Vacuolar adenosine triphosphatase (V-ATPase) proton pumps play an essential role in the acidification of the bone matrix during osteoclast-mediated bone resorption. Recently, mice lacking the V-ATPase d2 subunit have been shown to be osteopetrotic due to defective osteoclasts (Lee et al., Nature Med, 2006). Here, to investigate the transcriptional regulation of the d2 gene during RANKL-induced osteoclastogenesis, we have cloned and characterized its promoter region. By semi-quantitative RT-PCR, expression of d2 and NFATc1 was found to be strongly up-regulated by RANKL but not by other pro-osteoclastic factors including TNF, LPS and M-CSF. Bioinformatic analysis of the cloned 3 kb d2 promoter region revealed several candidate transcription factor binding sites including NFATc1, a key transcription factor for osteoclastogenesis.

To explore the influence of RANKL on d2 transcription, we generated a series of d2 promoter constructs using the pGL-3 reporter plasmid. Using luciferase assays, the d2 promoter was found to be induced by RANKL stimulation. Chromatin immunoprecipitation (ChIP) assays demonstrate that NFATc1 forms a complex with the d2 promoter. Using EMSA assays, we have defined a specific NFATc1 biding site between nucleotide − 555 to −561 upstream from the translation start site of d2 gene. Furthermore, targeted mutagenesis of the putative NFAT transcription binding site was found to significantly reduce the luciferase activity as induced by NFATc1 over expression. Addition of the NFAT inhibitor cyclosporin A was found to blunt the mRNA expression of d2 induced by RANKL in RAW264.7 cells.

We propose that NFATc1 is an important regulator of d2 transcription during RANKL-induced osteoclastogenesis.