of the type II Na/Pi-cotransporter in response to high- and low-Pi medium in opossum kidney (OK) cells, an epithelial cell-line of proximal tubular origin. We show that ”acute” (4 h) and ”chronic” (24 h) exposures of OK cells to high- or low-Pi medium lead to decreases or increases, respectively, in Na/Pi-cotransport activity which are paralleled by alterations in the total cellular amount of the corresponding type II Na/Pi-cotransporter protein (NaPi-4), but not by changes in the amount of the NaPi-4 mRNA. Also in OK cells transfected with the corresponding rat renal type II Na/Pi-cotransporter (NaPi-2) alterations in the Pi concentration in the medium lead to changes in the amount of NaPi-2 protein but not in the amount of NaPi-2 mRNA. Furthermore we show that lysosomal inhibitors prevent the degradation of the transporter, but do not interfere with its inhibition, in response to ”acute” exposure of OK cells to high-Pi medium. Inhibition of lysosomal degradation also leads, in control conditions, to an accumulation of the transporter detectable on Western blot. It is concluded that the lysosomal proteolytic pathway is not only involved in the Pi-induced downregulation of the type II Na/Pi-cotransporter but also in its basic turnover. [ABSTRACT FROM AUTHOR]

Published
1998
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23. Rapid stimulation of Na+/H+ exchange by 1,25-dihydroxyvitamin D3; interaction with parathyroid-hormone-dependent inhibition

Author

Binswanger, Ulrich, Helmle-Kolb, Corinna, Forgo, Judith, Mrkic, Branka, and Murer, Heini

Abstract

We have examined the rapid effect of 1,25-dihydroxyvitamin-D3 [1,25(OH)2D3] on apical Na+/H+ exchange activity in opossum kidney (OK) cells and in MCT cells (a culture of simian-virus-40-immortalized mouse cortical tubule cells) grown on filter support. Addition of 1,25(OH)2D3 (10 nM) for 1 min increased apical Na+/H+ exchange activity [recovery from an acid load; measured by 2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein] in OK cells (by 56%) and in MCT cells (by 36%). The cellular mechanisms involved in 1,25(OH)2D3-dependent stimulation of Na+/H+ exchange were analysed in OK cells; stimulation of Na+/ H+ exchange by 1,25(OH)2D3 was not prevented by actinomycin D. Applying parathyroid hormone (PTH) reduced Na+/H+ exchange activity in OK cells (by 34% at 10 nM, 5 min); 1,25(OH)2D3 “reversed” PTH-induced inhibition, either when PTH was added prior to 1,25(OH)2D3 or when the two agonists were applied together. 1,25(OH)2D3 had no effect on basal OK cell cAMP content or on [Ca2+]i (fura-2). 1,25(OH)2D3 attenuated PTH-induced cAMP accumulation and had no effect on the PTH-dependent increase in [Ca2+]i. These data suggest a regulatory control (stimulation) of proximal tubular brush-border Na+/H+ exchange by 1,25(OH)2D3. This effect is non-genomic and might in part be explained by a release from cAMP-dependent control of transport activity.

Published
1993
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24. Expression of parathyroid hormone receptors in MDCK and LLC-PK1 cells

Author

Hayes, Gillian, Forgo, Judith, Bringhurst, F. Richard, Segre, Gino, and Murer, Heini

Abstract

Parathyroid hormone (PTH) inhibits renal proximal tubular phosphate (Pi) and bicarbonate reabsorption by regulating the activity of apical Na/Pi cotransport and Na/H exchange. Two renal epithelial cell lines [“proximal tubular”, LLC-PK1; “distal tubular”, Madin-Darby canine kidney, (MDCK) cells] were stably transfected with complementary deoxyribonucleic acids (cDNAs) encoding a cloned PTH receptor in order to examine the polarity of transfected receptor function and whether or not intrinsic Pi transport is regulated by the transfected PTH receptor. The receptors are functionally coupled to the stimulation of adenosine 3':5' cyclic monophosphate (cAMP) production at both cell surfaces in LLC-PK1 cells, whereas this response is primarily limited to the basolateral surface in MDCK cells. Immunocytochemistry suggests an apical and basolateral localization of the transfected PTH receptor in LLC-PK1 cells and only a basolateral localization in MDCK cells. PTH activation of the transfected receptors is not coupled to the regulation of intrinsic Pi transport in either LLC-PK1 or MDCK cells.

Published
1995
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25. Regulation of opossum kidney (OK) cell Na/Pi cotransport by Pi deprivation involves mRNA stability

Author

Markovich, Daniel, Verri, Tiziano, Sorribas, Victor, Forgo, Judith, Biber, Jürg, and Murer, Heini

Abstract

Renal proximal tubular Na-dependent phosphate transport (Na/Pi cotransport) has been studied extensively in the opossum kidney (OK) cell line. Recently, we cloned a complementary deoxyribonucleic acid (cDNA) (NaPi-4) from OK cells encoding an apical NaPi cotransport system. OK cells exposed to a low-Pi medium, as compared to high-Pi media, responded with an increase in Na/Pi cotransport, which was followed by an increase in NaPi-4 messenger ribonucleic acid (mRNA) abundance; maximal stimulation of Na/Pi cotransport was reached in 2 h, with no further increase for up to 16 h. NAPi-4 mRNA abundance was unaltered for 2 h, then increased to a maximum after 6–16 h in cells treated with low Pi medium. NaPi-4 mRNA decay rate was lowered by low-Pi media when compared to high-Pi media, with no increase in the NaPi-4 mRNA transcription rate. These data suggest that the upregulation of Na/Pi cotransport in OK cells by low-Pi media involves two regulatory mechanisms: an immediate (early) increase (after 2 h) in the expression of Na/Pi cotransport, independent of mRNA synthesis or stability, and a delayed (late) effect (after 4–6 h), resulting in an increase in NaPi-4 mRNA abundance, due to an increased stability.

Published
1995
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