PO-228 Regulation of GDE2 membrane localization and trafficking

Introduction Glycerophosphodiester phosphodiesterase 2 (GDE2) is a multi-pass membrane protein that promotes neuronal differentiation through the cleavage of glycosylphosphatidylinositol (GPI)-anchored proteins at the cell surface. High GDE2 expression is associated with favourable outcome in neuroblastoma, while loss of GDE2 in mice leads to neuronal pathologies similar to human neurodegenerative diseases. Thus, enhancing GDE2 activity could be an attractive therapeutic strategy for neuroblastoma and related pathologies. However, the regulation of GDE2 is poorly understood. Material and methods We employed TIRF microscopy to study GDE2 subcellular localization in neuronal cell lines. Membrane internalisation of GDE2 was detected by confocal microscopy, and confirmed biochemically by biotin labelling assays. To determine the nature of the GDE2-containg intracellular compartments, we examined co-localization of GDE2 with endosome markers by both confocal microscopy and immunoprecipitation assays. Results and discussions When expressed at relatively low levels in N1E-115, Neuro2A and SH-SY5Y neuronal cell lines, GDE2 localises to discrete membrane microdomains, as well as in high-turnover intracellular vesicles. We corroborated this intracellular trafficking by biotin labelling assays, which showed that GDE2 undergoes constitutive endocytosis and recycling back to the plasma membrane in a serum-independent manner. In addition, GDE2 was found to co-localise with well-established early-endosome markers, namely EEA1 and Rab5, indicating that GDE2 internalises from the plasma membrane. GDE2 also localised partially to Rab7-positive late endosomes, but was hardly detected in lysosomes (LAMP1, LysoTracker). Furthermore, GDE2 localised to Rab11-positive recycling endosomes, pinpointing the long recycling pathway. When co-expressed with labelled ubiquitin, GDE2 was heavily poly-ubiquitinated, which takes place non-specifically in the four cytosolic lysine residues of GDE2. Lastly, sequential truncations in the N- and C-terminal cytosolic tails of GDE2 highlighted a 10-amino acid stretch that potentially regulates intracellular trafficking. Conclusion Here we report that, in neuronal cells, GDE2 is constitutively internalised and undergoes endocytic recycling along both the short and, in particular, the long recycling pathways. This process appears to be regulated by a stretch of 10 residues in the cytosolic C-terminal tail, which could be related to non-specific ubiquitin ligation.