用于微观和生物化学分析机械转导的 3D 打印、电动、单轴细胞拉伸器的设计。

Design of a 3D printed, motorized, uniaxial cell stretcher for microscopic and biochemical analysis of mechanotransduction.

机构信息

Biological and Biomedical Sciences Division, College of Health and Life Sciences, Hamad Bin Khalifa University, P.O. Box 34110, Doha, Qatar.

Biological and Biomedical Sciences Division, College of Health and Life Sciences, Hamad Bin Khalifa University, P.O. Box 34110, Doha, Qatar

出版信息

Biol Open. 2021 Feb 10;10(2):bio057778. doi: 10.1242/bio.057778.

DOI:10.1242/bio.057778

PMID:33563607

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7888744/

Abstract

Cells respond to mechanical cues from their environment through a process of mechanosensing and mechanotransduction. Cell stretching devices are important tools to study the molecular pathways responsible for cellular responses to mechanobiological processes. We describe the development and testing of a uniaxial cell stretcher that has applications for microscopic as well as biochemical analyses. By combining simple fabrication techniques with adjustable control parameters, the stretcher is designed to fit a variety of experimental needs. The stretcher can be used for static and cyclic stretching. As a proof of principle, we visualize stretch induced deformation of cell nuclei via incremental static stretch, and changes in IEX1 expression via cyclic stretching. This stretcher is easily modified to meet experimental needs, inexpensive to build, and should be readily accessible for most laboratories with access to 3D printing.

摘要

细胞通过机械感受和力学转导过程对来自其环境的机械线索做出反应。细胞拉伸设备是研究细胞对力学生物学过程的分子途径的重要工具。我们描述了一种单轴细胞拉伸器的开发和测试，该拉伸器可用于微观和生化分析。通过将简单的制造技术与可调的控制参数相结合，该拉伸器旨在满足各种实验需求。该拉伸器可用于静态和循环拉伸。作为原理验证，我们通过递增的静态拉伸可视化拉伸诱导的细胞核变形，以及通过循环拉伸观察 IEX1 表达的变化。该拉伸器易于根据实验需求进行修改，构建成本低廉，并且对于大多数能够使用 3D 打印的实验室来说都应该很容易获得。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e2bd/7888744/efa50631c62b/biolopen-10-057778-g1.jpg

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用于微观和生物化学分析机械转导的 3D 打印、电动、单轴细胞拉伸器的设计。

Design of a 3D printed, motorized, uniaxial cell stretcher for microscopic and biochemical analysis of mechanotransduction.

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