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Spatial proteomics reveals secretory pathway disturbances caused by neuropathy-associated TECPR2

Karsten Nalbach, Martina Schifferer, Debjani Bhattacharya, Hung Ho-Xuan, Wei Chou Tseng, Luis A. Williams, Alexandra Stolz, Stefan F. Lichtenthaler, Zvulun Elazar, Christian Behrends

2023Nature Communications16 citationsDOIOpen Access PDF

Abstract

Hereditary sensory and autonomic neuropathy 9 (HSAN9) is a rare fatal neurological disease caused by mis- and nonsense mutations in the gene encoding for Tectonin β-propeller repeat containing protein 2 (TECPR2). While TECPR2 is required for lysosomal consumption of autophagosomes and ER-to-Golgi transport, it remains elusive how exactly TECPR2 is involved in autophagy and secretion and what downstream sequels arise from defective TECPR2 due to its involvement in these processes. To address these questions, we determine molecular consequences of TECPR2 deficiency along the secretory pathway. By employing spatial proteomics, we describe pronounced changes with numerous proteins important for neuronal function being affected in their intracellular transport. Moreover, we provide evidence that TECPR2's interaction with the early secretory pathway is not restricted to COPII carriers. Collectively, our systematic profiling of a HSAN9 cell model points to specific trafficking and sorting defects which might precede autophagy dysfunction upon TECPR2 deficiency.

Topics & Concepts

AutophagyCOPIICell biologyBiologySecretionProteomicsSecretory pathwayCiliumTransport proteinSecretory proteinGolgi apparatusNeuroscienceGeneBioinformaticsGeneticsEndoplasmic reticulumEndocrinologyApoptosisCellular transport and secretionAutophagy in Disease and TherapyEndoplasmic Reticulum Stress and Disease
Spatial proteomics reveals secretory pathway disturbances caused by neuropathy-associated TECPR2 | Litcius