UCB Pharma, Slough, UK.
UCB Pharma, Slough, UK.
Bone. 2018 Feb;107:93-103. doi: 10.1016/j.bone.2017.11.003. Epub 2017 Nov 9.
Administration of antibodies to sclerostin (Scl-Ab) has been shown to increase bone mass, bone mineral density (BMD) and bone strength by increasing bone formation and decreasing bone resorption in both animal studies and human clinical trials. In these studies, the magnitude and rate of increase in bone formation markers is attenuated upon repeat dosing with Scl-Ab despite a continuous and progressive increase in BMD. Here, we investigated whether the attenuation in the bone formation response following repeated administration of Scl-Ab was associated with increased expression of secreted antagonists of Wnt signalling and determined how the circulating marker of bone formation, P1NP, responded to single, or multiple doses, of Scl-Ab four days post-dosing. Female Balb/c mice were treated with Scl-Ab and we demonstrated that the large increase in serum P1NP observed following the first dose was reduced following administration of multiple doses of Scl-Ab. This dampening of the P1NP response was not due to a change in the kinetics of the bone formation marker response, or differences in exposure to the drug. The abundance of transcripts encoding several secreted Wnt antagonists was determined in femurs collected from mice following one or six doses of Scl-Ab, or vehicle treatment. Compared with vehicle controls, expression of SOST, SOST-DC1, DKK1, DKK2, SFRP1, SFRP2, FRZB, SFRP4 and WIF1 transcripts was significantly increased (approximately 1.5-4.2 fold) following a single dose of Scl-Ab. With the exception of SFRP1, these changes were maintained or further increased following six doses of Scl-Ab and the abundance of SFRP5 was also increased. Up-regulation of these Wnt antagonists may exert a negative feedback to increased Wnt signalling induced by repeated administration of Scl-Ab and could contribute to self-regulation of the bone formation response over time. After an antibody-free period of four weeks or more, the P1NP response was comparable to the naïve response, and a second phase of treatment with Scl-Ab following an antibody-free period elicited additional gains in BMD. Together, these data demonstrate that the rapid dampening of the bone formation response in the immediate post-dose period which occurs after repeat dosing of Scl-Ab is associated with increased expression of Wnt antagonists, and a treatment-free period can restore the full bone formation response to Scl-Ab.
骨硬化蛋白(Scl-Ab)抗体的给药已被证明可通过增加骨形成和减少骨吸收,在动物研究和人类临床试验中增加骨量、骨矿物质密度(BMD)和骨强度。在这些研究中,尽管 BMD 持续和逐渐增加,但 Scl-Ab 重复给药后骨形成标志物的增加幅度和速度会减弱。在这里,我们研究了 Scl-Ab 重复给药后骨形成反应的减弱是否与 Wnt 信号转导的分泌拮抗剂表达增加有关,并确定了骨形成的循环标志物 P1NP 在单次或多次 Scl-Ab 给药后四天如何响应 Scl-Ab。雌性 Balb/c 小鼠接受 Scl-Ab 治疗,我们证明了首次给药后观察到的血清 P1NP 的大幅增加,在 Scl-Ab 多次给药后减少。这种 P1NP 反应的抑制不是由于骨形成标志物反应动力学的变化或对药物的暴露差异引起的。在 Scl-Ab 单次或六次给药或载体处理后,从小鼠收集的股骨中确定了编码几种分泌型 Wnt 拮抗剂的转录本的丰度。与载体对照相比,Scl-Ab 单次给药后,SOST、SOST-DC1、DKK1、DKK2、SFRP1、SFRP2、FRZB、SFRP4 和 WIF1 转录本的表达显著增加(约 1.5-4.2 倍)。除了 SFRP1 之外,这些变化在 Scl-Ab 六次给药后保持或进一步增加,SFRP5 的丰度也增加。这些 Wnt 拮抗剂的上调可能对 Scl-Ab 重复给药引起的 Wnt 信号的增加产生负反馈作用,并有助于随着时间的推移对骨形成反应进行自我调节。在四周或更长时间的无抗体期后,P1NP 反应与初始反应相当,并且在无抗体期后进行第二阶段的 Scl-Ab 治疗会引起 BMD 的额外增加。总之,这些数据表明,Scl-Ab 重复给药后即刻剂量后骨形成反应的快速抑制与 Wnt 拮抗剂表达增加有关,无治疗期可恢复 Scl-Ab 对骨形成的完全反应。
