Cardiolipin externalization mediates prion protein (PrP) peptide 106-126-associated mitophagy and mitochondrial dysfunction

Dongming Yang; Jie Li; Zhiping Li; Mengyang Zhao; Dongdong Wang; Zhixin Sun; Pei Wen; Fengting Gou; Yuexin Dai; Yilan Ji; Wen Li; Deming Zhao; Lifeng Yang

doi:10.3389/fnmol.2023.1163981

Cardiolipin externalization mediates prion protein (PrP) peptide 106-126-associated mitophagy and mitochondrial dysfunction

Front Mol Neurosci. 2023 Jun 2:16:1163981. doi: 10.3389/fnmol.2023.1163981. eCollection 2023.

Authors

Dongming Yang¹, Jie Li¹, Zhiping Li¹, Mengyang Zhao¹, Dongdong Wang¹, Zhixin Sun¹, Pei Wen¹, Fengting Gou¹, Yuexin Dai¹, Yilan Ji¹, Wen Li¹, Deming Zhao¹, Lifeng Yang¹

Affiliation

¹ National Animal Transmissible Spongiform Encephalopathy Laboratory, College of Veterinary Medicine, State Key Laboratories for Agrobiotechnology, Key Laboratory of Animal Epidemiology of Ministry of Agriculture and Rural Affairs, China Agricultural University, Beijing, China.

Abstract

Proper mitochondrial performance is imperative for the maintenance of normal neuronal function to prevent the development of neurodegenerative diseases. Persistent accumulation of damaged mitochondria plays a role in prion disease pathogenesis, which involves a chain of events that culminate in the generation of reactive oxygen species and neuronal death. Our previous studies have demonstrated that PINK1/Parkin-mediated mitophagy induced by PrP^106-126 is defective and leads to an accumulation of damaged mitochondria after PrP^106-126 treatment. Externalized cardiolipin (CL), a mitochondria-specific phospholipid, has been reported to play a role in mitophagy by directly interacting with LC3II at the outer mitochondrial membrane. The involvement of CL externalization in PrP^106-126-induced mitophagy and its significance in other physiological processes of N2a cells treated with PrP^106-126 remain unknown. We demonstrate that the PrP^106-126 peptide caused a temporal course of mitophagy in N2a cells, which gradually increased and subsequently decreased. A similar trend in CL externalization to the mitochondrial surface was seen, resulting in a gradual decrease in CL content at the cellular level. Inhibition of CL externalization by knockdown of CL synthase, responsible for de novo synthesis of CL, or phospholipid scramblase-3 and NDPK-D, responsible for CL translocation to the mitochondrial surface, significantly decreased PrP^106-126-induced mitophagy in N2a cells. Meanwhile, the inhibition of CL redistribution significantly decreased PINK1 and DRP1 recruitment in PrP^106-126 treatment but had no significant decrease in Parkin recruitment. Furthermore, the inhibition of CL externalization resulted in impaired oxidative phosphorylation and severe oxidative stress, which led to mitochondrial dysfunction. Our results indicate that CL externalization induced by PrP^106-126 on N2a cells plays a positive role in the initiation of mitophagy, leading to the stabilization of mitochondrial function.

Keywords: autophagy; cardiolipin; mitophagy; neurodegenerative disease; prion disease.

Grants and funding

This study was supported by the Natural Science Foundation of China (Project No. 31972641).