纳米吸管用于直接流体细胞内进入。

Nanostraws for direct fluidic intracellular access.

机构信息

Department of Materials Science and Engineering, Stanford University, Stanford, California 94305, USA.

出版信息

Nano Lett. 2012 Aug 8;12(8):3881-6. doi: 10.1021/nl204051v. Epub 2011 Dec 20.

DOI:10.1021/nl204051v

Abstract

Nanomaterials are promising candidates to improve the delivery efficiency and control of active agents such as DNA or drugs directly into cells. Here we demonstrate cell-culture platforms of nanotemplated "nanostraws" that pierce the cell membrane, providing a permanent fluidic pipeline into the cell for direct cytosolic access. Conventional polymeric track-etch cell culture membranes are alumina coated and etched to produce fields of nanostraws with controllable diameter, thickness, and height. Small molecules and ions were successfully transported into the cytosol with 40 and 70% efficiency, respectively, while GFP plasmids were successfully delivered and expressed. These platforms open the way for active, reproducible delivery of a wide variety of species into cells without endocytosis.

摘要

纳米材料是一种很有前途的候选材料，可以提高活性物质（如 DNA 或药物）的传递效率和可控性，将其直接递送到细胞内。在这里，我们展示了一种基于纳米模板的“纳米棒”的细胞培养平台，这些纳米棒可以刺穿细胞膜，为细胞内提供一个永久性的流体通道，从而直接进入细胞质。传统的聚合物刻蚀细胞培养膜经过氧化铝涂层和刻蚀处理，可产生具有可控直径、厚度和高度的纳米棒场。小分子和离子分别以 40%和 70%的效率成功地被输送到细胞质中，而 GFP 质粒也成功地被递送到细胞内并表达。这些平台为主动、可重复地将各种物质递送到细胞内而无需内吞作用开辟了道路。

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纳米吸管用于直接流体细胞内进入。

Nanostraws for direct fluidic intracellular access.

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