A signal located within amino acids 1-27 of GAD65 is required for its targeting to the Golgi complex region.

The mechanisms involved in the targeting of proteins to different cytosolic compartments are still largely unknown. In this study we have investigated the targeting signal of the 65-kD isoform of glutamic acid decarboxylase (GAD65), a major autoantigen in two autoimmune diseases: Stiff-Man syndrome and insulin-dependent diabetes mellitus. GAD65 is expressed in neurons and in pancreatic beta-cells, where it is concentrated in the Golgi complex region and in proximity to GABA-containing vesicles. GAD65, but not the similar isoform GAD67 which has a more diffuse cytosolic distribution, is palmitoylated within its first 100 amino acids (a.a.). We have previously demonstrated that the domain corresponding to a.a. 1-83 of GAD65 is required for the targeting of GAD65 to the Golgi complex region. Here we show that this domain is sufficient to target an unrelated protein, beta-galactosidase, to the same region. Site-directed mutagenesis of all the putative acceptor sites for thiopalmitoylation within this domain did not abolish targeting of GAD65 to the Golgi complex region. The replacement of a.a. 1-29 of GAD67 with the corresponding a.a. 1-27 of GAD65 was sufficient to target the otherwise soluble GAD67 to the Golgi complex region. Conversely, the replacement of a.a. 1-27 of GAD65 with a.a. 1-29 of GAD67 resulted in a GAD65 protein that had a diffuse cytosolic distribution and was primarily hydrophilic, suggesting that targeting to the Golgi complex region is required for palmitoylation of GAD65. We propose that the domain corresponding to a.a. 1-27 of GAD65, contains a signal required for the targeting of GAD65 to the Golgi complex region.