Alkyl Length Effects on the DNA Transport Properties of Cu (II) and Zn(II) Metallovesicles: An In Vitro and In Vivo Study.

Journal of drug delivery Pub Date : 2018-11-11 eCollection Date: 2018-01-01 DOI:10.1155/2018/2851579
Itizia Z Arroyo, Clarissa Gomez, Hugo Alarcon, Araceli Jimenez, Andrew Pardo, Gabriel Montaño, Rodrigo X Armijos, Juan C Noveron
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引用次数: 12

Abstract

Cationic liposomes with DNA-transportation properties have attracted considerable attention for their ability to deliver medicinal oligonucleotides to mammalian cells. Amongst these are metalloliposomes that use transition metal ions to confer the lipid molecules cationic charge and unique advantages such as redox- and ligand-exchange triggered DNA-release properties. In this study, lipophilic copper (II) and zinc (II) complexes of 1-alkyl-1,4,7-triazacyclononane were prepared to investigate their ability to bind and transfect double stranded DNA with mammalian cells in vitro and in vivo. The copper(II)-surfactant complexes Cu(TACN-C8)2 (1), Cu(TACN-C10)2 (2), Cu(TACN-C12)2 (3), Cu(TACN-C14)2 (4), Cu(TACN-C16)2 (5), and Cu(TACN-C18)2 (6) that comprise ligands that vary in the length of the alkyl group and the zinc (II)-surfactant complex of Zn(TACN-C12)2 (7) were synthesized. The critical micelle concentration (CMC) for 1-7 was measured using fluorescence spectroscopy and an evaluation of the transfection efficiency of the complexes was assessed using the pEGFP-N1 plasmid and HEK 293-T cells. An inverse relationship between DNA transfection efficiency and CMC of the Cu(II) metallosurfactants was observed. The highest transfection efficiency of 38% was observed for Cu(TACN-C12)2 corresponding to the surfactant with dodecyl alkyl chain having a CMC of 50 μM. Further, an in vivo experiment using mice models was conducted to test the Cu(TACN-C12)2 (3) and Zn(TACN-C12)2 (7) metallosurfactants delivering a DNA vaccine designed for protection against leishmaniasis disease and the study revealed that the Cu-lipoplex elicited the production of significantly more T cells than the Zn-lipoplex and the control group in vivo.

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烷基长度对Cu (II)和Zn(II)金属囊泡DNA转运特性的影响:体外和体内研究
具有dna运输特性的阳离子脂质体因其向哺乳动物细胞输送药用寡核苷酸的能力而引起了人们的广泛关注。其中包括金属脂质体,它们利用过渡金属离子赋予脂质分子阳离子和独特的优势,如氧化还原和配体交换触发的dna释放特性。本研究制备了亲脂性的1-烷基-1,4,7-三氮杂环壬烷铜(II)和锌(II)配合物,在体外和体内研究了它们与哺乳动物细胞结合和转染双链DNA的能力。合成了铜(II)-表面活性剂配合物Cu(TACN-C8)2(1)、Cu(TACN-C10)2(2)、Cu(TACN-C12)2(3)、Cu(TACN-C14)2(4)、Cu(TACN-C16)2(5)和Cu(TACN-C18)2(6)组成的不同长度烷基配体和锌(II)-表面活性剂配合物Zn(TACN-C12)2(7)。利用荧光光谱测定1-7的临界胶束浓度(CMC),并利用pEGFP-N1质粒和HEK 293-T细胞评估复合物的转染效率。DNA转染效率与Cu(II)金属表面活性剂的CMC呈反比关系。CMC为50 μM的十二烷基链表面活性剂Cu(TACN-C12)2转染效率最高,为38%。此外,利用小鼠模型进行了体内实验,以测试Cu(TACN-C12)2(3)和Zn(TACN-C12)2(7)金属表面活性剂对设计用于预防利什曼病的DNA疫苗的作用,研究表明Cu-脂质体在体内诱导的T细胞数量明显高于Zn-脂质体和对照组。
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 drug delivery
Journal of drug delivery PHARMACOLOGY & PHARMACY-
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