AI Article Synopsis
- The study examines how high stress levels, simulated using corticosterone in mice, negatively impact male fertility by lowering testosterone and sperm counts.
- Findings reveal that the treatment leads to impaired spermatogenesis and increased inflammation in the testis, indicated by the presence of abnormal cells and apoptotic germ cells.
- The research suggests that dysfunctional phagocytosis and lactate metabolism in Sertoli cells contribute to these fertility issues under stress conditions.
Article Abstract
The effect of stress on male fertility is a widespread public health issue, but less is known about the related signaling pathway. To investigate this, we established a hypercortisolism mouse model by supplementing the drinking water with corticosterone for four weeks. In the hypercortisolism mice, the serum corticosterone was much higher than in the control, and serum testosterone was significantly decreased. Moreover, corticosterone treatment induced decrease of sperm counts and increase of teratozoospermia. Increased numbers of multinucleated giant cells and apoptotic germ cells as well as downregulated meiotic markers suggested that corticosterone induced impaired spermatogenesis. Further, upregulation of macrophage-specific marker antigen F4/80 as well as inflammation-related genes suggested that corticosterone induced inflammation in the testis. Lactate content was found to be decreased in the testis and Sertoli cells after corticosterone treatment, and lactate metabolism-related genes were downregulated. In vitro phagocytosis assays showed that the phagocytic activity in corticosterone-treated Sertoli cells was downregulated and accompanied by decreased mitochondrial membrane potential, while pyruvate dehydrogenase kinase-4 inhibitor supplementation restored this process. Taken together, our results demonstrated that dysfunctional phagocytosis capacity and lactate metabolism in Sertoli cells participates in corticosterone-induced impairment of spermatogenesis.
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| http://dx.doi.org/10.1002/mrd.23515 | DOI Listing |
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