Oxidative stress on-chip: Prussian blue-based electrode array for in situ detection of H2O2 from cell populations

A Prussian blue-based electrode array (PBEA) constituted by eight stencil-printed electrodes on a flexible PET (polyethylene terephthalate) substrate is proposed for in-situ HeLa cell culturing and real-time detection of the released H2O2. The array was suitably interfaced with a poly- (methyl methacrylate) (PMMA) well-containing holders resulting in a low cost multichambered chip. PBEA fabrication was carried out employing a xurography-based cost-effective benchtop microfabrication technology using just a desktop cutting plotter and office grade thermal-laminator. The hydrophobicity of the PET isolating layer allows to constrain cell-containing drops directly on top of the electrochemical cells. HeLa cells growth in the very close vicinity of the working electrode ensures in-situ cell seeding, incubation, and further electrochemical detection of the H2O2 released, enabling high-throughput analysis. Selective and sensitive electrochemical sensing of hydrogen peroxide was carried out at −100 mV vs Ag|AgCl; the resulting LOD was 1.9 μM. Remarkably, the analytical exploitability of the approach was demonstrated by detection of the hydrogen peroxide released from HeLa cells stimulated with N-Formyl-L-methionyl-L-leucyl-L-phenylalanine (fMLP) and after pretreatment of the cells with cocoa polyphenols, that induced a decreased oxidative stress levels. These data make our approach a promising tool for oxidative stress evaluation in cell cultures and biological systems. •PBEA constituted by eight stencil-printed electrodes on a flexible PET substrate was designed and realized.•Real time electrochemical detection of H2O2 released by HeLa living cells was achieved.•PBEA has been applied to study the effect of cocoa polyphenols in H2O2 production.