Magnetic transfection experiment

Summary

Magnetotransfection is defined as the delivery of nucleic acids or nucleic acid carriers by magnetic particles mediated by magnetic forces. The carriers can be bound to the magnetic particles, which are usually iron oxide nanoparticles, in most cases connected by non-covalent bonds. The magnetic force can overcome the hydrodynamic force , causing the magnetic carriers to aggregate and/or remain in the raked tissue area. In cell culture, magnetic carriers can be deposited into target cells within minutes. This overcomes the diffusion barrier in nucleic acid delivery, and all carriers are in close contact with the target cell, so that the entry of genetic material into the cell can be synchronized. Nucleic acid delivery is greatly accelerated and the infection efficiency of many vectors is increased. Author: T. Friedman et al, Translator: Wei Qin et al. This experiment is from "Gene Transfer".

Operation method

Nucleic Acid Transport with Magnetic Nanoparticles

Move

Nucleic Acid Transport with Magnetic Nanoparticles Materials

reagents
细胞 最好提前一天将准备用于磁力转染的细胞按标准的核酸运送方法铺平板。对非病毒磁力转 染 ,细胞应长满瓶底6 0 % 〜8 0 % 。各种不同器皿建议的细胞数目参见表1。表 1 中培养液 的加人体积等于“最终转染体积”减 去 “准备转染载体的体积”。 表 1 . 非病毒载体转染时,建议的细胞数目、 DNA/核酸剂量和转染体积 $ 1 ¾ ¾ ! ! ¾ ¾ 细胞数目/个 每 孔 所 需 磁 性 雖 量 A fjg/孔) 制 备 的 载 体 体 积 染 体 积 /m l 9 6 孔板 0 .5 X IO 4〜2 X IO 4 0 .1 〜1 0. 05 0 .2 2 4 孔板 0.5X 105 〜IX IO 5 1〜10 0• 1〜0• 2 〇.5〜1 1 2 孔板 IX IO 5〜2 X IO 5 2〜20 0 .1 5 〜0. 3 1.5 6 孔板 2 X IO 5〜4 X IO 5 4〜40 0• 2• 〜 0• 6 2〜3 60m m 碟子 5 X 1 0 5〜IO X lO 5 10〜50 0• 5〜1. 6 5〜8 90〜IOOmm碟子 IO X lO 5〜2 0X 105 30〜150 0 .5 〜2 10〜20 T -2 5 培养瓶 5 X 1 0 5〜10X 105 10〜50 0 .5 〜2 5〜10 T -7 5 培养瓶 2 0X 105〜50X 105 30〜150 0 .5 〜2 15〜20 转染体积= 总转染体积= 制备的用于转染的载体体积+ 培养皿中培养液的体积。 培养液使用DMEM或其他合适的细胞培养液 磁性颗粒 外层(含氨基、羧基基团或磷酸基团)包被聚阳离子或聚阴离子,或包被链霉亲和素的氧化 铁纳米颗粒购自OZ生物科学公司(Marseille,法国; www.ozbioscience.com) ,chemicell(柏 林,德国; www.chemicell.com) ,N ew England Biolabs(www.neb.com),Bangs Laboratories (Fishers;www.bangslabs.com ), Miltenyi Biotech(Bergisch-Gladbach,德 国 ; www.miltenyibiotec.com) ,DynaKwww.dynabiotech.com) ,和 Promega(www.promega.com)。纳米颗粒 的直径应当不超过lp m ,最好不超过500nm 。用于磁力转染磁性纳米颗粒的设计和优化 已 经 商 品 化 ,如 来 自 OZ Bioscience 或 chemicell 的 CombiMAG, PolyMAG 和 SilenceMAG0 核酸载体 任何已知的载体都可以用于磁力转染。如果使用链霉亲和素包被的磁性颗粒,则载体必须 是亲和素标记的。具体操作说明,详见生物素试剂提供厂家(如 Sigma-Aldrich或 Pierce公
Division) operating instructions. For polycation- or polyanion-coated magnetic particles, such as CombiMAG, affinity coupling of the vector is not required. Viral vectors can be affinity coupled and the magnetic particles encapsulated with the appropriate streptavidin protein. Alternatively, the vector can be co-incubated with the magnetic particles [cation-coated magnetic particles are preferred, but anion-coated particles can be used for lentiviruses (H airnet al. 2005)].

Phosphate Buffer Solution (PBS), HEPES Buffer Solution (HBS), 0.9 % NaCl, or for lentiviruses (H airnet al., 2005)]. 9 % NaCl, or serum-free cell culture medium for vector preparation.

Selection of transfection reagents

Instruments

37°C cell incubator

Microcentrifuge Tubes

Permanent magnets

Rare earth permanent magnets are the most suitable magnets, e.g. neodymiumiron boron magnets. Manufacturers include IBS Magnet (Berlin, Germany), Dexter Magetic Technologies (Germany), and IBS Magnet (Germany).
(Chicago, Illinois), Bisbell Magnetic product Ltd. (Burton-on-T rent, UK), or amfmagnetiC (Mascotte, Australia). Disks designed and optimized for magnetic transfection are commercially available from OZ
Bioscience (Marseille, France; www.ozbioscience.com) or chemicell (Berlin, Germany; WWW.chemicell.com).

The most practical magnetic sheets are round, 0.5 cm, 1 cm, 1.5 cm, 2 cm or larger in diameter, and 0.5 cm thick. Rectangular sheets measure 2 cm X 1 cm X 0.5 cm.

Note: Rare earth permanent magnets produce a permanent magnetic field and must be handled with care. These magnets can be de-magnetized.

storage devices and interfere with the proper functioning of electronic or electromechanical devices such as pacemakers.
See Table 1 for cell culture vessel selection.

Methods
For each magnetic particle and vector type, the ratio of magnetic particles to gene vector must be optimized. See www.ozbiosciences.com for specific optimization methods.

1 . Preparation of lmg/m l of magnetic nanoparticles with deionized water.

Magnetic nanoparticles are supplied by most manufacturers as liquid suspension solutions at various concentrations (mg/ml). Polycation- and polyanion-coated magnetic particles spontaneously aggregate in salt-containing solutions.

2-Calculate the amount of magnetic nanoparticles needed. For non-viral vectors, use 0.2 to 4 ug of outer-coated magnetic particles per microgram of nucleic acid for delivery; 15 ug of polyethylenimine-coated magnetic particles is sufficient to bind I X l O 10 adenovirus particles. The recommended dose of nucleic acid to be added to different culture vessels and the transfection of non-viral vectors are shown in Table 1, and the magnetic transfection of viral vectors is shown in Table 2. Add the desired amount of magnetic pellet to a microcentrifuge tube.
表 2•病毒磁力转染时,建议的细胞数目、磁粒剂量和转染体积 细胞培养器皿 细胞数目/个 转染DNA量/ Mg 制备的载体体积/ml 最终转染体积/ml 96孔板 0.2X104〜2X104 0.01〜1 0.05 0.2 24孔板 0-5XIO5〜IXIO5 0.2〜10 0.1〜0 • 2 0. 5~ 1 12孔板 IXIO5〜2XIO5 0. 2〜20 0.15〜0.3 1.5 6 孔板 2X105〜4X 105 0.5〜35 0 • 2〜0.6 2~ 3 60mm碟子 5X105〜IOXlO5 1〜100 0.5〜1.6 5〜8 90〜IOOmm碟子 IOXlO5〜20X105 1〜60 0.5〜2 10〜20 T-25培养瓶 5X105〜IOXlO5 0.2〜20 0 •5〜2 5〜10 T-75培养瓶 20XIO5〜50XIO5 1〜60 0.5〜2 15〜20 转染体积= 总转染体积= 制备的用于转染的载体体积+ 培养皿中培养液的体积。根据经验,非病毒载体转染 时,核 酸 的 最 终 浓 度 不 要 超 过 最 好 不 超 过 50Fg/ml。 3.制备非病毒或病毒载体。 对非病毒载体 a. 根据转染试剂厂家提供的说明书制备载体。制备的载体要溶在含盐溶液中, 最 好 是 血 清 和 无 补 体 细 胞 培 养 液 中 ,如 DMEM、 0 . 9 % 的 N a C U P B S 或 H B S 0 b. 混合核酸与转染试剂,立即将混合物转移到磁性颗粒溶液中。用移液器吹吸 混匀。 对病毒载体 a . 如果需要,用无血清细胞培养液或其他含盐缓冲液稀释制备的病毒制剂。或者 直接使用一个病毒制备细胞系的培养上清。 b. 将病毒稀释溶液转移到磁性颗粒溶液中,用移液器吹吸混 勻 。 重 要 :不要使用聚阳离子添加剂,如 polybrene, 其常用于标准转导程序中。 4 . 室温孵育15〜30min。对病毒载体放在冰上。在这段时间内磁性颗粒和载体偶联。 5•加人磁性载体制剂到靶细胞中。将细胞培养器皿放在一个商用的磁碟上,或者将合 适的永久磁片 用 胶 带贴在细胞培养器皿的底部。 6 . 将细胞放在孵箱或室温15〜30min, 然后去掉磁体。 7. 备选:更换培养基或者补充加入更多的培养基,在标准条件下继续培养,直到转染 实验完毕进行分析。 磁力转染也可以使用链霉亲和素包被的磁性颗粒和生物素标记的载体按上面的操作程序进 行实验。使用非病毒载体的一个潜在限制为,转染试剂如阳离子脂质体或多聚阳离子通常 大大超过了核酸组分的量,这些多余的试剂不会直接与核酸偶联,而会阻挡链霉亲和素包 被磁性颗粒的结合位点


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Categories: Protocols

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