College of Veterinary Medicine, Northeast Agricultural University, Harbin, 150030, People's Republic of China.
Arch Toxicol. 2024 Nov;98(11):3713-3725. doi: 10.1007/s00204-024-03831-1. Epub 2024 Aug 3.
Nano-plastics (NPs) have emerged as a significant environmental pollutant, widely existing in water environment, and pose a serious threat to health and safety with the intake of animals. Skeletal muscle, a vital organ for complex life activities and functional demands, has received limited attention regarding the effects of NPs. In this study, the effects of polystyrene NPs (PS-NPs) on skeletal muscle development were studied by oral administration of different sizes (1 mg/kg) of PS-NPs in mice. The findings revealed that PS-NPs resulted in skeletal muscle damage and significantly hindered muscle differentiation, exhibiting an inverse correlation with PS-NPs particle size. Morphological analysis demonstrated PS-NPs caused partial disruption of muscle fibers, increased spacing between fibers, and lipid accumulation. RT-qPCR and western blots analyses indicated that PS-NPs exposure downregulated the expression of myogenic differentiation-related factors (Myod, Myog and Myh2), activated PPARγ/LXRβ pathway, and upregulated the expressions of lipid differentiation-related factors (SREBP1C, SCD-1, FAS, ACC1, CD36/FAT, ADIPOQ, C/EBPα and UCP-1). In vitro experiments, CC cells were used to confirm cellular penetration of PS-NPs (0, 100, 200, 400 μg/mL) through cell membranes along with activation of PPARγ expression. Furthermore, to verify LXRβ as a key signaling molecule, silencing RNA transfection experiments were conducted, resulting in no increase in the expressions of PPARγ, LXRβ, SREBP1C, FAS, CD36/FAT, ADIPOQ, C/EBPα and UCP-1 even after exposure to PS-NPs. However, the expressions of SCD-1and ACC1 remained unaffected. The present study evidenced that exposure to PS-NPs induced lipid accumulation via the PPARγ/LXRβ pathway thereby influencing skeletal muscle development.
纳米塑料(NPs)已成为一种重要的环境污染物,广泛存在于水环境中,并因动物摄入而对健康和安全构成严重威胁。骨骼肌作为复杂生命活动和功能需求的重要器官,其受 NPs 影响的相关研究却相对较少。在这项研究中,通过给小鼠口服不同大小(1mg/kg)的聚苯乙烯纳米颗粒(PS-NPs),研究了 PS-NPs 对骨骼肌发育的影响。结果表明,PS-NPs 导致骨骼肌损伤,并显著阻碍肌肉分化,与 PS-NPs 颗粒尺寸呈负相关。形态学分析表明 PS-NPs 导致部分肌纤维破坏,纤维间间距增大,脂质堆积。RT-qPCR 和 Western blot 分析表明,PS-NPs 暴露会下调肌生成分化相关因子(Myod、Myog 和 Myh2)的表达,激活 PPARγ/LXRβ 通路,并上调脂质分化相关因子(SREBP1C、SCD-1、FAS、ACC1、CD36/FAT、ADIPOQ、C/EBPα 和 UCP-1)的表达。体外实验中,使用 CC 细胞证实 PS-NPs(0、100、200、400μg/mL)通过细胞膜穿透,并激活 PPARγ 表达。此外,为了验证 LXRβ 作为关键信号分子,进行了沉默 RNA 转染实验,结果表明即使在暴露于 PS-NPs 后,PPARγ、LXRβ、SREBP1C、FAS、CD36/FAT、ADIPOQ、C/EBPα 和 UCP-1 的表达也没有增加,但 SCD-1 和 ACC1 的表达不受影响。本研究表明,PS-NPs 暴露通过 PPARγ/LXRβ 通路诱导脂质积累,从而影响骨骼肌发育。
