Stomatin-like protein-2 attenuates macrophage pyroptosis and H9c2 cells apoptosis by protecting mitochondrial function

Abstract

Myocytes undergoing hypoxia condition can recruit macrophages and cause pro-inflammation initiation around the injury area. Mitochondrial dysfunction is related to macrophage pyroptosis. Stomatin-like protein-2 (SLP-2) can regulate mitochondrial biogenesis and function. Whether SLP-2 could affect macrophage pyroptosis remains unclear. In this study, bone marrow derived macrophages (BMDMs) were extracted from WT and SLP-2 knocked out mice, then stimulated by LPS/Nigericin. Western blot showed that SLP-2−/− promoted the expression of NLRP3, GSDMD-N, caspase-11 in macrophages, which means the deficiency of SLP-2 augments macrophage pyroptosis. Higher fluorescence intensity of dihydroethidium and TUNEL represented the increased ROS releasing and macrophage programmed death in SLP-2 deficiency groups. The immunofluorescence intensity of MtioTracker Red decreased and that of mitochondrial ROS (mtROS) increased in SLP-2 deletion groups with LPS/Nigericin stimulation, representing the increased mitochondrial damage. The expression level of HIF-1α increased in SLP-2 deletion macrophages with LPS and Nigericin stimulation. The level of Parkin and the ratio of LC3II/I decreased in SLP-2 deficiency macrophages after stimulated by LPS/Nigericin, compared with untreated macrophages. H9c2 cells were cultured in hypoxia condition before being cocultured with macrophage supernatant. The cocultured H9c2 cells were injured due to the serious pyroptosis of SLP-2 deficiency macrophages. According to these results, we suggest that SLP-2 can reduce macrophage pyroptosis and relieve hypoxia H9c2 cells injury through protecting mitochondrial function.