Xu-Ri Sun, Run Zhang, Jin-Kai Wu, Hong-Guang Cai, Wei Wang
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引用次数: 0
Abstract
Abstract: Background: This study aimed to provide novel insights for revealing the potential molecular mechanisms of ferroptosis in sepsis-associated encephalopathy (SAE). Methods: Three independent SAE datasets were obtained from the GEO database. The differentially expressed genes (DEGs) were then intersected with ferroptosis-related markers. The intersected genes were further analyzed for the identification of ferroptosis-related DEGs (FRDEGs) and main pathways via protein-protein interaction network construction and enrichment analysis. The related pathway targets were further verified at the mRNA and protein expression level. Results: We demonstrated 121 highly expressed genes and 19 lowly expressed genes that play critical roles in SAE. Intersecting these DEGs with ferroptosis-related markers, we identified 11 FRDEGs. We constructed a protein-protein interaction network of the 11 FRDEGs and found Stat3 showed the highest degree score. In addition, KEGG pathway analysis showed that the 11 FRDEGs were predominantly involved in HIF-1 signaling pathway. The results from animal experiments indicated that sepsis upregulated the mRNA and protein expression levels of Stat3/HIF-1α axis in hippocampal tissue of SAE mice. In addition, we found that sepsis caused hippocampal ferroptosis, as evidenced by an increase in ferroptosis-related proteins and malondialdehyde, and a decrease in glutathione level. In contrast, treatment with Stat3 inhibitor attenuated hippocampal ferroptosis and decreased the mRNA and protein level of HIF-1α in hippocampal tissue of SAE mice. Conclusion: In conclusion, our study demonstrated that sepsis might induce the activation of hippocampal ferroptosis by triggering the Stat3/HIF-1α axis, thereby providing a novel therapeutic target for SAE.
期刊介绍:
SHOCK®: Injury, Inflammation, and Sepsis: Laboratory and Clinical Approaches includes studies of novel therapeutic approaches, such as immunomodulation, gene therapy, nutrition, and others. The mission of the Journal is to foster and promote multidisciplinary studies, both experimental and clinical in nature, that critically examine the etiology, mechanisms and novel therapeutics of shock-related pathophysiological conditions. Its purpose is to excel as a vehicle for timely publication in the areas of basic and clinical studies of shock, trauma, sepsis, inflammation, ischemia, and related pathobiological states, with particular emphasis on the biologic mechanisms that determine the response to such injury. Making such information available will ultimately facilitate improved care of the traumatized or septic individual.
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