Release and interconversion of P2 receptor agonists by human osteoblast-like cells

doi:10.1096/fj.02-0940com

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Release and interconversion of P2 receptor agonists by human osteoblast-like cells

K. A. BUCKLEY¹, S. L. GOLDING, J. M. RICE^*, J. P. DILLON and J. A. GALLAGHER

Human Bone Cell Research Group, Department of Human Anatomy and Cell Biology, University of Liverpool, L69 3GE, UK; and UK Centre for Tissue Engineering,
^* Department of Clinical Engineering, University of Liverpool, L69 3GA, UK

¹Correspondence: Department Human Anatomy and Cell Biology, The Sherrington Buildings, Ashton St., University of Liverpool, L69 3GE, UK. E-mail: buckleyk{at}liv.ac.uk

Nucleotides, acting as agonists at P2 receptors, are importantextracellular signaling molecules in many tissues. In bone theyaffect both bone-forming osteoblast and bone-resorbing osteoclastcell activity. The presence of nucleotides in the extracellularmicroenvironment is largely determined by their release fromcells and metabolism by ecto-enzymes, both of which have scarcelybeen studied in bone. We have investigated adenosine 5'-triphosphate(ATP) release from SaOS-2 osteoblastic cells and the activitiesof cell surface ecto-enzymes on ATP metabolism. ATP, but notLDH, was detected in SaOS-2 cell conditioned medium, suggestingthese cells were actively releasing ATP. Introduction of ADPresulted in increased ATP concentrations in the medium, whichwas found not to be receptor mediated. Nucleotide inhibitionand substrate specificity studies revealed an ecto-nucleosidediphosphokinase (ecto-NDPK) was responsible for the ADP $->$ ATP conversion;PCR and immunocytochemistry confirmed its presence. Analysisof ATP metabolism over time demonstrated overall ATP degradationwas increased by inhibiting ecto-NDPK activity; confirming thatthe combined action of multiple osteoblast-expressed ecto-enzymesaffected extracellular nucleotide concentration. The data establishthe coexistence of ATP-consuming, and for the first time, ATP-generatingactivities on the osteoblast cell surface, the discovery ofwhich has significant implications for studies involving P2receptor subtypes in bone.

Key Words: ATP • ADP • bone • ecto-nucleoside diphosphokinase • ecto-NDPK.

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