ABSTRACT
Despite COVID-19 lockdowns, gradual restarting of the global economy has rapidly increased air quality index (AQI) values. With over 99 % of the world population living in areas exceeding air quality guidelines, air pollution is more so a threat to our health. Within particulate matter, a major air pollutant, lies polycyclic aromatic hydrocarbons (PAH). While recent studies explore the link between air pollution and pigmentation disorders, the molecular mechanisms responsible for this alteration remain largely unknown. To challenge our hypothesis that exposure to PAH leads to an increase in abnormal pigmentation, we have utilized in vitro and in vivo assays. In vitro, novel 2D and 3D co-culture assays were developed to analyze pigment production, transfer and total melanin content in human keratinocytes and melanocytes. Following that, bulk RNA-sequencing was also carried out on isolated melanocytes post co-culture to possibly elucidate the mechanism behind this phenomenon. In vivo, a mouse model bearing epidermal melanin was generated to investigate the effect of PAH exposure. Notably, our initial studies have indicated a significant increase in melanin production, transfer and total melanin content when exposed to PAH. From our transcriptome analysis, we have also pinpointed to several genes which have been differentially expressed, most significant being CYP1A1. This prompted us to look further into the AhR signaling pathway. Interestingly, we did not see an increase in classic melanogenesis genes, but instead genes which are usually associated with senescence-associated secretory phenotype (SASP). This hints to a possible alternative pathway leading to an eventual increase in melanin production. We believe that our findings highlight potential approaches for novel therapeutics the treatment of skin pigmentation disorders triggered by air pollution.Copyright © 2023