Ecotoxicology and Environmental Safety (Oct 2024)
HUC-MSC-derived exosomes repaired the damage induced by hydroquinone to 16HBE cells via miR-221/PTEN pathway
Abstract
Mesenchymal stem cell - originated exosomes (MSC-exo) are promising non-cellular treatment agents for various diseases. The present study aimed to explore whether human umbilical cord MSC - originated exosomes (HUC-MSC-exo) have the function of protecting human cells (16HBE) against the damage caused by HQ and the related mechanism. HUC-MSC-exo was isolated with differential gradient ultracentrifugation method and characterized by using transmission electron microscope (TEM). 16HBE cells were used as the tool cells and co-cultured with HUC-MSC-exo. Confocal laser scanning microscope was employed to confirm the ingestion of HUC-MSC-exo by 16HBE. Cell proliferation, migration, oxidative stress, DNA and chromosome damages of 16HBE were analyzed under HQ stress, and the role of miR-221/PTEN axis was investigated. Our data showed that under HQ stress, different groups of cells exhibited significantly decreased proliferation and migration abilities, and significant oxidative stress, DNA and chromosome damage effects. HUC-MSC-exo could alleviate the cytotoxic, oxidative stress and genotoxic damage effects of HQ on 16HBE cells. Mechanistically, HQ exposure up-regulated the level of miR-221 and down-regulated PTEN, while HUC-MSC-exo could significantly reduce the level of miR-221 and promote PTEN expression, which was involved in alleviating the toxic effects of HQ on 16HBE cells. Our data indicates that HUC-MSC-exo can alleviate the oxidative stress, cytotoxic and genotoxic effects of HQ on 16HBE cells via miR-221/PTEN pathway, and it may be a promising agent for protecting against the toxicity of HQ.
