Recessive variants in TWNK cause syndromic and non-syndromic post-synaptic auditory neuropathy through MtDNA replication defects.

Recessive variants in TWNK cause syndromes arising from mitochondrial DNA (mtDNA) depletion. Hearing loss is the most prevalent manifestation in individuals with these disorders. However, the clinical and pathophysiological features have not been fully elucidated. In this study, we collected five cases of hearing loss carrying bi-allelic TWNK variants from three unrelated Chinese families and identified two cases with isolated auditory neuropathy (AN) and three cases segregating with Perrault syndrome, characterized by AN, global developmental delay, and ovarian dysgenesis in females. All patients with cochlear implantation (CI) show poor speech discrimination outcomes, suggesting that the defect involves post-synaptic sites. In the mouse inner ear, Twinkle was immunolocalized to inner phalangeal cells and spiral ganglion neurons. Additionally, the broad expression pattern of Twinkle was observed in the auditory cortex, which to some extent explains the poor rehabilitation outcomes following CI. At the cellular level, Twinkle is localized at the mtDNA membrane, and the p.(Arg609AlaTer6) variant prevents the protein from reaching the mtDNA while the p.(Arg65Trp) variant exhibits a similar localization to the wild type, indicating a second mechanism of action. RT-PCR results indicated that the canonical transcript was abundant in the inner ear, while the shorter transcript was more abundant in the brain. Our findings revealed that bi-allelic TWNK variants lead to AN, which can be either syndromic or non-syndromic, with the molecular pathogenesis involving defects in mtDNA replication at post-synaptic sites. Patients with TWNK-associated conditions are not ideal candidates for CI and gene therapy may offer a solution for hearingrehabilitation.