Abstract
Inorganic polyphosphate (poly(P)) has recently been found to play an important role in bone formation. In this study, we found that tartrate-resistant acid phosphatase (TRAP), which is abundantly expressed in osteoclasts, has polyphosphatase activity that degrades poly(P) and yields Pi as well as shorter poly(P) chains. Since the TRAP protein that coprecipitated with anti-TRAP monoclonal antibodies exhibited both polyphosphatase and the original phosphatase activity, poly(P) degradation activity is dependent on TRAP and not on other contaminating enzymes. The ferrous chelator α, α’-bipyridyl, which inhibits the TRAP-mediated production of reactive oxygen species (ROS), had no effect on such poly(P) degradation, suggesting that the degradation is not dependent on ROS. In addition, shorter chain length poly(P) molecules were better substrates than longer chains for TRAP, and poly(P) inhibited the phosphatase activity of TRAP depending on its chain length. The IC50 of poly(P) against the original phosphatase activity of TRAP was 9.8 µM with an average chain length more than 300 phosphate residues, whereas the IC50 of poly(P) with a shorter average chain length of 15 phosphate residues was 8.3 mM. Finally, the pit formation activity of cultured rat osteoclasts differentiated by RANKL and M-CSF were markedly inhibited by poly(P), while no obvious decrease in cell number or differentiation efficiency was observed for poly(P). In particular, the inhibition of pit formation by long chain poly(P) with 300 phosphate residues was stronger than that of shorter chain poly(P). Thus, poly(P) may play an important regulatory role in osteoclastic bone resorption by inhibiting TRAP activity, which is dependent on its chain length.
Highlights
Inorganic polyphosphate (poly(P)) is a polymer of tens to hundreds of orthophosphate (Pi) linked together by high energy phosphate bonds and is widely found in organisms ranging from bacteria to mammals [1]
Results rh-Tartrate-resistant acid phosphatase (TRAP) catalyzes the degradation of poly(P) We first examined whether the Sf9 cell culture supernatant containing Recombinant human TRAP (rh-TRAP) could degrade poly(P)
When poly(P) had a longer average chain length of 750 phosphate residues (poly(P)750), very few degradation products were observed, including Pi. These results indicate that the culture supernatant containing rh-TRAP preferably degraded shorter chain length poly(P) and that the longer chain poly(P) is not suitable for the substrates
Summary
Inorganic polyphosphate (poly(P)) is a polymer of tens to hundreds of orthophosphate (Pi) linked together by high energy phosphate bonds and is widely found in organisms ranging from bacteria to mammals [1]. Various poly(P) functions, such as energy metabolism, survival, regulation of gene expression [2], translation fidelity [3,4], motility, and virulence [5,6] have been reported. In higher eukaryotes including mammals, several important poly(P) functions concerning bone regeneration [7,8] and blood coagulation [9,10,11,12] have been recently described, suggesting that poly(P) serves as a biologically active substance in mammals. Tartrate-resistant acid phosphatase (TRAP; EC 3.1.3.2), which is called type 5 acid phosphatase or purple acid phosphatase, is encoded by the Acp gene in mammals and translated as a 35 kDa monomeric protein with low enzyme activity [16]. TRAP seems to be secreted into the resorption lacuna and dephosphorylates bone matrix osteopontin, resulting in enhanced migration of osteoclasts [18,21]
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