Microplastics cause reproductive toxicity in male mice through inducing apoptosis of spermatogenic cells via p53 signaling

Studies on male reproductive toxicity of microplastics are still scarce and the precise mechanism is not distinct. C57BL/6 male mice were given oral gavage treatments treated with 5 μm (MPs) and 80 nm (NPs) polystyrene microplastics every day for 60 consecutive days in a row at dosages of 0, 10 and 40 mg/kg/d. The major damage of MPs and NPs were assessed by the assays in vivo and in vitro. Transcriptome sequencing was applied to screen the key involved pathways. In the 10 mg/kg/d NPs group, there was an increase in testicular organ coefficient, and in the 40 mg/kg/d MPs group, an increase in epididymal weight was observed. Vacuolization of spermatogenic cell layer, interstitial congestion, and germ cell apoptosis were found in the testes of MPs and NPs treatment mice at different dose groups. Higher apoptosis rate was observed in GC-2 cells after MPs and NPs treatment at different concentrations. Transcriptome analysis suggested that p53 pathway might be the key signal pathway of the cell apoptosis, and the expressions of p53 and other markers of cell apoptosis were indeed altered after exposure to MPs and NPs. MPs and NPs can cause reproductive toxicity in male mice through inducing apoptosis of spermatogenic cells via p53 signaling pathway, indicating MPs and NPs exposure be an unnegligible risk factor for reproductive health in male mice.