Riboflavin Attenuates Fluoride-Induced Testicular Injury via Interleukin 17A-Mediated Classical Pyroptosis.
Xiang LiJie YangHuifeng LuoYurou QiaoLiying ZhaoChenkai ChengWeixiang FuYanjia TanJundong WangChen LiangJianhai ZhangPublished in: Journal of agricultural and food chemistry (2024)
Male reproductive toxicity of fluoride is of great concern worldwide, yet the underlying mechanism is unclear. Pyroptosis is a novel mode of inflammatory cell death, and riboflavin with anti-inflammatory properties has the potential to protect against fluoride damage. However, it is unknown whether pyroptosis is involved in fluoride-induced testicular injury and riboflavin intervention. Here, we first found that riboflavin could alleviate fluoride-caused lower sperm quality and damaged testicular morphology by reducing pyroptosis based on a model of ICR mice treated with NaF (100 mg/L) and/or riboflavin supplementation (40 mg/L) via drinking water for 13 weeks. And then, together with the results of in vitro Leydig cell modelsm it was confirmed that the pyroptosis occurs predominantly through classical NLRP3/Caspase-1/GSDMD pathway. Furthermore, our results reveal that interleukin-17A mediates the process of pyroptosis in testes induced by fluoride and riboflavin attenuation according to the results of our established models of riboflavin- and/or fluoride-treated IL-17A knockout mice. The results not only declare a new mechanism by which fluoride induces testicular injury via interleukin 17A-mediated classical pyroptosis but also provide evidence for the potential clinical application of riboflavin as an effective therapy for fluoride toxicity.
Keyphrases
- drinking water
- nlrp inflammasome
- cell death
- health risk
- health risk assessment
- oxidative stress
- randomized controlled trial
- single cell
- high glucose
- anti inflammatory
- germ cell
- gene expression
- diabetic rats
- stem cells
- dna methylation
- mesenchymal stem cells
- endothelial cells
- bone marrow
- cell proliferation
- pet ct
- genome wide
- insulin resistance
- skeletal muscle
- heavy metals