S-acylation is a reversible posttranslational lipid modification important in the nervous system that dynamically regulates protein localization and function. Aberrant S-acylation has been implicated in several neurological conditions. While several de-S-acylases (deacylases hereafter) have been identified, little is known regarding their expression and localization in the brain and in neurons. Here, we characterized the expression, localization, and S-acylation of cytosolic deacylases, including acyl-protein thioesterases APT, APT2, and APT1L and /{beta} hydrolase domain-containing proteins ABHD7, ABHD10, ABHD13, ABHD16A, and ABHD17A-C. Mouse brain RNA sequencing data revealed high expression of Lypla1/APT1, Lypla2/APT2, Ephx4/ABHD7, Abhd16a, and Abhd17A-C in the brain, whereas Lyplal1/APT1L, Abhd10, and Abhd13 were expressed at very low levels. Protein analysis demonstrated region-specific expression, with expression of APT1 and ABHD16A highest in the cerebellum and APT2 highest in the hippocampus, with all three highly expressed in cultured hippocampal neurons. Deacylases were observed distributed throughout neurons on punctate structures, with APT2 and ABHD17C to the Golgi by immunocytochemistry. Finally, all ten cytosolic deacylases are themselves S-acylated. These data characterizing deacylase expression, localization, and S-acylation in neural contexts, provides a foundation for future studies investigating deacylase neuronal functions and potential roles in neurological disease.
Santander Herrera, G., Herath, N. N., Doerksen, A. H., Clarke, S. I. M., Alshehabi, Y., Rabu, M., Fux, J. E., Townsend Bennie, C. A., Martin, D. D. O., Sanders, S. S.
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