Photocontrol of Non-Adherent Cell Adhesion via Azobenzene–PEG–Lipid/Cyclodextrin Host–Guest Interactions
Masahiro Kawakami, Shinya Yamahira, Masaru Kojima, Satoshi Yamaguchi, Shinji Sakai

TL;DR
This paper introduces a light-controlled method to manipulate the adhesion of non-adherent cells using azobenzene and cyclodextrin interactions.
Contribution
A novel photocontrollable system for non-adherent cell adhesion using host–guest interactions and variable PEG linker lengths.
Findings
Photocontrolled adhesion and detachment of K562 cells was successfully demonstrated.
Adhesion efficiency inversely correlates with adhesion force for different PEG linker lengths (2k, 4k, 8k).
The system is applicable to non-adherent cells, expanding the scope of photocontrollable cell adhesion technologies.
Abstract
Controlling cell attachment to substrates with spatiotemporal precision is a key technological foundation in fields such as tissue engineering, cell sorting, and cell–cell interaction analysis. Among existing approaches, azobenzene-based photocontrollable systems offer a promising strategy for the reversible regulation of cell adhesion. However, most conventional systems rely on the intrinsic adhesion capacity of adherent cells. Consequently, although the importance of non-adherent cell types has grown in biomedical research, their dynamic manipulation remains insufficiently explored. In this study, we developed a versatile system to control cell adhesion based on host–guest interactions between an azobenzene–lipid conjugate and a cyclodextrin-functionalized substrate. Using human chronic myelogenous leukemia (K562) cells, we successfully demonstrated photocontrolled adhesion and…
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Taxonomy
TopicsCellular Mechanics and Interactions · Force Microscopy Techniques and Applications · Cell Adhesion Molecules Research
