Cell Reports (Jan 2025)
Interrogation of RNA-bound proteome with XRNAX illuminates molecular alterations in the mouse brain affected with dysmyelination
Abstract
Summary: RNA-protein interactions orchestrate hundreds of pathways in homeostatic and stressed cells. We applied an RNA-protein interactome capture method called protein cross-linked RNA extraction (XRNAX) to shed light on the RNA-bound proteome in dysmyelination. We found sets of canonical RNA-binding proteins (RBPs) regulating alternative splicing and engaged in the cytoplasmic granules to be perturbed at the level of their RNA interactome. We validated these observations for PCBP1 and MBNL1. We show that the number of PCBP1 bodies is markedly increased in the mossy cells of the hippocampus and that the pattern of MBNL1-regulated alternatively spliced exons differs between the myelin-deficient and the wild-type brain, which is likely associated with Mbnl1 splicing perturbation and circular RNA generation from this locus. In the broader perspective, our results demonstrate that, with the application of the RNA-protein interactome approach, we can uncover alterations in RBP functioning in the disease context that are not always directly visible from their mRNA or protein levels.
