Unilamellar Characteristic Analysis of 1,2-dioleoyl-sn-3-phosphocholine Liposome of Various Sizes via Atomic Force Microscopy and Patch-Clamp

IF 0.1 4区 医学 Journal of Biomaterials and Tissue Engineering Pub Date : 2023-02-01 DOI:10.1166/jbt.2023.3263
Chi Hyung Lee, J. Kwak, S. Sung, Sang Weon Lee, J. Kwak, Kyung-wan Kim, H. Kang, G. Kim
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Abstract

DOPC liposome properties of various sizes were analyzed via atomic force microscopy (AFM) and patch-clamp. The unilamellarity of small DOPC liposome (below 1 μm) was confirmed via Cryogenic transmission electron microscopy (Cryo-TEM). Small DOPC liposome (below 1 μm) showed a bending modulus (kbend) ranging (between 10−18 and 10−20 J). The bending modulus value was a size dependence. In order words, it decreased as DOPC liposome size increased. For DOPC liposome (above 1 μm), patch-clamp was used to achieve electrically tight whole-cell configurations. Our result showed that the unilamellar DOPC liposome (above 1 μm) exhibit RC circuit response property. It was similar to theoretical values (τ = 4.52 ms) of the unilamellar liposome. In this study, the uniform lamellarity of the DOPC liposome of various sizes was confirmed through electrical and mechanical properties of DOPC liposome.
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原子力显微镜和膜片钳分析不同尺寸1,2-二醇基-sn-3-磷酸胆碱脂质体的单板层特性
通过原子力显微镜(AFM)和膜片钳分析了不同尺寸DOPC脂质体的性质。通过低温透射电镜(Cryo-TEM)证实了DOPC小脂质体(小于1 μm)的单晶性。小DOPC脂质体(小于1 μm)的弯曲模量(kbend)在10−18 ~ 10−20 J之间,弯曲模量值与尺寸有关。也就是说,随着DOPC脂质体大小的增加,它降低。对于DOPC脂质体(大于1 μm),采用膜片钳实现电紧全细胞结构。结果表明,1 μm以上的单层DOPC脂质体具有RC电路响应特性。这与单层脂质体的理论值(τ = 4.52 ms)相似。在本研究中,通过DOPC脂质体的电学和力学性能,证实了不同尺寸DOPC脂质体的均匀片层性。
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来源期刊
Journal of Biomaterials and Tissue Engineering
Journal of Biomaterials and Tissue Engineering CELL & TISSUE ENGINEERING-
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