定量体外到体内外推法评估丙戊酸类似物的发育毒性效力。

Quantitative in vitro to in vivo extrapolation for developmental toxicity potency of valproic acid analogues.

机构信息

Inotiv-RTP, Morrisville, North Carolina, USA.

Stemina Biomarker Discovery, Inc., Madison, Wisconsin, USA.

出版信息

Birth Defects Res. 2022 Oct 1;114(16):1037-1055. doi: 10.1002/bdr2.2019. Epub 2022 May 9.

DOI:10.1002/bdr2.2019

PMID:35532929

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9790683/

Abstract

BACKGROUND

The developmental toxicity potential (dTP) concentration from the devTOX quickPredict (devTOX ) assay, a metabolomics-based human induced pluripotent stem cell assay, predicts a chemical's developmental toxicity potency. Here, in vitro to in vivo extrapolation (IVIVE) approaches were applied to address whether the devTOX assay could quantitatively predict in vivo developmental toxicity lowest effect levels (LELs) for the prototypical teratogen valproic acid (VPA) and a group of structural analogues.

METHODS

VPA and a series of structural analogues were tested with the devTOX assay to determine dTP concentration and we estimated the equivalent administered doses (EADs) that would lead to plasma concentrations equivalent to the in vitro dTP concentrations. The EADs were compared to the LELs in rat developmental toxicity studies, human clinical doses, and EADs reported using other in vitro assays. To evaluate the impact of different pharmacokinetic (PK) models on IVIVE outcomes, we compared EADs predicted using various open-source and commercially available PK and physiologically based PK (PBPK) models. To evaluate the effect of in vitro kinetics, an equilibrium distribution model was applied to translate dTP concentrations to free medium concentrations before subsequent IVIVE analyses.

RESULTS

The EAD estimates for the VPA analogues based on different PK/PBPK models were quantitatively similar to in vivo data from both rats and humans, where available, and the derived rank order of the chemicals was consistent with observed in vivo developmental toxicity. Different models were identified that provided accurate predictions for rat prenatal LELs and conservative estimates of human safe exposure. The impact of in vitro kinetics on EAD estimates is chemical-dependent. EADs from this study were within range of predicted doses from other in vitro and model organism data.

CONCLUSIONS

This study highlights the importance of pharmacokinetic considerations when using in vitro assays and demonstrates the utility of the devTOX human stem cell-based platform to quantitatively assess a chemical's developmental toxicity potency.

摘要

背景

发育毒性潜能 (dTP) 浓度来自 devTOX quickPredict (devTOX) 测定，这是一种基于代谢组学的人类诱导多能干细胞测定，可预测化学物质的发育毒性效力。在这里，应用了体外到体内外推 (IVIVE) 方法，以确定 devTOX 测定是否可以定量预测典型致畸剂丙戊酸 (VPA)和一组结构类似物的体内发育毒性最低效应水平 (LEL)。

方法

用 devTOX 测定法测试 VPA 和一系列结构类似物，以确定 dTP 浓度，并估计导致与体外 dTP 浓度相当的血浆浓度的等效给药剂量 (EAD)。将 EAD 与大鼠发育毒性研究、人类临床剂量和使用其他体外测定法报告的 EAD 进行比较。为了评估不同药代动力学 (PK) 模型对 IVIVE 结果的影响，我们比较了使用各种开源和商业 PK 和基于生理学的 PK (PBPK) 模型预测的 EAD。为了评估体外动力学的影响，应用平衡分布模型将 dTP 浓度转换为自由介质浓度，然后再进行后续的 IVIVE 分析。

结果

基于不同 PK/PBPK 模型的 VPA 类似物的 EAD 估计值与大鼠和人类的体内数据定量相似，在可用的情况下，并且所得到的化学物质的排序与观察到的体内发育毒性一致。确定了不同的模型，这些模型可准确预测大鼠产前 LEL，并保守估计人类的安全暴露量。体外动力学对 EAD 估计值的影响取决于化学物质。本研究中的 EAD 值在其他体外和模型生物数据预测的剂量范围内。

结论

本研究强调了在使用体外测定法时考虑药代动力学的重要性，并证明了 devTOX 人类干细胞为基础的平台用于定量评估化学物质发育毒性潜力的实用性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dc7c/9790683/4ba724dc8772/BDR2-114-1037-g005.jpg

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定量体外到体内外推法评估丙戊酸类似物的发育毒性效力。

Quantitative in vitro to in vivo extrapolation for developmental toxicity potency of valproic acid analogues.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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