Establishing combination PAC-1 and TRAIL regimens for treating ovarian cancer based on patient-specific pharmacokinetic profiles using in silico clinical trials

Olivia Cardinal, Chloé Burlot, Yangxin Fu, Powel Crosley, Mary Hitt, Morgan Craig, Adrianne L. Jenner
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Abstract

Ovarian cancer is commonly diagnosed in its late stages, and new treatment modalities are needed to improve patient outcomes and survival. We have recently established the synergistic effects of combination tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) and procaspase activating compound (PAC-1) therapies in granulosa cell tumors (GCT) of the ovary, a rare form of ovarian cancer, using a mathematical model of the effects of both drugs in a GCT cell line. Here, to understand the mechanisms of combined TRAIL and PAC-1 therapy, study the viability of this treatment strategy, and accelerate preclinical translation, we leveraged our mathematical model in combination with population pharmacokinetics (PKs) models of both TRAIL and PAC-1 to expand a realistic heterogeneous cohort of virtual patients and optimize treatment schedules. Using this approach, we investigated treatment responses in this virtual cohort and determined optimal therapeutic schedules based on patient-specific PK characteristics. Our results showed that schedules with high initial doses of PAC-1 were required for therapeutic efficacy. Further analysis of individualized regimens revealed two distinct groups of virtual patients within our cohort: one with high PAC-1 elimination and one with normal PAC-1 elimination. In the high elimination group, high weekly doses of both PAC-1 and TRAIL were necessary for therapeutic efficacy; however, virtual patients in this group were predicted to have a worse prognosis when compared to those in the normal elimination group. Thus, PAC-1 PK characteristics, particularly clearance, can be used to identify patients most likely to respond to combined PAC-1 and TRAIL therapy. This work underlines the importance of quantitative approaches in preclinical oncology.

Abstract Image

基于计算机临床试验的患者特异性药代动力学特征,建立PAC-1和TRAIL联合治疗卵巢癌的方案
卵巢癌通常在晚期被诊断出来,需要新的治疗方式来改善患者的预后和生存率。我们最近建立了肿瘤坏死因子相关凋亡诱导配体(TRAIL)和原aspase激活化合物(PAC-1)联合治疗卵巢颗粒细胞瘤(GCT)的协同作用,这是一种罕见的卵巢癌,使用两种药物在GCT细胞系中的作用的数学模型。在这里,为了了解TRAIL和PAC-1联合治疗的机制,研究这种治疗策略的可行性,并加速临床前转化,我们利用我们的数学模型结合TRAIL和PAC-1的群体药代动力学(PKs)模型来扩大虚拟患者的现实异质队列并优化治疗计划。使用这种方法,我们在这个虚拟队列中调查了治疗反应,并根据患者特定的PK特征确定了最佳治疗方案。我们的研究结果表明,高初始剂量的PAC-1计划是治疗效果所必需的。对个体化治疗方案的进一步分析显示,在我们的队列中有两组不同的虚拟患者:一组PAC-1消除率高,一组PAC-1消除率正常。在高消除组,高剂量的PAC-1和TRAIL是治疗效果所必需的;然而,与正常消除组相比,该组的虚拟患者预计预后更差。因此,PAC-1 PK特征,特别是清除率,可用于识别最有可能对PAC-1和TRAIL联合治疗有反应的患者。这项工作强调了定量方法在临床前肿瘤学中的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
2.80
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0.00%
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审稿时长
8 weeks
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