Preclinical Evaluation of Protective Effects of Terpenoids Against Nanomaterial-Induced Toxicity: A Meta-Analysis.

IF 2.7 4区医学 Q3 TOXICOLOGY

Journal of Applied Toxicology Pub Date : 2024-10-30 DOI:10.1002/jat.4716

Yuexiao Sun, Yang Zhou, Dongli Xie, Xuejiao Wang, Ya Wang, Yunxia Liang, Xiaogang Luo

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引用次数: 0

Abstract

Terpenoids, the largest class of natural products, have been demonstrated to confer antioxidant, anti-inflammatory, anti-apoptotic, and antitumor activities. However, whether terpenoids benefit populations exposed to nanomaterials through these mechanisms remains unclear. This meta-analysis was to evaluate the effects of terpenoids in preclinical models with nanomaterial exposure. Electronic database searching identified 39 studies. The meta-analysis by Stata 15.0 showed that terpenoid supplementation significantly improved cell viability and altered oxidative stress (decreased ROS, NO, MDA, and TOC and increased SOD, CAT, GPx, GSH, GSH-Px, and TAC)-, inflammation (decreased IL-6, IL-1β, TNF-α, NF-κB, monocytes, and increased IL-10)-, apoptosis (reduced Bax, caspase-3, caspase-9, P53, and elevated Bcl-2)-, genotoxic (reduced tail length, % tail DNA, tail moment, DNA fragmentation, chromosomal aberration, and MNPCEs)-, liver function (reduced ALT, AST, and ALP)-, renal function (reduced creatinine, urea, and uric acid)-, reproductive function (increased sperm count, testosterone, Johnsen's score, and number of progeny)-, lipid profile (lower cholesterol, TG, LDL, and higher HDL)-, and carcinogenesis (downregulated AFP and CEA)-related biomarkers induced by nanomaterials. Subgroup analysis indicated that monoterpenoids and tetraterpenoids were particularly effective. Collectively, terpenoids may be a promising candidate for prevention of toxicities caused by nanomaterials.

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萜类化合物对纳米材料引发的毒性的保护作用的临床前评估：元分析。

萜类化合物是最大的一类天然产品，已被证明具有抗氧化、抗炎、抗细胞凋亡和抗肿瘤活性。然而，类萜物是否通过这些机制使暴露于纳米材料的人群受益仍不清楚。本荟萃分析旨在评估类萜物在纳米材料暴露的临床前模型中的作用。电子数据库搜索确定了 39 项研究。荟萃分析采用 Stata 15.0 进行的荟萃分析表明，补充萜类化合物可显著提高细胞活力并改变氧化应激（降低 ROS、NO、MDA 和 TOC，提高 SOD、CAT、GPx、GSH、GSH-Px 和 TAC）--炎症（降低 IL-6、IL-6-Px 和 TAC）、炎症（IL-6、IL-1β、TNF-α、NF-κB、单核细胞减少，IL-10 增加）--、细胞凋亡（Bax、caspase-3、caspase-9、P53 减少，Bcl-2 增加）--、基因毒性（尾长、尾 DNA 百分比、尾矩、DNA 断裂、染色体畸变减少）--、肝功能（谷丙转氨酶、谷草转氨酶和谷草转氨酶降低）- 肾功能（肌酐、尿素和尿酸降低）- 生殖功能（精子数量增加、睾酮、约翰森睾酮和睾丸激素增加）- β-亚硝胺-1、β-亚硝胺-1睾酮、约翰森评分和后代数量增加）-、血脂概况（胆固醇、总胆固醇、低密度脂蛋白降低，高密度脂蛋白升高）-以及纳米材料诱导的致癌相关生物标志物（甲胎蛋白和癌胚抗原下调）。分组分析表明，单萜类化合物和四萜类化合物尤其有效。总之，萜类化合物可能是预防纳米材料引起的毒性的一种有前途的候选物质。

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

Journal of Applied Toxicology 医学-毒理学

CiteScore

7.00

自引率

6.10%

发文量

145

审稿时长

1 months

期刊介绍： Journal of Applied Toxicology publishes peer-reviewed original reviews and hypothesis-driven research articles on mechanistic, fundamental and applied research relating to the toxicity of drugs and chemicals at the molecular, cellular, tissue, target organ and whole body level in vivo (by all relevant routes of exposure) and in vitro / ex vivo. All aspects of toxicology are covered (including but not limited to nanotoxicology, genomics and proteomics, teratogenesis, carcinogenesis, mutagenesis, reproductive and endocrine toxicology, toxicopathology, target organ toxicity, systems toxicity (eg immunotoxicity), neurobehavioral toxicology, mechanistic studies, biochemical and molecular toxicology, novel biomarkers, pharmacokinetics/PBPK, risk assessment and environmental health studies) and emphasis is given to papers of clear application to human health, and/or advance mechanistic understanding and/or provide significant contributions and impact to their field.