Induction of cytotoxic effects and changes in DNA methylation-related gene expression in a human fibroblast cell line by the metal-organic framework [H 2 NMe 2 ] 3 [Tb(III)(2,6 pyridinedicarboxylate) 3 ] (Tb-MOF).
Leydi Maribel Carrillo-CocomLucia Juárez-MéndezSusana RincónJosé María Rivera VillanuevaGeovanny Iran Nic-CanAlejandro ZepedaPublished in: Environmental science and pollution research international (2023)
Lanthanide metal-organic frameworks (lanthanide MOFs) may be utilized for a variety of environmental and human health applications due to their luminescent properties and high thermal and water stability. However, the cytotoxic and epigenetic effects produced in human cells are not known. Therefore, we evaluated the cytotoxic effects, internalization, and changes in the mRNA abundance of DNA methylation and demethylation enzymes by exposing human fibroblast cells to a metal-organic framework [H 2 NMe 2 ] 3 [Tb(III)(2,6 pyridinedicarboxylate) 3 ] (Tb-MOF). For this purpose, the cells were exposed to six concentrations (0.05 to 1.6 mg/mL) of Tb-MOF for 48 h. Field emission electron microscopy coupled to linear energy dispersive spectroscopy (FESEM‒EDS) and confocal microscopy analysis were performed. The cytotoxicity was determined with crystal violet and MTT assays. The results demonstrated the internalization of Tb-MOF at concentrations as low as 0.05 mg/mL, as well as concentration-dependent toxicity. Additionally, we detected significant changes in the gene expression levels of DNA methyltransferases and demethylases due to the presence of Tb-MOF, suggesting that Tb-MOF could generate epigenetic changes even at low concentrations. The results of our study may establish a foundation for future research attempting to develop and apply secure nanomaterials (e.g., MOFs) to minimize damage to the environment and human health.
Keyphrases
- metal organic framework
- dna methylation
- gene expression
- human health
- mycobacterium tuberculosis
- risk assessment
- induced apoptosis
- genome wide
- endothelial cells
- climate change
- circulating tumor
- cell proliferation
- ionic liquid
- microbial community
- endoplasmic reticulum stress
- wastewater treatment
- pi k akt
- wound healing
- anaerobic digestion
- oxide nanoparticles