Recently, the use of CdTe quantum dots in the field of biomedicine, such as biological imaging, biosensors, cell markers, and drug carriers, is increasing due to their special physical and chemical properties. However, their biosafety assessment lags far behind their rapid application. In this study, we observed that CdTe quantum dots with certain exposed doses and time decreased the cell viability and increased the apoptosis rates in ND7/23 cells. In general, CdTe quantum dots exposure could promote the accumulation of reactive oxygen species (ROS) in cells and decrease the mitochondrial membrane potential, which led to pathological changes and subcellular organelle damages. We hypothesized that the mitochondrial pathway could be involved in CdTe quantum dots-induced apoptosis. The results suggested that CdTe quantum dots exposure increased the expression levels of three mitochondrial pathway markers, for example, caspase-3, cytochrome c, and Bax while decreased Bcl-2 protein expression, following with cytochrome c falling out of the inner membrane of mitochondrial and releasing into the cytoplasm. The application of caspase-3 protein inhibitor Ac-DEVD-CHO could decrease apoptosis rates in ND7/23 cells. The results, taken together, demonstrated that CdTe quantum dots could induce apoptosis of ND7/23 cells through the mitochondrial pathway. Our findings provide a novel insight for researchers to explore CdTe quantum dots' toxic mechanisms to reduce their adverse effects.
Keywords: ND7/23 cells; cell apoptosis; neurotoxicity; quantum dots; reactive oxygen species.
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