Platform to study intracellular polystyrene nanoplastic pollution and clinical outcomes

Bojic, Sanja; Falco, Matias M.; Stojkovic, Petra; Ljujic, Biljana; Jankovic, Marina Gazdic; Armstrong, Lyle; Markovic, Nebojsa; Dopazo, Joaquin; Lako, Majlinda; Bauer, Roman; Stojkovic, Miodrag

Publicación: STEM CELLS
2020
VL / 38 - BP / 1321 - EP / 1325
abstract
Increased pollution by plastics has become a serious global environmental problem, but the concerns for human health have been raised after reported presence of microplastics (MPs) and nanoplastics (NPs) in food and beverages. Unfortunately, few studies have investigate the potentially harmful effects of MPs/NPs on early human development and human health. Therefore, we used a new platform to study possible effects of polystyrene NPs (PSNPs) on the transcription profile of preimplantation human embryos and human induced pluripotent stem cells (hiPSCs). Two pluripotency genes,LEFTY1andLEFTY2, which encode secreted ligands of the transforming growth factor-beta, were downregulated, whileCA4andOCLM, which are related to eye development, were upregulated in both samples. The gene set enrichment analysis showed that the development of atrioventricular heart valves and the dysfunction of cellular components, including extracellular matrix, were significantly affected after exposure of hiPSCs to PSNPs. Finally, usingthe HiPathiamethod, which uncovers disease mechanisms and predicts clinical outcomes, we determined theAPOC3circuit, which is responsible for increased risk for ischemic cardiovascular disease. These results clearly demonstrate that better understanding of NPs bioactivities and its implications for human health is of extreme importance. Thus, the presented platform opens further aspects to study interactions between different environmental and intracellular pollutions with the aim to decipher the mechanism and origin of human diseases.

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Bronze