Neurotoxicity of the antineoplastic drugs: “Doxorubicin” as an example

IF 2.9 4区 生物学 Q3 CELL BIOLOGY Journal of Molecular Histology Pub Date : 2024-10-01 DOI:10.1007/s10735-024-10247-9
Ghadha Ibrahim Fouad, Maha Z. Rizk
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Abstract

There is an increased prevalence of cancer, and chemotherapy is widely and routinely utilized to manage the majority of cancers; however, administration of chemotherapeutic drugs has faced limitations concerning the “off-target” cytotoxicity. Chemobrain and impairment of neurocognitive functions have been observed in a significant fraction of cancer patients or survivors and reduce their life quality; this could be ascribed to the ability of chemotherapeutic drugs to alter the structure and function of the brain. Doxorubicin (DOX), an FDA-approved chemotherapeutic drug with therapeutic effectiveness, is commonly used to treat several carcinomas clinically. DOX-triggered neurotoxicity is the most serious adverse reaction after DOX-induced cardiotoxicity which greatly limits its clinical application. DOX-induced neurotoxicity is a net of multiple mechanisms that have been verified in pre-clinical and clinical studies, such as oxidative stress, neuroinflammation, mitochondrial disruption, apoptosis, autophagy, disruption of neurotransmitters, and impairment of neurogenesis. There is a massive need for developing novel therapeutics for both cancer and DOX-associated neurotoxicity; therefore investigating the implicated mechanisms of DOX-induced chemobrain will reveal multi-targets for novel curative strategies. Recently, various neuroprotective mechanisms were employed to mitigate DOX-mediated neurotoxicity. For this purpose, therapeutic interventions using pharmacological compounds were developed to protect healthy “off-target” tissues from DOX-induced toxicity. In addition, nanoplatforms were used to enable target delivery of DOX; to prevent its deposition in non-cancerous tissues. The aim of the current review is to provide some reference value for the future management of DOX-induced neurotoxicity and to summarize the underlying mechanisms of DOX-mediated neurotoxicity and the potential therapeutic interventions.

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抗肿瘤药物的神经毒性:以 "多柔比星 "为例。
癌症发病率越来越高,化疗被广泛和常规地用于治疗大多数癌症;然而,化疗药物的使用面临着 "脱靶 "细胞毒性的限制。在相当一部分癌症患者或幸存者中都观察到了化疗脑和神经认知功能损害,并降低了他们的生活质量;这可能是由于化疗药物能够改变大脑的结构和功能。多柔比星(DOX)是美国食品和药物管理局批准的一种具有治疗效果的化疗药物,临床上常用于治疗多种癌症。DOX 引发的神经毒性是继 DOX 引发的心脏毒性之后最严重的不良反应,极大地限制了其临床应用。DOX 引发的神经毒性是由多种机制共同作用的结果,这些机制已在临床前研究和临床研究中得到验证,如氧化应激、神经炎症、线粒体破坏、细胞凋亡、自噬、神经递质破坏和神经发生障碍等。针对癌症和 DOX 相关神经毒性开发新型疗法的需求巨大,因此研究 DOX 诱导的化疗脑的相关机制将为新型治疗策略揭示多个靶点。最近,人们采用了各种神经保护机制来减轻 DOX 介导的神经毒性。为此,开发了使用药理化合物的治疗干预措施,以保护健康的 "非目标 "组织免受 DOX 诱导的毒性。此外,还利用纳米平台实现 DOX 的靶向递送,防止其沉积在非癌组织中。本综述旨在为今后处理 DOX 引起的神经毒性提供一些参考价值,并总结 DOX 介导的神经毒性的基本机制和潜在的治疗干预措施。
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来源期刊
Journal of Molecular Histology
Journal of Molecular Histology 生物-细胞生物学
CiteScore
5.90
自引率
0.00%
发文量
68
审稿时长
1 months
期刊介绍: The Journal of Molecular Histology publishes results of original research on the localization and expression of molecules in animal cells, tissues and organs. Coverage includes studies describing novel cellular or ultrastructural distributions of molecules which provide insight into biochemical or physiological function, development, histologic structure and disease processes. Major research themes of particular interest include: - Cell-Cell and Cell-Matrix Interactions; - Connective Tissues; - Development and Disease; - Neuroscience. Please note that the Journal of Molecular Histology does not consider manuscripts dealing with the application of immunological or other probes on non-standard laboratory animal models unless the results are clearly of significant and general biological importance. The Journal of Molecular Histology publishes full-length original research papers, review articles, short communications and letters to the editors. All manuscripts are typically reviewed by two independent referees. The Journal of Molecular Histology is a continuation of The Histochemical Journal.
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