Targeting sphingosine-1-phosphate lyase as an anabolic therapy for bone loss

内分泌学 内科学 骨重建 骨质疏松症 骨保护素 骨量减少 医学 合成代谢 甲状旁腺激素 化学 骨吸收 骨矿物 受体 激活剂(遗传学)
作者
Sarah Weske,Mithila Vaidya,A. Reese,Karin von Wnuck Lipinski,Petra Keul,Julia K. Bayer,Jens W. Fischer,Ulrich Flögel,Jens Nelsen,Matthias Epple,Marta Scatena,Edzard Schwedhelm,Marcus Dörr,Henry Völzke,Eileen Moritz,Anke Hannemann,Bernhard H. Rauch,Markus H. Gräler,Gerd Heusch,Bodo Levkau
出处
期刊:Nature Medicine [Nature Portfolio]
卷期号:24 (5): 667-678 被引量:111
标识
DOI:10.1038/s41591-018-0005-y
摘要

Sphingosine-1-phosphate (S1P) signaling influences bone metabolism, but its therapeutic potential in bone disorders has remained unexplored. We show that raising S1P levels in adult mice through conditionally deleting or pharmacologically inhibiting S1P lyase, the sole enzyme responsible for irreversibly degrading S1P, markedly increased bone formation, mass and strength and substantially decreased white adipose tissue. S1P signaling through S1P2 potently stimulated osteoblastogenesis at the expense of adipogenesis by inversely regulating osterix and PPAR-γ, and it simultaneously inhibited osteoclastogenesis by inducing osteoprotegerin through newly discovered p38–GSK3β–β-catenin and WNT5A–LRP5 pathways. Accordingly, S1P2-deficient mice were osteopenic and obese. In ovariectomy-induced osteopenia, S1P lyase inhibition was as effective as intermittent parathyroid hormone (iPTH) treatment in increasing bone mass and was superior to iPTH in enhancing bone strength. Furthermore, lyase inhibition in mice successfully corrected severe genetic osteoporosis caused by osteoprotegerin deficiency. Human data from 4,091 participants of the SHIP-Trend population-based study revealed a positive association between serum levels of S1P and bone formation markers, but not resorption markers. Furthermore, serum S1P levels were positively associated with serum calcium , negatively with PTH , and curvilinearly with body mass index. Bone stiffness, as determined through quantitative ultrasound, was inversely related to levels of both S1P and the bone formation marker PINP, suggesting that S1P stimulates osteoanabolic activity to counteract decreasing bone quality. S1P-based drugs should be considered as a promising therapeutic avenue for the treatment of osteoporotic diseases. Promoting more bone growth is of keen interest in the treatment of osteoporosis, and preventing the degradation of S1P offers a new therapeutic avenue for this approach.
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