a Pharmaceutical Research Center, Pharmaceutical Technology Institute , Mashhad University of Medical Sciences , Mashhad , Iran.
b Research Institute of Food Science and Technology , Mashhad , Iran.
Drug Dev Ind Pharm. 2018 Jun;44(6):982-987. doi: 10.1080/03639045.2018.1427760. Epub 2018 Jan 25.
Melittin, a small water-soluble cationic amphipathic α-helical linear peptide, consisted of 26 amino acids, is the honeybee venom major constituent. Several reports have proved the lytic and apoptotic effects of melittin in several cancerous cell lines. In this study, we aimed to fabricate an AS1411 aptamer-melittin to specifically deliver melittin to nucleolin positive cells (A549). Melittin was covalently attached to antinucleolin aptamer (AS1411) and its toxicity in A549 (nucleolin positive) and L929 (nucleolin negative) was studied using MTT and Annexin V flow cytometry methods. Aptamer-melittin conjugate formation was confirmed by gel electrophoresis. Hemolytic effect of aptamer-melittin conjugate was compared to melittin alone. The aptamer-melittin conjugate showed efficient cell uptake and was more cytotoxic in A549 cells than melittin (p < .001). This complex was less toxic in control cells. Competitive inhibition assay confirmed that aptamer-melittin complex delivery occurred through receptor-ligand interaction on the cell surface. Moreover, aptamer-melittin showed a significantly less hemolytic activity as compared with free melittin. This study showed that melittin could be specifically delivered to A549 cells when it was covalently conjugated to antinucleolin aptamer (AS1411) in vitro. This system can reduce the cytotoxic effects of melittin on cells with no nucleolin receptor overexpression which comprise most of normal cells such as L929 cells.
蜂毒素是一种由 26 个氨基酸组成的小水溶性阳离子两亲性α-螺旋线性肽,是蜜蜂毒液的主要成分。有几项报道已经证明了蜂毒素在几种癌细胞系中的溶细胞和凋亡作用。在这项研究中,我们旨在制备一种 AS1411 适体-蜂毒素,以将蜂毒素特异性递送至核仁蛋白阳性细胞(A549)。蜂毒素通过共价键与抗核仁蛋白适体(AS1411)结合,并通过 MTT 和 Annexin V 流式细胞术方法研究其在 A549(核仁蛋白阳性)和 L929(核仁蛋白阴性)中的毒性。通过凝胶电泳证实适体-蜂毒素缀合物的形成。比较了适体-蜂毒素缀合物与单独蜂毒素的溶血作用。与单独使用蜂毒素相比,适体-蜂毒素缀合物在 A549 细胞中的摄取效率更高,细胞毒性更强(p<0.001)。这种复合物在对照细胞中的毒性较小。竞争性抑制试验证实,适体-蜂毒素复合物的递呈是通过细胞表面的受体-配体相互作用发生的。此外,与游离蜂毒素相比,适体-蜂毒素的溶血活性明显降低。这项研究表明,当蜂毒素与抗核仁蛋白适体(AS1411)共价结合时,它可以特异性递送至 A549 细胞。在体外,这种系统可以降低蜂毒素对核仁蛋白受体过表达的细胞的细胞毒性作用,而核仁蛋白受体过表达的细胞包括大多数正常细胞,如 L929 细胞。
