TXNDC15 modulated quality control at the endoplasmic reticulum shapes ciliogenesis
Nguyen, V. N.; Boegeholz, L. A. K.; Page, K. R.; Zhang, J.; Ernst, M.; Wang, T.-Y.; Chen, N.; Mayank, A.; Wang, M. L.; Wohlschlegel, J.; Chou, T.-F.; Guna, A.; Voorhees, R. M.
Show abstract
At the endoplasmic reticulum (ER), membrane protein quality control is tightly regulated to ensure excess subunits are recognized and degraded to protect cellular homeostasis. Using genome wide CRISPR screens, we identified a factor of unknown function, thioredoxin domain containing protein 15 (TXNDC15), and showed that it regulates membrane protein stability by tuning the activity of the E3-ubiquitin ligase, MARCHF6. TXNDC15 modulates MARCHF6 in two opposing ways: first, it enhances the binding, ubiquitination, and degradation of membrane protein subunits with soluble cytosolic domains; and second, it prevents the inappropriate recruitment and ubiquitination of subunits with globular lumenal domains. Patient mutations to TXNDC15 that cause the ciliopathy Meckel-Gruber syndrome, disrupted its binding to MARCHF6, allowing degradation of critical ciliary proteins as they transit through the ER leading to defects in ciliogenesis. The regulatory function of TXNDC15 therefore exemplifies how protein quality control maintains the integrity of the proteome to prevent disease.
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