Osteoclastogenesis in children with 21-hydroxylase deficiency on long-term glucocorticoid therapy: The role of receptor activator of nuclear factor-κB ligand/osteoprotegerin imbalance

Abstract

Context: Children with 21-hydroxylase deficiency (21-OHD) need chronic glucocorticoid (cGC) therapy to replace congenital deficit of cortisol synthesis. cGC therapy is the most frequent and severe form of drug-induced osteoporosis, and different mechanisms have been proposed to explain its pathogenesis. Objective: We investigated the osteoclastogenic potential of peripheral blood mononuclear cells (PBMCs) from 18 children with 21-OHD on cGC therapy and 25 controls who never received GCs. We also evaluated the presence of circulating osteoclast precursors (OCPs) and the role of T cells in osteoclast formation. Results: Spontaneous osteoclastogenesis, without adding macrophage-colony stimulating factor and receptor activator of nuclear factor-κB ligand (RANKL), and significantly higher osteoclasts resorption activity occurred in21-OHDpatients. Conversely, macrophage-colony stimulating factor and RANKL were essential to trigger and sustain osteoclastogenesis in controls. Furthermore, in 21-OHD patients, we identified a significant percentage of CD11b-CD51/CD61 and CD51/61-RANKpositive cells, which are OCPs strongly committed. Additionally, we demonstrated a T cell-dependent osteoclastogenesis from 21-OHD patients' PBMCs. T cells from patients expressed high levels of RANKL and low levels of osteoprotegerin (OPG) with respect to controls. Moreover, 21-OHD patients had higher soluble RANKL and lower OPG serum levels compared with controls; thus, soluble RANKL to OPG ratio was significantly higher in patients than controls. Conclusions: The present study showed for the first time a high osteoclastogenic potential of PBMCs from 21-OHD patients on cGC therapy. This spontaneous osteoclastogenesis seems to be supported by both the presence of circulating OCPs and factors released by T cells. Copyright © 2009 by The Endocrine Society.