Cholesterol- and ssDNA-binding fusion protein-mediated DNA tethering on the plasma membrane.

IF 5.8 3区 医学 Q1 MATERIALS SCIENCE, BIOMATERIALS
Kei Nishida, Minon Ishizuka, Eiry Kobatake, Masayasu Mie
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引用次数: 0

Abstract

DNA modification of the plasma membrane is an excellent approach for controlling membrane-protein interactions, modulating cell-cell/cell-biomolecule interactions, and extending the biosensing field. The hydrophobic insertion of DNA conjugated with hydrophobic anchoring molecules is utilized for tethering DNA on the cell membrane. In this study, we developed an alternative approach to tether DNA on the plasma membrane based on ssDNA- and cholesterol-binding proteins. We designed a fusion protein (Rep-ALOD4) composed of domain 4 of anthrolysin O (ALOD4), which binds to cholesterol in the plasma membrane, and a replication initiator protein derived from porcine circovirus type 2 (Rep), which forms covalent bonds with single-stranded DNA (ssDNA) with a Rep recognition sequence. Rep-ALOD4 conjugates ssDNA to Rep and binds to the plasma membrane via cholesterol, thus tethering ssDNA to the cells. Quartz crystal microbalance measurements showed that membrane cholesterol binding of Rep-ALOD4 to the lipid bilayer containing cholesterol was accelerated above 20% (w/w) cholesterol in the lipid bilayer. Rep-ALOD4 was conjugated to fluorescein-labeled ssDNA (S-FITC-Rep-ALOD4) and used to treat human cervical tumor HeLa cells. The green signal assigned to S-FITC-Rep-ALOD4 was detected along HeLa cells, whereas diminished by cholesterol removal with methyl β-cyclodextrins. Moreover, ssDNA-conjugated Rep-ALOD4 tethered ssDNA-conjugated functional proteins on the HeLa cell plasma membrane via complementary base pairing. Collectively, Rep-ALOD4 has the potential as an ssDNA-tethering material via plasma membrane cholesterol to extend cell surface engineering.

胆固醇和 ssDNA 结合融合蛋白介导的 DNA 在质膜上的系留。
对质膜进行 DNA 修饰是控制膜蛋白相互作用、调节细胞-细胞/细胞-生物大分子相互作用以及扩展生物传感领域的绝佳方法。DNA 与疏水锚定分子共轭的疏水插入技术可用于在细胞膜上拴住 DNA。在本研究中,我们开发了一种基于 ssDNA 和胆固醇结合蛋白的另类方法来将 DNA 拴系在质膜上。我们设计了一种融合蛋白(Rep-ALOD4),它由能与质膜上的胆固醇结合的蚁酸酶 O 的结构域 4(ALOD4)和源自猪圆环病毒 2 型的复制启动子蛋白(Rep)组成,Rep-ALOD4 能与带有 Rep 识别序列的单链 DNA(ssDNA)形成共价键。Rep-ALOD4 将 ssDNA 与 Rep 结合,并通过胆固醇与质膜结合,从而将 ssDNA 拴在细胞上。石英晶体微天平测量显示,当脂质双分子层中胆固醇含量超过 20% (重量比)时,Rep-ALOD4 与含有胆固醇的脂质双分子层的膜胆固醇结合会加速。Rep-ALOD4 与荧光素标记的 ssDNA(S-FITC-Rep-ALOD4)共轭,并用于治疗人类宫颈肿瘤 HeLa 细胞。在 HeLa 细胞中检测到 S-FITC-Rep-ALOD4 的绿色信号,而用甲基 β-环糊精去除胆固醇后,绿色信号减弱。此外,ssDNA-conjugated Rep-ALOD4 通过互补碱基配对将ssDNA-conjugated 功能蛋白系在 HeLa 细胞质膜上。总之,Rep-ALOD4 有可能通过质膜胆固醇成为一种 ssDNA 绑定材料,从而扩展细胞表面工程。
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
Biomaterials Science
Biomaterials Science MATERIALS SCIENCE, BIOMATERIALS-
CiteScore
11.50
自引率
4.50%
发文量
556
期刊介绍: Biomaterials Science is an international high impact journal exploring the science of biomaterials and their translation towards clinical use. Its scope encompasses new concepts in biomaterials design, studies into the interaction of biomaterials with the body, and the use of materials to answer fundamental biological questions.
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