化学
透明质酸
叠氮化物
点击化学
组合化学
细胞
生物物理学
高分子化学
生物化学
有机化学
遗传学
生物
作者
Fumiya Sato,Hernandez Paniagua Liliana Alejandra,Hitoshi Takemae,Natsuko F. Inagaki,Taichi Ito,Masayuki Tera
标识
DOI:10.1021/acs.bioconjchem.4c00221
摘要
We present a novel approach to the formation of cell aggregates by employing click chemistry with water-soluble zwitterionic dibenzo cyclooctadiyne (WS-CODY) and azide-modified hyaluronic acid (HA-N3) as a linker to facilitate rapid and stable cell aggregation. By optimizing the concentrations of HA-N3 and WS-CODY, we achieved efficient cross-linking between azide-modified cell surfaces and HA-N3, generating cell aggregates within 10 min, and the resulting aggregates remained stable for up to 5 days, with cell viability maintained at approximately 80%. Systematic experiments revealed that a stoichiometric balance between HA-N3 and WS-CODY is important for effective cross-linking, highlighting the roles of both cell–surface azide modification and HA in the aggregate formation. We also investigated the genetic basis of altered cell behavior within these aggregates. Transcriptome analysis (RNA-seq) of aggregates postcultivation revealed a marked fluctuation of genes associated with ‘cell migration’ and ‘cell adhesion’, including notable changes in the expression of HYAL1, ICAM-1, CEACAM5 and RHOB. These findings suggest that HA-N3-mediated cell aggregation can induce intrinsic cellular responses that not only facilitate cell aggregate formation but also modulate cell–matrix interactions. We term this phenomenon ‘chemo-resilience’, The simplicity and efficacy of this click chemistry-based approach suggest it may have broad applicability for forming cell aggregates and modulating cell–matrix interactions in tissue engineering and regenerative medicine.
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