Institute of Basic Medical Sciences Chinese Academy of Medical Sciences, School of Basic Medicine Peking Union Medical College, Beijing 100005, China.
Institute of Basic Medical Sciences Chinese Academy of Medical Sciences, School of Basic Medicine Peking Union Medical College, Beijing 100005, China; Center of Environmental and Health Sciences, Chinese Academy of Medical Sciences, Beijing, 100005, China.
Life Sci. 2024 Nov 15;357:123076. doi: 10.1016/j.lfs.2024.123076. Epub 2024 Sep 25.
Many studies demonstrated reproductive damage in men residing in plains who are exposed to hypoxia at high altitudes. However, little is known about mechanisms between male reproductive impairment and hypobaric hypoxia. Hypoxia is one of the reasons for the imbalance of cellular redox system. Ferroptosis, involved in many pathophysiological progresses, is an oxidative damage-related, iron-dependent regulated cell death, which needs exogenous inducer. In our study, we explored the mechanism between hypoxia and male reproductive dysfunction.
Here, we established animal model simulating hypobaric hypoxia at an altitude of 5000 m and used ELISA, WB, qPCR, flow cytometry and etc. to obtain different results.
The results demonstrated decrease of plasma testosterone (T) and free testosterone (FT) levels under hypoxia, meanwhile there's decline in sperm counts and sperm motility, coupled with increase in sperm malformation rates. Flow cytometry confirmed significant reduction in Leydig cell numbers. Prussian blue staining showed iron depositions in interstitial testis. Features of ferroptosis such as increased MDA (malondialdehyde) levels, reduced solute carrier family 7 member 11 (SLC7A11, xCT) and glutathione peroxidase 4 (GPX4) expression were observed in testis after hypoxic exposure. Further in vitro experiments, we observed that hypoxia suppressed xCT-GPX4 pathway and enhanced cellular ROS accumulation to lead Leydig cell proliferation activity decline.
Our findings firstly indicated that hypoxia leads to male reproductive dysfunction via inducing Leydig cell ferroptosis. This discovery may offer a potential intervention target for addressing male reproductive injuries under hypoxic conditions.
许多研究表明,居住在高原平原地区、暴露于高海拔低氧环境下的男性存在生殖损伤。然而,低氧环境与男性生殖损伤之间的机制知之甚少。低氧是细胞氧化还原系统失衡的原因之一。铁死亡涉及许多病理生理过程,是一种与氧化损伤相关的、依赖铁的调节性细胞死亡,需要外源性诱导剂。在本研究中,我们探讨了低氧与男性生殖功能障碍之间的机制。
在这里,我们建立了模拟 5000 米高原低氧的动物模型,使用 ELISA、WB、qPCR、流式细胞术等方法获得不同的结果。
低氧条件下,血浆睾酮(T)和游离睾酮(FT)水平下降,精子计数和精子活力下降,精子畸形率升高。流式细胞术证实了间质睾丸中莱迪希细胞数量的显著减少。普鲁士蓝染色显示间质睾丸中铁沉积。在低氧暴露后,睾丸中出现了铁死亡的特征,如 MDA(丙二醛)水平升高、溶质载体家族 7 成员 11(SLC7A11,xCT)和谷胱甘肽过氧化物酶 4(GPX4)表达降低。进一步的体外实验观察到,低氧抑制了 xCT-GPX4 通路,增加了细胞内 ROS 积累,导致莱迪希细胞增殖活性下降。
我们的研究结果首次表明,低氧通过诱导莱迪希细胞铁死亡导致男性生殖功能障碍。这一发现可能为解决低氧环境下男性生殖损伤提供了一个潜在的干预靶点。
