Plasma Treatment of PDMS for Microcontact Printing (μCP) of Lectins Decreases Silicone Transfer and Increases the Adhesion of Bladder Cancer Cells
Zemła, Joanna; Szydlak, Renata; Gajos, Katarzyna; Kozłowski, Łukasz; Zieliński, Tomasz; Luty, Marcin; Øvreeide, Ingrid Haga; Prot, Victorien Emile; Stokke, Bjørn Torger; Lekka, Małgorzata
Peer reviewed, Journal article
Published version
Date
2023Metadata
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- Institutt for fysikk [2734]
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- Publikasjoner fra CRIStin - NTNU [38683]
Original version
ACS Applied Materials & Interfaces. 2023, 15 (44), 51863-51875. 10.1021/acsami.3c09195Abstract
The present study investigates silicone transfer occurring during microcontact printing (μCP) of lectins with polydimethylsiloxane (PDMS) stamps and its impact on the adhesion of cells. Static adhesion assays and single-cell force spectroscopy (SCFS) are used to compare adhesion of nonmalignant (HCV29) and cancer (HT1376) bladder cells, respectively, to high-affinity lectin layers (PHA-L and WGA, respectively) prepared by physical adsorption and μCP. The chemical composition of the μCP lectin patterns was monitored by time-of-flight secondary ion mass spectrometry (ToF-SIMS). We show that the amount of transferred silicone in the μCP process depends on the preprocessing of the PDMS stamps. It is revealed that silicone contamination within the patterned lectin layers inhibits the adhesion of bladder cells, and the work of adhesion is lower for μCP lectins than for drop-cast lectins. The binding capacity of microcontact printed lectins was larger when the PDMS stamps were treated with UV ozone plasma as compared to sonication in ethanol and deionized water. ToF-SIMS data show that ozone-based treatment of PDMS stamps used for μCP of lectin reduces the silicone contamination in the imprinting protocol regardless of stamp geometry (flat vs microstructured). The role of other possible contributors, such as the lectin conformation and organization of lectin layers, is also discussed.