PTPN23 binds the dynein adaptor BICD1 and is required for endocytic sorting of neurotrophin receptors
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Marta I Budzinska David Villarroel-Campos Matthew Golding Anne Weston Lucy Collinson Bram Snijders Giampietro SchiavoAbstract
Signalling by target-derived neurotrophins is essential for the correct development of the nervous system and its maintenance throughout life. Several aspects concerning the lifecycle of neurotrophins and their receptors have been characterised over the years, including formation of signalling-competent ligand-receptor complexes, their endocytosis and trafficking. However, the molecular mechanisms directing the sorting of activated neurotrophin receptors are still elusive. Previously, our laboratory identified Bicaudal-D1 (BICD1), a dynein motor adaptor, as a key factor for lysosomal degradation of brain-derived neurotrophic factor (BDNF) -activated TrkB and p75NTR in motor neurons. Here, using a proteomic approach, we identified protein tyrosine phosphatase, non-receptor type 23 (PTPN23), a member of the endosomal sorting complexes required for transport (ESCRT) machinery, in the BICD1 interactome. Molecular mapping revealed that PTPN23 is not a canonical BICD1 cargo; instead, PTPN23 binds the N-terminus of BICD1, which is also essential for the recruitment of cytoplasmic dynein. In line with the BICD1 knockdown phenotype, loss of PTPN23 leads to increased accumulation of BDNF-activated p75NTR and TrkB in swollen vacuole-like compartments, suggesting that neuronal PTPN23 is a novel regulator of the endocytic sorting of neurotrophin receptors.
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Journal Journal of Cell Science
Volume 133
Issue number 6
Pages jcs242412
Available online
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Publisher website (DOI) 10.1242/jcs.242412
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Europe PubMed Central 34005116
Pubmed 34005116
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