Affiliation:
1. Department of Neurosurgery The Second Affiliated Hospital, Chongqing Medical University Chongqing China
2. Department of Endocrinology The First Affiliated Hospital, Chongqing Medical and Pharmaceutical College Chongqing China
Abstract
AbstractFerroptosis has been implicated in the pathogenesis of secondary brain injury following intracerebral hemorrhage (ICH), and regulating this process is considered a potential therapy for alleviating further brain injury. A previous study showed that CDGSH iron sulfur domain 2 (CISD2) can inhibit ferroptosis in cancer. Thus, we investigated the effects of CISD2 on ferroptosis and the mechanisms underlying its neuroprotective role in mice after ICH. CISD2 expression markedly increased after ICH. CISD2 over‐expression significantly decreased the number of Fluoro‐Jade C‐positive neurons and alleviated brain edema and neurobehavioral deficits at 24 h after ICH. In addition, CISD2 over‐expression up‐regulated the expression of p‐AKT, p‐mTOR, ferritin heavy chain 1, glutathione peroxidase 4, ferroportin, glutathione, and glutathione peroxidase activity, which are markers of ferroptosis. Additionally, CISD2 over‐expression down‐regulated the levels of malonaldehyde, iron content, acyl‐CoA synthetase long‐chain family member 4, transferrin receptor 1, and cyclooxygenase‐2 at 24 h after ICH. It also alleviated mitochondrial shrinkage and decreased the density of the mitochondrial membrane. Furthermore, CISD2 over‐expression increased the number of GPX4‐positive neurons following ICH induction. Conversely, knockdown of CISD2 aggravated neurobehavioral deficits, brain edema, and neuronal ferroptosis. Mechanistically, MK2206, an AKT inhibitor, suppressed p‐AKT and p‐mTOR and reversed the effects of CISD2 over‐expression on markers of neuronal ferroptosis and acute neurological outcome. Taken together, CISD2 over‐expression alleviated neuronal ferroptosis and improved neurological performance, which may be mediated through the AKT/mTOR pathway after ICH. Thus, CISD2 may be a potential target to mitigate brain injury via the anti‐ferroptosis effect after ICH.image
Subject
Cellular and Molecular Neuroscience,Biochemistry
Cited by
11 articles.
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