多尺度生理基于药代动力学模型研究多柔比星在人体生理环境中的细胞毒性和心脏毒性机制。

A Multiscale Physiologically-Based Pharmacokinetic Model for Doxorubicin to Explore its Mechanisms of Cytotoxicity and Cardiotoxicity in Human Physiological Contexts.

机构信息

Division of Pharmacotherapy and Experimental Therapeutics, School of Pharmacy, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina, 27599, USA.

Center of Drug Metabolism and Pharmacokinetics, China Pharmaceutical University, Nanjing, 210009, China.

出版信息

Pharm Res. 2018 Jul 9;35(9):174. doi: 10.1007/s11095-018-2456-8.

DOI:10.1007/s11095-018-2456-8

PMID:29987398

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6533104/

Abstract

PURPOSE

The mechanisms underlying doxorubicin cytotoxicity and cardiotoxicity were broadly explored but remain incompletely understood. A multiscale physiologically-based pharmacokinetic (PBPK) model was developed to assess doxorubicin dispositions at levels of system, tissue interstitial, cell, and cellular organelles. This model was adopted to explore the mechanisms-of-action/toxicity of doxorubicin in humans.

METHODS

The PBPK model was developed by analyzing data from mice and the model was verified by scaling up to predict doxorubicin multiscale dispositions in rats and humans. The multiscale dispositions of doxorubicin in human heart and tumors were explicitly simulated to elucidate the potential mechanisms of its cytotoxicity and cardiotoxicity.

RESULTS

The developed PBPK model was able to adequately describe doxorubicin dispositions in mice, rats and humans. In humans, prolonged infusion, a dosing regimen with less cardiotoxicity, was predicted with substantially reduced free doxorubicin concentrations at human heart interstitium, which were lower than the concentrations associated with oxidative stress. However, prolonged infusion did not reduce doxorubicin-DNA adduct at tumor nucleus, consistent with clinical observations that prolonged infusion did not compromise anti-tumor effect, indicating that one primary anti-tumor mechanism was DNA torsion.

CONCLUSIONS

A multiscale PBPK model for doxorubicin was developed and further applied to explore its cytotoxic and cardiotoxic mechanisms.

摘要

目的

多柔比星细胞毒性和心脏毒性的机制已广泛研究，但仍不完全清楚。本研究建立了一个多尺度基于生理学的药代动力学（PBPK）模型，以评估多柔比星在系统、组织间隙、细胞和细胞细胞器水平的分布。该模型用于探索多柔比星在人体内的作用机制/毒性。

方法

通过分析来自小鼠的数据来开发 PBPK 模型，并通过外推至大鼠和人体来验证该模型，以预测多柔比星的多尺度分布。明确模拟多柔比星在人心脏和肿瘤中的多尺度分布，以阐明其细胞毒性和心脏毒性的潜在机制。

结果

所开发的 PBPK 模型能够充分描述小鼠、大鼠和人体内多柔比星的分布。在人体内，与心脏间质中与氧化应激相关的浓度相比，长时间输注（一种心脏毒性较小的给药方案）预测会导致游离多柔比星浓度显著降低。然而，长时间输注并未降低肿瘤细胞核内的多柔比星-DNA 加合物，这与临床观察一致，即长时间输注不会影响抗肿瘤效果，表明一种主要的抗肿瘤机制是 DNA 扭曲。

结论

建立了一个多柔比星的多尺度 PBPK 模型，并进一步应用于探索其细胞毒性和心脏毒性机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4d97/6533104/1f717b3d42e0/nihms-1023969-f0001.jpg

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多尺度生理基于药代动力学模型研究多柔比星在人体生理环境中的细胞毒性和心脏毒性机制。

A Multiscale Physiologically-Based Pharmacokinetic Model for Doxorubicin to Explore its Mechanisms of Cytotoxicity and Cardiotoxicity in Human Physiological Contexts.

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出版信息

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