Department of Mechanical Engineering, University of Delaware, Newark, DE, USA.
Department of Biomedical Engineering, University of Delaware, Newark, DE, USA.
Bone. 2024 Nov;188:117235. doi: 10.1016/j.bone.2024.117235. Epub 2024 Aug 13.
Aging leads to a reduced anabolic response to mechanical stimuli and a loss of bone mass and structural integrity. Chemotherapy agents such as doxorubicin exacerbate the degeneration of aging skeleton and further subject older cancer patients to a higher fracture risk. To alleviate this clinical problem, we proposed and tested a novel mechanobiology-based therapy. Building upon prior findings that i) Yoda1, the Piezo1 agonist, promoted bone growth in young adult mice and suppressed bone resorption markers in aged mice, and ii) moderate tibial loading protected bone from breast cancer-induced osteolysis, we hypothesized that combined Yoda1 and moderate loading would improve the structural integrity of adult and aged skeletons in vivo and protect bones from deterioration after chemotherapy. We first examined the effects of 4-week Yoda1 (dose 5 mg/kg, 5 times/week) and moderate tibial loading (4.5 N peak load, 4 Hz, 300 cycles for 5 days/week), individually and combined, on mature mice (∼50 weeks of age). Combined Yoda1 and loading was found to mitigate age-associated cortical and trabecular bone loss better than individual interventions. As expected, the non-treated controls experienced an average drop of cortical polar moment of inertia (Ct.pMOI) by -4.3 % over four weeks and the bone deterioration occurred in the majority (64 %) of the samples. Relative to no treatment, loading alone, Yoda1 alone, and combined Yoda1 and loading increased Ct.pMOI by +7.3 %, +9.5 %, +12.0 % and increased the % of samples with positive Ct.pMOI changes by +32 %, +26 %, and +43 %, respectively, suggesting an additive protection of aging-related bone loss for the combined therapy. We further tested if the treatment efficacy was preserved in mature mice following two weeks (six injections) of doxorubicin at the dose of 2.5 or 5 mg/kg. As expected, doxorubicin increased osteocyte apoptosis, altered bone remodeling, and impaired bone structure. However, the effects induced by DOX were too severe to be rescued by Yoda1 and loading, alone or combined, although loading and Yoda1 individually, or combined, increased the number of mice showing positive responsiveness by 0 %, +15 %, and +29 % relative to no intervention after doxorubicin exposure. Overall, this study supported the potentials and challenges of the Yoda1-based strategy in mitigating the detrimental skeletal effects caused by aging and doxorubicin.
衰老是导致机械刺激的合成代谢反应降低和骨量及结构完整性丧失的主要原因。阿霉素等化疗药物会加剧衰老骨骼的退化,并使老年癌症患者面临更高的骨折风险。为了缓解这一临床问题,我们提出并测试了一种新的基于机械生物学的治疗方法。基于以下发现:i)Piezo1 激动剂 Yoda1 可促进年轻成年小鼠的骨骼生长,并抑制老年小鼠的骨吸收标志物;ii)适度的胫骨加载可保护骨骼免受乳腺癌引起的溶骨性破坏,我们假设 Yoda1 联合适度加载可改善成年和老年骨骼的结构完整性,并防止骨骼在化疗后恶化。我们首先检查了 4 周 Yoda1(剂量 5mg/kg,每周 5 次)和适度胫骨加载(峰值 4.5N,4Hz,每周 5 天,300 个循环),单独和联合使用对成熟小鼠(约 50 周龄)的影响。结果发现,联合 Yoda1 和加载比单独干预更能减轻与年龄相关的皮质和小梁骨丢失。正如预期的那样,未经治疗的对照组在四周内皮质极惯性矩(Ct.pMOI)平均下降了-4.3%,且大多数(64%)样本出现了骨恶化。与未治疗相比,加载单独、Yoda1 单独和联合 Yoda1 和加载分别使 Ct.pMOI 增加了+7.3%、+9.5%和+12.0%,使 Ct.pMOI 变化呈阳性的样本比例增加了+32%、+26%和+43%,表明联合治疗对与年龄相关的骨丢失具有附加保护作用。我们进一步测试了在 2.5 或 5mg/kg 阿霉素剂量下,成熟小鼠接受两周(6 次注射)治疗后的治疗效果是否保持不变。正如预期的那样,阿霉素增加了破骨细胞凋亡、改变了骨重塑,并损害了骨结构。然而,DOX 引起的影响过于严重,无法通过 Yoda1 和加载单独或联合来挽救,尽管加载和 Yoda1 单独或联合使用后,与阿霉素暴露后未干预相比,使表现出阳性反应的小鼠数量分别增加了 0%、+15%和+29%。总体而言,这项研究支持了基于 Yoda1 的策略在减轻衰老和阿霉素引起的骨骼不良影响方面的潜力和挑战。
