Abstract
The significance of crosstalks among constituents of plasma membrane protein clusters/complexes in cellular proteostasis and protein quality control (PQC) remains incompletely understood. Examining the glial (enriched) cell adhesion molecule (CAM), we demonstrate its chaperone-like role in the biosynthetic processing of the megalencephalic leukoencephalopathy with subcortical cyst 1 (MLC1)-heteromeric regulatory membrane protein complex, as well as the function of the GlialCAM/MLC1 signalling complex. We show that in the absence of GlialCAM, newly synthesized MLC1 molecules remain unfolded and are susceptible to polyubiquitination-dependent proteasomal degradation at the endoplasmic reticulum. At the plasma membrane, GlialCAM regulates the diffusional partitioning and endocytic dynamics of cluster members, including the ClC-2 chloride channel and MLC1. Impaired folding and/or expression of GlialCAM or MLC1 in the presence of diseases causing mutations, as well as plasma membrane tethering compromise the functional expression of the cluster, leading to compromised endo-lysosomal organellar identity. In addition, the enlarged endo-lysosomal compartments display accelerated acidification, ubiquitinated cargo-sorting and impaired endosomal recycling. Jointly, these observations indicate an essential and previously unrecognized role for CAM, where GliaCAM functions as a PQC factor for the MLC1 signalling complex biogenesis and possess a permissive role in the membrane dynamic and cargo sorting functions with implications in modulations of receptor signalling.
Highlights
The significance of crosstalks among constituents of plasma membrane protein clusters/complexes in cellular proteostasis and protein quality control (PQC) remains incompletely understood
We show that GlialCAM expression suppresses the ubiquitin–proteasome system (UPS) mediated endoplasmic reticulum (ER)-associated degradation (ERAD) of megalencephalic leukoencephalopathy with subcortical cyst 1 (MLC1), suggesting that it is required for the biosynthetic conformational stabilization of GlialCAM/MLC1 oligomer
As the loss-of-expression phenotype of the mutant MLC1 signalling complex could be similar to a handful of mutant plasma membrane (PM) proteins attributed to ubiquitination- and ESCRT-dependent lysosomal targeting by the peripheral PQC activity in addition to ER P QC3,6,28–30, we assessed first the impact of diseases associated mutations on the PM stabilities of MLC1 variants[31]
Summary
The significance of crosstalks among constituents of plasma membrane protein clusters/complexes in cellular proteostasis and protein quality control (PQC) remains incompletely understood. Regulatory integral membrane protein MLC1 (megalencephalic leukoencephalopathy with subcortical cysts 1), ClC-2 chloride and TRPV4 (cation) channels, receptors (EGF) and transporters (Na+/K+-ATPase)[10,11,12,13,14] This heteromeric cluster has been implicated in the regulation of astrocyte motility, cellular signalling and ion homeostasis[12,15,16,17,18]. We find that lack of GlialCAM or MLC1 provokes fusion stress toward the endo-lysosomal compartment, contributing to the complex molecular brain pathogenesis associated with the cluster These studies highlight the unexpected importance of cell adhesion molecules in PQC for improving the proteostasis health of cells
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