The Differential Effect of Carbon Dots on Gene Expression and DNA Methylation of Human Embryonic Lung Fibroblasts as a Function of Surface Charge and Dose.
Michal SimaKristyna VrbovaTana ZavodnaKaterina HonkovaIrena ChvojkovaAntonin AmbrozJiří KlémaAndrea RossnerovaKaterina PolakovaTomáš MalinaJan BelzaJan TopinkaPavel RossnerPublished in: International journal of molecular sciences (2020)
This study presents a toxicological evaluation of two types of carbon dots (CD), similar in size (<10 nm) but differing in surface charge. Whole-genome mRNA and miRNA expression (RNAseq), as well as gene-specific DNA methylation changes, were analyzed in human embryonic lung fibroblasts (HEL 12469) after 4 h and 24 h exposure to concentrations of 10 and 50 µg/mL (for positive charged CD; pCD) or 10 and 100 µg/mL (for negative charged CD, nCD). The results showed a distinct response for the tested nanomaterials (NMs). The exposure to pCD induced the expression of a substantially lower number of mRNAs than those to nCD, with few commonly differentially expressed genes between the two CDs. For both CDs, the number of deregulated mRNAs increased with the dose and exposure time. The pathway analysis revealed a deregulation of processes associated with immune response, tumorigenesis and cell cycle regulation, after exposure to pCD. For nCD treatment, pathways relating to cell proliferation, apoptosis, oxidative stress, gene expression, and cycle regulation were detected. The expression of miRNAs followed a similar pattern: more pronounced changes after nCD exposure and few commonly differentially expressed miRNAs between the two CDs. For both CDs the pathway analysis based on miRNA-mRNA interactions, showed a deregulation of cancer-related pathways, immune processes and processes involved in extracellular matrix interactions. DNA methylation was not affected by exposure to any of the two CDs. In summary, although the tested CDs induced distinct responses on the level of mRNA and miRNA expression, pathway analyses revealed a potential common biological impact of both NMs independent of their surface charge.
Keyphrases
- dna methylation
- gene expression
- quantum dots
- genome wide
- extracellular matrix
- cell cycle
- poor prognosis
- oxidative stress
- cell proliferation
- binding protein
- endothelial cells
- immune response
- diabetic rats
- high glucose
- visible light
- copy number
- drug induced
- long non coding rna
- endoplasmic reticulum stress
- pluripotent stem cells
- inflammatory response
- ischemia reperfusion injury
- climate change
- transcription factor
- combination therapy
- pi k akt
- toll like receptor