Mechanical stimulation of polycystin-1 induces human osteoblastic gene expression via potentiation of the calcineurin/NF

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Cellular and Molecular Life Sciences

RESEARCH ARTICLE

Mechanical stimulation of polycystin-1 induces human osteoblastic gene expression via potentiation of the calcineurin/NFAT signaling axis Georgia Dalagiorgou • Christina Piperi • Urania Georgopoulou • Christos Adamopoulos • Efthimia K. Basdra • Athanasios G. Papavassiliou

Received: 10 July 2012 / Revised: 3 September 2012 / Accepted: 6 September 2012 / Published online: 27 September 2012 Springer Basel AG 2012

Abstract Mechanical forces trigger biological responses in bone cells that ultimately control osteoblastogenesis and bone program. Although several mechanosensors have been postulated, the precise mechanotransduction pathway remains obscure as the initial mechanosensing event has not yet been identified. Studies in kidney cells have shown that polycystin-1 (PC1), via its extracellular N-terminal part, may function as an ‘‘antenna-like’’ protein providing a linkage between environmental cues and their conversion into biochemical responses that regulate various cellular processes via the calcineurin/NFAT pathway. Here we explored the involvement of PC1 in mechanical load (stretching)-induced signaling cascades that control osteoblastogenesis/bone formation. FACS and TransAM Transcription Factor ELISA analyses employing extracts from primary human osteoblast-like, PC1 expressing cells subjected to mechanical stretching (0–6 h) revealed that unphosphorylated/DNA-binding competent NFATc1 increased at 0.5–1 h and returned to normal at 6 h. In accordance with the activation mechanism of NFATc1, stretching of cultured cells pre-treated with cyclosporin A (CsA, a specific inhibitor of the calcineurin/NFAT pathway)

G. Dalagiorgou and C. Piperi contributed equally to this study. G. Dalagiorgou C. Piperi C. Adamopoulos E. K. Basdra (&) A. G. Papavassiliou Cellular and Molecular Biomechanics Unit, Department of Biological Chemistry, University of Athens Medical School, 75, M. Asias Street, 11527 Athens, Greece e-mail: [email protected]; [email protected] U. Georgopoulou Molecular Virology Laboratory, Hellenic Pasteur Institute, 11527 Athens, Greece

abrogated the observed decrease in the abundance of the cytoplasmic pNFATc1 (phosphorylated/inactive) species. Furthermore, stretching of osteoblastic cells pre-treated with an antibody against the mechanosensing N-terminal part of PC1 also abrogated the observed decrease in the cytoplasmic levels of the inactive pNFATc1 species. Importantly, under similar conditions (pre-incubation of stretched cells with the inhibitory anti-PC1 antibody), the expression of the key osteoblastic, NFATc1-target gene runx2 decreased compared to untreated cells. Therefore, PC1 acts as chief mechanosensing molecule that modulates osteoblastic gene transcription and hence bone-cell differentiation through the calcineurin/NFAT signaling cascade. Keywords Polycystin-1 (PC1) Human osteoblastic cells Mechanotransduction Calcineurin/NFAT pathway Runx2

Abbreviations ADPKD Autosomal dominant polycystic kidney disease CsA Cyclospo

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Mechanical stimulation of polycystin-1 induces human osteoblastic gene expression via potentiation of the calcineurin/NF

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