Nonspecific cell surface properties: contact angle of water on dried cell monolayers.

Immunological communications Pub Date : 1984-01-01 DOI:10.3109/08820138409025463

J L Mege, C Capo, A M Benoliel, C Foa, P Bongrand

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引用次数: 12

Abstract

Measuring contact angle of water on dried cell or bacterium monolayers allowed van Oss (1) and others (2) to find a correlation between particle hydrophobicity and ingestion by phagocytic cells. The present study was undertaken to understand what was actually assayed with this method. Monolayers were prepared with different cell types at different densities, and they were dried under atmospheres with varying humidity before being studied with scanning electron microscopy and contact angle techniques. It is concluded that a) contact angles are independent of the cell density and substrate structure when more than 30% of the substrate area is covered with cells. b) Initial cell shape should not influence contact angle. c) Contact angles are markedly dependent on the nature of tested cells. d) Contact angles are substantially influenced by the cell drying procedure. e) A very small fraction of the energies we measured would be sufficient to account for cell-cell interactions. Hence these might play a role in some situations of biological interest.

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非特异性细胞表面特性:干燥细胞单层上水的接触角。

van Oss(1)和其他人(2)通过测量干燥细胞或细菌单层上的水的接触角，发现了颗粒疏水性与吞噬细胞摄取之间的关系。目前的研究是为了了解用这种方法实际分析的内容。用不同的细胞类型和密度制备单层膜，在不同湿度的气氛下干燥，然后用扫描电子显微镜和接触角技术对其进行研究。a)当衬底面积的30%以上被细胞覆盖时，接触角与衬底密度和衬底结构无关。b)初始电池形状不应影响接触角。c)接触角明显取决于被测细胞的性质。d)接触角在很大程度上受电池干燥程序的影响。e)我们测量的能量的很小一部分就足以解释细胞-细胞相互作用。因此，这些可能在某些生物利益的情况下发挥作用。

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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Immunological communications

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