Extracellular phosphate (P) can act as a signaling molecule that directly alters gene expression and cellular physiology. The ability of cells or organisms to detect changes in extracellular P levels implies the existence of a P-sensing mechanism that signals to the body or individual cell. However, unlike in prokaryotes, yeasts, and plants, the molecular players involved in P sensing in mammals remain unknown. In this study, we investigated the involvement of the high-affinity, sodium-dependent P transporters PiT1 and PiT2 in mediating P signaling in skeletal cells. We found that deletion of PiT1 or PiT2 blunted the P-dependent ERK1/2-mediated phosphorylation and subsequent gene up-regulation of the mineralization inhibitors matrix Gla protein and osteopontin. This result suggested that both PiTs are necessary for P signaling. Moreover, the ERK1/2 phosphorylation could be rescued by overexpressing P transport-deficient PiT mutants. Using cross-linking and bioluminescence resonance energy transfer approaches, we found that PiT1 and PiT2 form high-abundance homodimers and P-regulated low-abundance heterodimers. Interestingly, in the absence of sodium-dependent P transport activity, the PiT1-PiT2 heterodimerization was still regulated by extracellular P levels. Of note, when two putative P-binding residues, Ser-128 (in PiT1) and Ser-113 (in PiT2), were substituted with alanine, the PiT1-PiT2 heterodimerization was no longer regulated by extracellular P These observations suggested that P binding rather than P uptake may be the key factor in mediating P signaling through the PiT proteins. Taken together, these results demonstrate that P-regulated PiT1-PiT2 heterodimerization mediates P sensing independently of P uptake.
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| http://dx.doi.org/10.1074/jbc.M117.807339 | DOI Listing |
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