Department of Mathematics, University of Michigan, Ann Arbor, MI 48109-1043, USA.
Command Post 1412 Broadway, New York, NY 10018, USA.
Math Biosci. 2017 Dec;294:1-14. doi: 10.1016/j.mbs.2017.09.005. Epub 2017 Sep 14.
Despite advanced efforts in early diagnosis, aggressive surgical treatment, and use of targeted chemotherapies, the prognosis for many cancers is still dismal. This emphasizes the necessity to develop new strategies for understanding tumor growth and metastasis. Here we use a systems approach that combines mathematical modeling and numerical simulation to develop a predictive computational model for prostate cancer and its subversion of the bone microenvironment. This model simulates metastatic prostate cancer evolution, progressing from normal bone and hormone levels to quantifiable diseased states. The simulations clearly demonstrate phenomena similar to those found clinically in prostate cancer patients. In addition, the major prediction of this model is the existence of low and high osteogenic states that are markedly different from one another. The existence and potential realization of these steady states appear to be mediated by the Wnt signaling pathway and by the effects of PSA on TGF-β, which encourages the bone microenvironment to evolve. The model is used to explore several potential therapeutic strategies, with some potential drug targets showing more promise than others: in particular, completely blocking Wnt and greatly increasing DKK-1 had significant positive effects, while blocking RANKL did not improve the outcome.
尽管在早期诊断、积极的手术治疗和靶向化疗方面取得了进展,但许多癌症的预后仍然不容乐观。这强调了有必要开发新的策略来了解肿瘤生长和转移。在这里,我们使用一种系统方法,结合数学建模和数值模拟,为前列腺癌及其对骨微环境的颠覆建立了一个预测性的计算模型。该模型模拟转移性前列腺癌的演变,从正常骨骼和激素水平进展到可量化的疾病状态。这些模拟清楚地展示了与临床前列腺癌患者相似的现象。此外,该模型的主要预测是存在低骨生成状态和高骨生成状态,这两种状态彼此明显不同。这些稳定状态的存在和潜在实现似乎是由 Wnt 信号通路和 PSA 对 TGF-β的影响介导的,后者鼓励骨微环境进化。该模型被用于探索几种潜在的治疗策略,一些潜在的药物靶点比其他靶点更有希望:特别是,完全阻断 Wnt 和大大增加 DKK-1 具有显著的积极效果,而阻断 RANKL 并不能改善结果。