FMRP-dependent translational control negatively regulates adapter protein complex 2-mediated endocytosis.

Fragile X syndrome (FXS), the most common inherited intellectual disability and monogenic cause of autism, results from loss of the protein fragile X messenger ribonucleoprotein (FMRP), which regulates mRNA translation essential for brain development and synaptic plasticity. FMRP has been implicated in the synaptic localization and surface expression of various membrane proteins, yet underlying mechanisms remain unclear. Here, we identified a broad dysregulation of membrane surface and associated proteins in FMRP-deficient neurons by quantitative mass spectrometry. Among them, we found increased steady-state levels of several subunits of the clathrin-adapter protein complex 2 (AP-2), including AP2A1 and AP2B1. We demonstrate that FMRP associates and represses translation of cognate mRNAs. Increased AP-2 in FXS models resulted in enhanced endocytosis of AP-2 cargoes, including dendritic AMPA receptors. These phenotypes were rescued by shRNA downregulation of AP2B1 to wild-type levels in FMRP-deficient neurons. These results reveal a novel translational mechanism controlling adapter dependent protein sorting in neuronal cells.