Cordycepin ameliorates kidney injury by inhibiting gasdermin D‐mediated pyroptosis of renal macrophages through nuclear factor kappa‐B

To explain the effect and mechanism of cordycepin (COR) in resisting acute kidney injury (AKI). Network pharmacology was employed to analyze the correlations between COR, AKI, and pyroptosis, as well as the action target of COR. A mouse model of AKI was established by ischemia reperfusion injury (IRI), and after treatment with COR, the renal function, tissue inflammatory cytokine levels, and pyroptosis‐related signals were detected in mice. In in‐vitro experiments, damage of renal macrophages was caused by the oxygen‐glucose deprivation model, and pyroptosis indicators and inflammatory cytokine levels were assayed after COR treatment. Network pharmacological analysis revealed that nuclear factor kappa‐B (NF‐κB) was the primary action target of COR and that COR could inhibit kidney injury and tissue inflammation during IRI by inhibiting NF‐κB‐mediated gasdermin D cleavage. When NF‐κB was inhibited, the effect of COR was weakened. COR in renal macrophages could inhibit pyroptosis and lower the levels of inflammatory cytokines, whose effect was associated with NF‐κB. Our study finds that COR can play an anti‐inflammatory role and inhibit the progression of AKI through the NF‐κB‐mediated pyroptosis, which represents its nephroprotective mechanism. Through network pharmacology combined with experimentation, we find that COR can inhibit the occurrence of pyroptosis through NF‐κB, thereby suppressing AKI and inflammatory response. Our study provides a new insight into the nephroprotective effect of COR, which is a potential drug for treating kidney injury.