ZCCHC17 modulates neuronal RNA splicing and supports cognitive resilience in Alzheimer's disease.
Anne Marie W BartoschElliot H H YouthShania HansenMaria E KaufmanHarrison XiaoSo Yeon KooArchana AshokSharanya SivakumarRajesh K SoniLogan C DumitrescuTiffany G LamAli S RopriAnnie J LeeHans-Ulrich KleinBadri N VardarajanRajesh Kumar SoniTracy L Young-PearsePhilip L De JagerTimothy J HohmanAndrew A SproulAndrew F TeichPublished in: bioRxiv : the preprint server for biology (2023)
Abnormal RNA processing is an important component of AD pathophysiology. We show here that ZCCHC17, a previously identified putative master regulator of synaptic dysfunction in AD, plays a role in neuronal RNA processing, and illustrate that ZCCHC17 dysfunction is sufficient to explain some of the splicing abnormalities seen in AD brain tissue, including synaptic gene splicing abnormalities. Using data from human patients, we demonstrate that ZCCHC17 mRNA levels correlate with cognitive resilience in the setting of AD pathology. These results suggest that maintenance of ZCCHC17 function may be a therapeutic strategy for supporting cognitive function in AD patients, and motivate future work examining a possible role of abnormal RNA processing in AD-related cognitive decline.