Estimation of acceptable daily intake values based on modeling and in vivo mutagenicity of NDSRIs of fluoxetine, duloxetine and atomoxetine

IF 3 4区医学 Q1 MEDICINE, LEGAL

Regulatory Toxicology and Pharmacology Pub Date : 2024-07-04 DOI:10.1016/j.yrtph.2024.105672

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引用次数: 0

Abstract

Nitrosamine drug substance related impurities or NDSRIs can be formed if an active pharmaceutical ingredient (API) has an intrinsic secondary amine that can undergo nitrosation. This is a concern as 1) nitrosamines are potentially highly potent carcinogens, 2) secondary amines in API are common, and 3) NDSRIs that might form from such secondary amines will be of unknown carcinogenic potency. Approaches for evaluating NDSRIs include read across, quantum mechanical modeling of reactivity, in vitro mutation data, and transgenic in vivo mutation data. These approaches were used here to assess NDSRIs that could potentially form from the drugs fluoxetine, duloxetine and atomoxetine. Based on a read across informed by modeling of physicochemical properties and mechanistic activation from quantum mechanical modeling, NDSRIs of fluoxetine, duloxetine, and atomoxetine were 10-100-fold less potent compared with highly potent nitrosamines such as NDMA or NDEA. While the NDSRIs were all confirmed to be mutagenic in vitro (Ames assay) and in vivo (TGR) studies, the latter data indicated that the potency of the mutation response was ≥4400 ng/day for all compounds-an order of magnitude higher than published regulatory limits for these NDSRIs. The approaches described herein can be used qualitatively to better categorize NDSRIs with respect to potency and inform whether they are in the ICH M7 (R2) designated Cohort of Concern.

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根据氟西汀、度洛西汀和阿托莫西汀的 NDSRIs 的模型和体内突变性估算每日可接受摄入量。

如果活性药物成分（API）中固有的仲胺会发生亚硝化作用，就会形成亚硝胺药物物质相关杂质或 NDSRI。这是一个令人担忧的问题，因为：1）亚硝胺是潜在的强致癌物；2）原料药中的仲胺很常见；3）由此类仲胺可能形成的 NDSRI 的致癌效力未知。评估 NDSRI 的方法包括跨读、反应性量子力学建模、体外突变数据和转基因体内突变数据。本文采用这些方法来评估氟西汀、度洛西汀和阿托西汀等药物可能形成的 NDSRI。根据理化性质建模和量子力学建模的机理激活，氟西汀、度洛西汀和阿托西汀的 NDSRIs 与 NDMA 或 NDEA 等强效亚硝胺相比，药效低 10-100 倍。虽然 NDSRIs 在体外（Ames 试验）和体内（TGR）研究中都被证实具有诱变性，但后者的数据表明，所有化合物的突变反应效力都大于 4400 纳克/天--比这些 NDSRIs 的已公布监管限值高出一个数量级。本文描述的方法可用于定性分析，以更好地对 NDSRIs 的效力进行分类，并告知它们是否属于 ICH M7R2 指定的关注群组。

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

Regulatory Toxicology and Pharmacology 医学-毒理学

CiteScore

6.70

自引率

8.80%

发文量

147

审稿时长

58 days

期刊介绍： Regulatory Toxicology and Pharmacology publishes peer reviewed articles that involve the generation, evaluation, and interpretation of experimental animal and human data that are of direct importance and relevance for regulatory authorities with respect to toxicological and pharmacological regulations in society. All peer-reviewed articles that are published should be devoted to improve the protection of human health and environment. Reviews and discussions are welcomed that address legal and/or regulatory decisions with respect to risk assessment and management of toxicological and pharmacological compounds on a scientific basis. It addresses an international readership of scientists, risk assessors and managers, and other professionals active in the field of human and environmental health. Types of peer-reviewed articles published: -Original research articles of relevance for regulatory aspects covering aspects including, but not limited to: 1.Factors influencing human sensitivity 2.Exposure science related to risk assessment 3.Alternative toxicological test methods 4.Frameworks for evaluation and integration of data in regulatory evaluations 5.Harmonization across regulatory agencies 6.Read-across methods and evaluations -Contemporary Reviews on policy related Research issues -Letters to the Editor -Guest Editorials (by Invitation)