Abstract
Silica nanoparticles (SiNPs) are widely used in biomedical fields, such as drug delivery, disease diagnosis, and molecular imaging. An increasing number of consumer products containing SiNPs are being used without supervision, and the toxicity of SiNPs to the human body is becoming a major problem. SiNPs contact the human body in various ways and cause damage to the structure and function of genetic material, potentially leading to carcinogenesis, teratogenicity and infertility. This review summarizes SiNPs-induced genetic and epigenetic toxicity, especially to germ cells, and explore their potential mechanisms. SiNPs cause genetic material damage mainly by inducing oxidative stress. Furtherly, the molecular mechanisms of epigenetic toxicity are discussed in detail for the first time. SiNPs alter DNA methylation, miRNA expression, histone modification and inhibit chromatin remodeling by regulating epigenetic-related enzymes and transcription factors. This review is beneficial for investigating potential solutions to avoid toxicity and provide guidance for better application of SiNPs in the biomedical field.