Background: This study mainly investigated the mechanism and effects of AKAP1 in renal patients with acute heart failure (AHF).
Methods: Patients with renal patients with AHF and normal volunteers were collected. The left anterior descending arteries (LAD) of mice were ligated to induce myocardial infarction.
Results: AKAP1 messenger RNA (mRNA) expression was found to be down-regulated in renal patients with AHF. The serum levels of AKAP1 mRNA expression were negatively correlated with collagen I/III in patients. AKAP1 mRNA and protein expression in the heart tissue of mice with AHF were also found to be down-regulated in a time-dependent manner. Short hairpin (Sh)-AKAP1 promotes AHF in a mouse model. AKAP1 up-regulation reduces reactive oxygen species (ROS)-induced oxidative stress in an In Vitro model. AKAP1 up-regulation also reduces ROS-induced lipid peroxidation ferroptosis in an In Vitro model. AKAP1 induces NDUFS1 expression to increase GPX4 activity levels. AKAP1 protein interlinked with the NDUFS1 protein. Up-regulation of the AKAP1 gene reduced NDUFS1 ubiquitination, while down-regulation of the AKAP1 gene increased NDUFS1 ubiquitination in a model. In vivo imaging showed that the sh-AKAP1 virus reduced NDUFS1 expression in the heart of a mouse model.
Conclusions: AKAP1 reduced ROS-induced lipid peroxidation ferroptosis through the inhibition of ubiquitination of NDUFS by mitochondrial damage in model of renal patients with AHF, suggest a novel target for AHF treatment.