Romosozumab is a monoclonal antibody against sclerostin that initially exhibits potent anabolic effects in treating osteoporosis. However, its efficacy diminishes after 6 mo, with bone formation markers declining despite continued therapy. We hypothesized that increased levels of Dickkopf-1 (Dkk1), a Wnt pathway inhibitor, may contribute to this attenuation by suppressing osteoblast activity. We conducted a 12-mo prospective observational study on postmenopausal osteoporosis na & iuml;ve to anti-osteoporosis treatment treated with romosozumab. Serum levels of Dkk1, procollagen type I N-terminal propeptide (P1NP), C-terminal telopeptide of type I collagen (CTX), and sclerostin were measured at baseline (M0) and at 3 (M3), 6 (M6), and 12 mo (M12). BMD at the LS, FN, and TH was assessed at M0, M6, and M12. Associations between Dkk1 and P1NP were analyzed using linear mixed-effects models. Dkk1 levels increased significantly from 38.9 pmol/L at M0 to 44.2 pmol/L at M12 (p = .003). P1NP increased from 89.4 ng/mL at M0 to 115.4 ng/mL at M3 (p = .004) but decreased to 61.5 ng/mL by M12 (p < .001). CTX decreased significantly throughout the study (p < .001). BMD increased significantly at all sites by M12 (LS + 13.8%, FN + 6.3%, TH + 4.7%; all p < .01). An inverse association was found between Dkk1 increase and P1NP decrease between M3 and M12 (estimate = -0.909; p = .032). Romosozumab treatment is associated with a significant rise in Dkk1 levels, which correlates with a decrease in bone formation markers over time. Dkk1 may attenuate the anabolic effects of romosozumab by inhibiting Wnt signaling.
Increase in Serum DKK1 Levels Attenuates the Anabolic Response to Romosozumab in Postmenopausal Osteoporosis
Adami, Giovanni;Montanari, Filippo;Fassio, Angelo;Pollastri, Francesco;Piccinelli, Anna;Benini, Camilla;Tugnolli, Mattia;Gatti, Davide;Rossini, Maurizio;Viapiana, Ombretta
2025-01-01
Abstract
Romosozumab is a monoclonal antibody against sclerostin that initially exhibits potent anabolic effects in treating osteoporosis. However, its efficacy diminishes after 6 mo, with bone formation markers declining despite continued therapy. We hypothesized that increased levels of Dickkopf-1 (Dkk1), a Wnt pathway inhibitor, may contribute to this attenuation by suppressing osteoblast activity. We conducted a 12-mo prospective observational study on postmenopausal osteoporosis na & iuml;ve to anti-osteoporosis treatment treated with romosozumab. Serum levels of Dkk1, procollagen type I N-terminal propeptide (P1NP), C-terminal telopeptide of type I collagen (CTX), and sclerostin were measured at baseline (M0) and at 3 (M3), 6 (M6), and 12 mo (M12). BMD at the LS, FN, and TH was assessed at M0, M6, and M12. Associations between Dkk1 and P1NP were analyzed using linear mixed-effects models. Dkk1 levels increased significantly from 38.9 pmol/L at M0 to 44.2 pmol/L at M12 (p = .003). P1NP increased from 89.4 ng/mL at M0 to 115.4 ng/mL at M3 (p = .004) but decreased to 61.5 ng/mL by M12 (p < .001). CTX decreased significantly throughout the study (p < .001). BMD increased significantly at all sites by M12 (LS + 13.8%, FN + 6.3%, TH + 4.7%; all p < .01). An inverse association was found between Dkk1 increase and P1NP decrease between M3 and M12 (estimate = -0.909; p = .032). Romosozumab treatment is associated with a significant rise in Dkk1 levels, which correlates with a decrease in bone formation markers over time. Dkk1 may attenuate the anabolic effects of romosozumab by inhibiting Wnt signaling.
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