AI Article Synopsis
- Copper oxide nanoparticles (CuONPs) pose potential health risks and have been shown to impair mouse embryonic development, particularly during the crucial morula-to-blastocyst transition.
- * Exposure to CuONPs leads to mitochondrial dysfunction, reduced tricarboxylic acid (TCA) cycle activity, and insufficient α-ketoglutarate (α-KG) production, which affects DNA demethylation and inhibits key gene expressions necessary for embryonic development.
- * A negative correlation was observed between urinary Cu ion concentrations and clinical outcomes in women undergoing assisted reproductive technology, highlighting the potential reproductive toxicity of CuONPs.
Article Abstract
Copper oxide nanoparticles (CuONPs) have been widely applied, posing potential risks to human health. Although the toxicity of CuONPs on the liver and spleen has been reported, their effects on reproductive health remain unexplored. In this study, we investigate the effects of CuONPs on embryonic development and their potential mechanisms. Our results demonstrate that CuONPs exposure impairs mouse preimplantation embryonic development, particularly affecting the morula-to-blastocyst transition. Additionally, CuONPs were found to reduce the pluripotency of the inner cell mass (ICM) and mouse embryonic stem cells (mESCs). Mechanistically, CuONPs block autophagic flux and impair mitophagy, leading to the accumulation of damaged mitochondria. This mitochondrial dysfunction leads to reduced tricarboxylic acid (TCA) cycle activity and decreased α-ketoglutarate (α-KG) production. Insufficient α-KG induces the failure of DNA demethylation, reducing corresponding chromatin accessibility and consequently inhibiting ICM-specific genes expressions. Similar reduced development and inhibitions of pluripotency gene expression were observed in CuONPs-treated human blastocysts. Moreover, in women undergoing assisted reproductive technology (ART), a negative correlation was found between urinary Cu ion concentrations and clinical outcomes. Collectively, our study elucidates the mitophagy-mediated metabolic mechanisms of CuONPs embryotoxicity, improving our understanding of the potential reproductive toxicity associated with it.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11562798 | PMC |
| http://dx.doi.org/10.1021/acsnano.4c09734 | DOI Listing |
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