Non-Clinical investigation of Tuberculosis Drugs - Conjugated Norbornene-Based Nanocarriers Toxic Impacts on Zebrafish

Q3 Medicine

Current Nanomedicine Pub Date : 2021-12-21 DOI:10.2174/2468187312666211221130125

T. Anju, R. Preetha, R. Shunmugam, S. Mane, J. Arockiaraj, Shivasekar Ganapathy

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Abstract

Rifampicin conjugated (R-CP), and rifampicin -isoniazid dual conjugated (RI-CP) norbornene-derived nanocarriers are newly designed for pH stimuli-responsive delivery of tuberculosis (TB) drugs. Its biosafety level is yet to be well established. To assess the impacts of the nanocarriers on liver cells using zebrafish animal model and human liver cell line model (HepG2). Initially, lethal dose concentration for the norbornene-derived nanocarrier systems in zebrafish was determined. The toxic effects were analysed at the sub-lethal drug concentration by histopathological study, total GSH level, gene expression and DNA damage in zebrafish liver cells. Fish erythrocyte nuclear abnormalities were also evaluated. Cell viability and oxidative stress level (ROS generation) after exposure to the nanoconjugates was determined using HepG2 cell in the in vitro study. In vivo studies of both R-CP and RI-CP showed 100% mortality at 96 hours for exposure concentration >100mg/l and showed toxic changes in zebrafish liver histology, GSH, and DNA damage levels. A noticeable upregulated PXR, CYP3A and cyp2p6 genes was observed in RI-CP exposure than in RIF or R-CP molecules. The in vitro study revealed a dose-dependent effect on cell viability and ROS generation for RIF, R-CP and RI-CP exposures in HepG2 cells. The current study reports that the rifampicin conjugated (R-CP) and rifampicin-isoniazid conjugated (RI-CP) norbornene derived nanocarriers exhibit enhanced toxic responses in both adult zebrafish and HepG2 cells. The pH-sensitive norbornene derived nanocarriers on conjugation with different drugs exhibited varied impacts on hepatic cells. Hence the present investigation recommends a complete metabolomics analysis and norbornene carrier-drug interaction study to be performed for each drug conjugated norbornene nanocarrier to ensure its biosafety.

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结核药物偶联降冰片烯纳米载体对斑马鱼毒性影响的非临床研究

利福平偶联（R-CP）和利福平-异烟肼双偶联（RI-CP）降冰片烯衍生的纳米载体是新设计的用于结核病（TB）药物的pH刺激响应性递送。其生物安全水平尚待确定。使用斑马鱼动物模型和人肝细胞系模型（HepG2）评估纳米载体对肝细胞的影响。最初，确定了斑马鱼体内降冰片烯衍生纳米载体系统的致死剂量浓度。通过组织病理学研究、总谷胱甘肽水平、基因表达和斑马鱼肝细胞DNA损伤分析了亚致死药物浓度下的毒性作用。还评估了鱼类红细胞核异常。在体外研究中使用HepG2细胞测定暴露于纳米缀合物后的细胞活力和氧化应激水平（ROS产生）。R-CP和RI-CP的体内研究显示，暴露浓度>100mg/l时，96小时死亡率为100%，斑马鱼肝脏组织学、GSH和DNA损伤水平发生毒性变化。与RIF或R-CP分子相比，RI-CP暴露中观察到明显上调的PXR、CYP3A和cyp2p6基因。体外研究揭示了HepG2细胞中RIF、R-CP和RI-CP暴露对细胞活力和ROS产生的剂量依赖性影响。目前的研究报告称，利福平偶联（R-CP）和利福平异烟肼偶联（RI-CP）降冰片烯衍生的纳米载体在成年斑马鱼和HepG2细胞中都表现出增强的毒性反应。pH敏感的降冰片烯衍生的纳米载体在与不同药物结合时对肝细胞表现出不同的影响。因此，本研究建议对每种药物偶联的降冰片烯纳米载体进行完整的代谢组学分析和降冰片烯载体-药物相互作用研究，以确保其生物安全性。

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来源期刊

Current Nanomedicine Medicine-Medicine (miscellaneous)

CiteScore

2.00

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0.00%

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