Pax5 Negatively Regulates Osteoclastogenesis through Downregulation of Blimp1.

Jiyeon Yu, Sumi Kim, Nari Lee, Hyoeun Jeon, Jun Lee, Masamichi Takami, Jaerang Rho

International journal of molecular sciences 2021 Feb 20

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Paired box protein 5 (Pax5) is a crucial transcription factor responsible for B-cell lineage specification and commitment. In this study, we identified a negative role of Pax5 in osteoclastogenesis. The expression of Pax5 was time-dependently downregulated by receptor activator of nuclear factor kappa B (RANK) ligand (RANKL) stimulation in osteoclastogenesis. Osteoclast (OC) differentiation and bone resorption were inhibited (68.9% and 48% reductions, respectively) by forced expression of Pax5 in OC lineage cells. Pax5 led to the induction of antiosteoclastogenic factors through downregulation of B lymphocyte-induced maturation protein 1 (Blimp1). To examine the negative role of Pax5 in vivo, we generated Pax5 transgenic (Pax5Tg) mice expressing the human Pax5 transgene under the control of the tartrate-resistant acid phosphatase (TRAP) promoter, which is expressed mainly in OC lineage cells. OC differentiation and bone resorption were inhibited (54.2-76.9% and 24.0-26.2% reductions, respectively) in Pax5Tg mice, thereby contributing to the osteopetrotic-like bone phenotype characterized by increased bone mineral density (13.0-13.6% higher), trabecular bone volume fraction (32.5-38.1% higher), trabecular thickness (8.4-9.0% higher), and trabecular number (25.5-26.7% higher) and decreased trabecular spacing (9.3-10.4% lower) compared to wild-type control mice. Furthermore, the number of OCs was decreased (48.8-65.3% reduction) in Pax5Tg mice. These findings indicate that Pax5 plays a negative role in OC lineage specification and commitment through Blimp1 downregulation. Thus, our data suggest that the Pax5-Blimp1 axis is crucial for the regulation of RANKL-induced osteoclastogenesis.

Citation

Jiyeon Yu, Sumi Kim, Nari Lee, Hyoeun Jeon, Jun Lee, Masamichi Takami, Jaerang Rho. Pax5 Negatively Regulates Osteoclastogenesis through Downregulation of Blimp1. International journal of molecular sciences. 2021 Feb 20;22(4)