The phosphate transporter NaPi-IIa determines the rapid renal adaptation to dietary phosphate intake in mouse irrespective of persistently high FGF23 levels

Renal reabsorption of inorganic phosphate (Pi) is mediated by the phosphate transporters NaPi-IIa, NaPi-IIc, and Pit-2 in the proximal tubule brush border membrane (BBM). Dietary Pi intake regulates these transporters; however, the contribution of the specific isoforms to the rapid and slow phase is...

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Published in:Pflügers Archiv 2013-11, Vol.465 (11), p.1557-1572
Main Authors: Bourgeois, Soline, Capuano, Paola, Stange, Gerti, Mühlemann, Reto, Murer, Heini, Biber, Jürg, Wagner, Carsten A.
Format: Article
Language:English
Subjects:
Adaptation, Physiological
Adaptor Proteins, Signal Transducing - metabolism
Animals
Biomedical and Life Sciences
Biomedicine
Cell Biology
Fibroblast Growth Factors - metabolism
Human Physiology
Intestinal Absorption
Ion Channels
Kidney Tubules, Proximal - metabolism
Kidney Tubules, Proximal - physiology
Membrane Proteins - genetics
Membrane Proteins - metabolism
Mice
Mice, Inbred C57BL
Mice, Knockout
Molecular Medicine
Neurosciences
Phosphorus, Dietary - blood
Phosphorus, Dietary - metabolism
Phosphorus, Dietary - urine
Receptors
Receptors and Transporters
Sodium-Phosphate Cotransporter Proteins, Type IIa - genetics
Sodium-Phosphate Cotransporter Proteins, Type IIa - metabolism
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Summary:Renal reabsorption of inorganic phosphate (Pi) is mediated by the phosphate transporters NaPi-IIa, NaPi-IIc, and Pit-2 in the proximal tubule brush border membrane (BBM). Dietary Pi intake regulates these transporters; however, the contribution of the specific isoforms to the rapid and slow phase is not fully clarified. Moreover, the regulation of PTH and FGF23, two major phosphaturic hormones, during the adaptive phase has not been correlated. C57/BL6 and NaPi-IIa −/− mice received 5 days either 1.2 % (HPD) or 0.1 % (LPD) Pi-containing diets. Thereafter, some mice were acutely switched to LPD or HPD. Plasma Pi concentrations were similar under chronic diets, but lower when mice were acutely switched to LPD. Urinary Pi excretion was similar in C57/BL6 and NaPi-IIa −/− mice under HPD. During chronic LPD, NaPi-IIa −/− mice lost phosphate in urine compensated by higher intestinal Pi absorption. During the acute HPD-to-LPD switch, NaPi-IIa −/− mice exhibited a delayed decrease in urinary Pi excretion. PTH was acutely regulated by low dietary Pi intake. FGF23 did not respond to low Pi intake within 8 h whereas the phospho-adaptator protein FRS2 α necessary for FGF-receptor cell signaling was downregulated. BBM Pi transport activity and NaPi-IIa but not NaPi-IIc and Pit-2 abundance acutely adapted to diets in C57/BL6 mice. In NaPi-IIa −/− , Pi transport activity was low and did not adapt. Thus, NaPi-IIa mediates the fast adaptation to Pi intake and is upregulated during the adaptation to low Pi despite persistently high FGF23 levels. The sensitivity to FGF23 may be regulated by adapting FRS2α abundance and phosphorylation.
ISSN:0031-6768
1432-2013
DOI:10.1007/s00424-013-1298-9