Evaluation of ToF-SIMS imaging for semi-quantitative mapping of BODIPY-labeled fibronectin surface gradients
Chao Liu, Tae Kyong John Kim, Douglas H. Wu, Radhika Atit, Rodrigo A. Somoza, Samuel E. Senyo

TL;DR
A new method using ToF-SIMS imaging allows for more sensitive detection of fibronectin gradients in microfluidic cell migration studies than traditional fluorescence methods.
Contribution
The study introduces a semi-quantitative ToF-SIMS imaging method for detecting low-concentration fibronectin gradients with higher sensitivity than fluorescence.
Findings
ToF-SIMS detected fibronectin gradients at 1 µg mL−1, surpassing fluorescence detection limits.
BODIPY-FN labeling minimized background signal, enabling clearer gradient visualization.
Semi-quantitative ToF-SIMS confirmed graded fibronectin distribution in the haptotaxis zone.
Abstract
Microfluidic platforms offer controlled microenvironments for studying cell migration such as haptotaxis. In many gradient-based assays, protein gradients are first visualized using higher concentrations of fluorescent labels, since gradients formed at biologically relevant ligand densities often fall below the detection limits of conventional imaging methods. In this study, we demonstrate the feasibility of characterizing fibronectin gradients using a more sensitive, high-resolution approach with Time-of-Flight Secondary Ion Mass Spectrometry (ToF-SIMS). Our methods increase analytical sensitivity to fibronectin gradients formed on commonly used synthetic surfaces to better elucidate physiological mechanisms and ensure experimental reproducibility. We utilized a microfluidic chip with a silicone housing placed on an optically clear plastic microscope slide designed for live-cell…
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Taxonomy
TopicsIon-surface interactions and analysis · Mass Spectrometry Techniques and Applications · Force Microscopy Techniques and Applications
