Litcius/Paper detail

222-Nanometer Far-UVC Exposure Results in DNA Damage and Transcriptional Changes to Mammalian Cells

Qunxiang Ong, Winson Wee, Joshua Dela Cruz, J. W. Ronnie Teo, Weiping Han

2022International Journal of Molecular Sciences20 citationsDOIOpen Access PDF

Abstract

Ultraviolet (UV) germicidal tools have recently gained attention as a disinfection strategy against the COVID-19 pandemic, but the safety profile arising from their exposure has been controversial and impeded larger-scale implementation. We compare the emerging 222-nanometer far UVC and 277-nanometer UVC LED disinfection modules with the traditional UVC mercury lamp emitting at 254 nm to understand their effects on human retinal cell line ARPE-19 and HEK-A keratinocytes. Cells illuminated with 222-nanometer far UVC survived, while those treated with 254-nanometer and 277-nanometer wavelengths underwent apoptosis via the JNK/ATF2 pathway. However, cells exposed to 222-nanometer far UVC presented the highest degree of DNA damage as evidenced by yH2AX staining. Globally, these cells displayed transcriptional changes in cell-cycle and senescence pathways. Thus, the introduction of 222-nanometer far UVC lamps for disinfection purposes should be carefully considered and designed with the inherent dangers involved.

Topics & Concepts

NanometreDNA damageNanotechnologyCell biologyChemistryDNAMaterials scienceBiologyPhysicsOpticsBiochemistrySkin Protection and AgingInfection Control and VentilationRetinal and Optic Conditions