体外神经毒性测试：从化疗引起的外周神经毒性中汲取教训。

Expert opinion on drug metabolism & toxicology Pub Date : 2024-11-01 Epub Date: 2024-09-10 DOI:10.1080/17425255.2024.2401584

Olga Tarasiuk, Chiara Invernizzi, Paola Alberti

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引用次数: 0

摘要

简介化疗诱发周围神经毒性（CIPN）是一种由常用抗癌药物引起的长期甚至永久性的晚期毒性。CIPN 影响着越来越多的癌症幸存者，并降低了他们的生活质量，因为目前还没有治疗/预防方法。导致这种临床需求未得到满足的原因有很多，其中之一就是对导致 CIPN 的机制了解不全面。因此，目前仍亟需开展台式研究：体外研究对于评估神经毒性机制和潜在的神经保护策略至关重要：讨论体外研究方法在 CIPN 领域适用性的优缺点。介绍了评估神经毒性/神经保护的不同细胞培养方法和技术。PubMed检索字符串：（化疗诱导）和（（（神经病变）或神经毒性）或神经病理性疼痛）和（体外）和(((((model）或SH-SY5Y）或PC12）或iPSC）或DRG神经元）；（化疗诱导）和（（（神经病变）或神经毒性）或神经病理性疼痛）和（模型）和（（（神经元伸长）或细胞活力）或形态学）。未选择 1990 年之前发表的文章：CIPN是测试轴突损伤以及外周神经系统疾病和神经保护机制的理想实验环境。因此，从这一领域可靠的临床前数据出发，相关的生物学原理有可能被应用到其他人类自发性周围神经系统疾病中。

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In vitro neurotoxicity testing: lessons from chemotherapy-induced peripheral neurotoxicity.

Introduction: Chemotherapy induced peripheral neurotoxicity (CIPN) is a long-lasting, or even permanent, late toxicity caused by largely used anticancer drugs. CIPN affects a growing population of cancer survivors and diminishes their quality of life since there is no curative/preventive treatment. Among several reasons for this unmet clinical need, there is an incomplete knowledge on mechanisms leading to CIPN. Therefore, bench side research is still greatly needed: in vitro studies are pivotal to both evaluate neurotoxicity mechanisms and potential neuroprotection strategies.

Areas covered: Advantages and disadvantages of in vitro approaches are addressed with respect to their applicability to the CIPN field. Different cell cultures and techniques to assess neurotoxicity/neuroprotection are described. PubMed search-string: (chemotherapy-induced) AND (((neuropathy) OR neurotoxicity) OR neuropathic pain) AND (in vitro) AND (((((model) OR SH-SY5Y) OR PC12) OR iPSC) OR DRG neurons); (chemotherapy-induced) AND (((neuropathy) OR neurotoxicity) OR neuropathic pain) AND (model) AND (((neurite elongation) OR cell viability) OR morphology). No articles published before 1990 were selected.

Expert opinion: CIPN is an ideal experimental setting to test axonal damage and, in general, peripheral nervous system mechanisms of disease and neuroprotection. Therefore, starting from robust preclinical data in this field, potentially, relevant biological rationale can be transferred to other human spontaneous diseases of the peripheral nervous system.

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Expert opinion on drug metabolism & toxicology

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