AIF translocation into nucleus caused by Aifm1 R450Q mutation: generation and characterization of a mouse model for AUNX1.
Tao ShiZiyi ChenJin LiHongyang WangQiuju WangPublished in: Human molecular genetics (2024)
Mutations in AIFM1, encoding for apoptosis-inducing factor (AIF), cause AUNX1, an X-linked neurologic disorder with late-onset auditory neuropathy (AN) and peripheral neuropathy. Despite significant research on AIF, there are limited animal models with the disrupted AIFM1 representing the corresponding phenotype of human AUNX1, characterized by late-onset hearing loss and impaired auditory pathways. Here, we generated an Aifm1 p.R450Q knock-in mouse model (KI) based on the human AIFM1 p.R451Q mutation. Hemizygote KI male mice exhibited progressive hearing loss from P30 onward, with greater severity at P60 and stabilization until P210. Additionally, muscle atrophy was observed at P210. These phenotypic changes were accompanied by a gradual reduction in the number of spiral ganglion neuron cells (SGNs) at P30 and ribbons at P60, which coincided with the translocation of AIF into the nucleus starting from P21 and P30, respectively. The SGNs of KI mice at P210 displayed loss of cytomembrane integrity, abnormal nuclear morphology, and dendritic and axonal demyelination. Furthermore, the inner hair cells and myelin sheath displayed abnormal mitochondrial morphology, while fibroblasts from KI mice showed impaired mitochondrial function. In conclusion, we successfully generated a mouse model recapitulating AUNX1. Our findings indicate that disruption of Aifm1 induced the nuclear translocation of AIF, resulting in the impairment in the auditory pathway.
Keyphrases
- late onset
- hearing loss
- mouse model
- cell cycle arrest
- early onset
- induced apoptosis
- endothelial cells
- oxidative stress
- endoplasmic reticulum stress
- cell death
- neoadjuvant chemotherapy
- working memory
- high glucose
- spinal cord injury
- high fat diet induced
- pi k akt
- induced pluripotent stem cells
- signaling pathway
- pluripotent stem cells
- skeletal muscle
- radiation therapy
- extracellular matrix
- metabolic syndrome
- adipose tissue
- insulin resistance
- drug induced
- optic nerve
- spinal cord
- functional connectivity
- wild type