Liver-specific Mettl14 deletion induces nuclear heterotypia and dysregulates RNA export machinery.
Keith A BerggrenSaloni SinhaAaron E LinMichael P SchwoererStephanie MayaAbhishek BiswasThomas R CafieroYongzhen LiuHans P GertjeSaori SuzukiAndrew R BerneshawiSebastian CarverBrigitte HellerNora HassanQazi AliDaniel BeardDanyang WangJohn M CullenRalph E KleinerNicholas A CrosslandRobert E SchwartzAlexander PlossPublished in: bioRxiv : the preprint server for biology (2024)
Modification of RNA with N 6 -methyladenosine (m 6 A) has gained attention in recent years as a general mechanism of gene regulation. In the liver, m 6 A, along with its associated machinery, has been studied as a potential biomarker of disease and cancer, with impacts on metabolism, cell cycle regulation, and pro-cancer state signaling. However these observational data have yet to be causally examined in vivo. For example, neither perturbation of the key m 6 A writers Mettl3 and Mettl14 , nor the m 6 A readers Ythdf1 and Ythdf2 have been thoroughly mechanistically characterized in vivo as they have been in vitro . To understand the functions of these machineries, we developed mouse models and found that deleting Mettl14 led to progressive liver injury characterized by nuclear heterotypia, with changes in mRNA splicing, processing and export leading to increases in mRNA surveillance and recycling.