Cicha Iwona, Scheffler Laura, Ebenau Astrid, Lyer Stefan, Alexiou Christoph, Goppelt-Struebe Margarete
a Section of Experimental Oncology and Nanomedicine (SEON), ENT Department, Else Kröner-Fresenius-Stiftungsprofessur, University Hospital Erlangen , Germany and.
b Department of Nephrology and Hypertension , Friedrich-Alexander Universität Erlangen-Nürnberg , Germany.
Nanotoxicology. 2016;10(5):557-66. doi: 10.3109/17435390.2015.1095364. Epub 2015 Oct 15.
Superparamagnetic iron oxide nanoparticles (SPIONs) are in use for many clinical diagnostic and experimental therapeutic applications, for example, for targeted drug delivery. To analyze the cellular responses to mitoxantrone-carrying SPIONs (SPION-MTO), and to the drug released from SPIONs, we used an in vitro system that allows comparison of primary human cells with different endocytotic capacities, namely, epithelial cells from proximal and distal parts of the nephron. SPIONs were selectively and rapidly internalized by proximal tubular cells with high endocytotic potential, but not by distal tubular cells. Uptake did not affect cell viability or morphology. In both cell types, free MTO (10-100 nM) induced double-strand DNA breaks and senescence, cell hypertrophy and reduced cell proliferation. However, cadherin-mediated cell-cell adhesion, cytoskeletal structures or polarity of the cells were not affected. Interestingly, a comparable response was also observed upon treatment with SPION-MTO and was independent of uptake of the particles. The effect of SPION-MTO on cells which did not internalize particles was primarily related to the release of MTO from drug-coated particles upon incubation in serum-containing cell growth medium. In conclusion, we show that whereas the uptake of SPIONs does not affect cellular functions or viability, the toxicity of drug-loaded SPIONs depends essentially on the type of drug bound to nanoparticles. Due to the relatively low systemic toxicity of MTO, the effects of MTO-SPIONs on human tubular cells were moderate, but they may become clinically relevant when more nephrotoxic drugs are bound to SPIONs.
超顺磁性氧化铁纳米颗粒(SPIONs)正被用于许多临床诊断和实验性治疗应用,例如靶向药物递送。为了分析细胞对携带米托蒽醌的SPIONs(SPION-MTO)以及从SPIONs释放的药物的反应,我们使用了一种体外系统,该系统能够比较具有不同内吞能力的原代人类细胞,即肾单位近端和远端的上皮细胞。SPIONs被具有高内吞潜力的近端肾小管细胞选择性且快速地内化,但未被远端肾小管细胞内化。摄取并未影响细胞活力或形态。在这两种细胞类型中,游离的米托蒽醌(10 - 100 nM)诱导双链DNA断裂和衰老、细胞肥大并降低细胞增殖。然而,钙黏蛋白介导的细胞间黏附、细胞骨架结构或细胞极性并未受到影响。有趣的是,在用SPION-MTO处理时也观察到了类似的反应,且该反应与颗粒的摄取无关。SPION-MTO对未内化颗粒的细胞的影响主要与在含血清的细胞生长培养基中孵育时药物包被颗粒释放米托蒽醌有关。总之,我们表明,虽然SPIONs的摄取不影响细胞功能或活力,但载药SPIONs的毒性基本上取决于与纳米颗粒结合的药物类型。由于米托蒽醌的全身毒性相对较低,MTO-SPIONs对人肾小管细胞的影响较为温和,但当更多肾毒性药物与SPIONs结合时,它们可能在临床上具有相关性。
