Protective effects of lutein against phone screen light-induced damage on 3D bioprinted retinal pigment epithelium monolayers

Cumulative light exposure, including electronic device radiation, may induce retinal pigment epithelium (RPE)related retinal diseases, potentially mitigated by lutein. However, there is limited 3D RPE monolayer model to study the effect of phytochemicals on their activity and action mechanisms in vitro. Here, we present a method using a monolayer RPE tissue model on a 3D-printed polycaprolactone scaffold. Six-hour of phone screen light increased reactive oxygen species (ROS) in RPE cells, leading to oxidative stress, cytotoxicity, and inhibited metabolism. Pre-treating RPE cells (24 h) with 0.5 mu M lutein reduced ROS levels and maintained viability under the same light exposure. Additionally, lutein demonstrated protective effects on crucial RPE functions, including phagocytosis and the retinal-blood barrier. This study underscores the importance of optimal lutein content in shielding RPE from phone screen light damage, and our model holds promise for evaluating the efficacy of antioxidants against light radiation.