Blazkova Iva, Viet Nguyen Hoai, Kominkova Marketa, Konecna Romana, Chudobova Dagmar, Krejcova Ludmila, Kopel Pavel, Hynek David, Zitka Ondrej, Beklova Miroslava, Adam Vojtech, Kizek Rene
Faculty of Agronomy, Department of Chemistry and Biochemistry, Mendel University in Brno, Brno, Czech Republic.
Electrophoresis. 2014 Apr;35(7):1040-9. doi: 10.1002/elps.201300393. Epub 2014 Jan 13.
Carbon nanomaterials, including fullerenes, exhibit not only unique structure and electronic properties but also a significant potential to serve as radical scavengers and/or anti-oxidants. Their conjugation with anticancer drugs such as doxorubicin (DOX) may help to balance severe negative side effects of these cytostatics and also improve the delivery of the drug taking advantage of the enhanced cellular uptake, selectivity to cancer cells, and pH regulated release. In this study, the fullerene (C60) surface was oxidized by concentrated nitric acid, which enabled simple DOX-fullerene conjugation based on π-π stacking and hydrophilic interactions with carboxylic groups. The strength of this noncovalent binding is pH dependent. At a low pH, the amino group of DOX is protonated, however at a higher pH, the amino group is deprotonated, resulting in stronger hydrophobic interactions with the fullerene walls. CE and HPLC were employed for characterization of resulting complexes. The cell toxicity of the conjugates was evaluated using Staphylococcus aureus and finally they were administered into the chicken embryo to assess the applicability for in vivo imaging.
包括富勒烯在内的碳纳米材料不仅具有独特的结构和电子特性,还具有作为自由基清除剂和/或抗氧化剂的巨大潜力。它们与阿霉素(DOX)等抗癌药物结合,可能有助于平衡这些细胞抑制剂的严重负面副作用,还能利用增强的细胞摄取、对癌细胞的选择性以及pH调节释放来改善药物递送。在本研究中,富勒烯(C60)表面用浓硝酸氧化,这使得基于π-π堆积以及与羧基的亲水相互作用实现简单的DOX-富勒烯结合成为可能。这种非共价结合的强度取决于pH值。在低pH值下,DOX的氨基被质子化,然而在较高pH值下,氨基去质子化,从而与富勒烯壁产生更强的疏水相互作用。采用毛细管电泳(CE)和高效液相色谱(HPLC)对所得复合物进行表征。使用金黄色葡萄球菌评估了缀合物的细胞毒性,最后将它们注射到鸡胚中以评估其在体内成像中的适用性。
