Abstract

Notch is a transmembrane receptor that shares homology with proteins containing epidermal growth factor-like repeats and mediates the cell-cell interactions necessary for many cell fate decisions. In Drosophila, O-fucosyltransferase 1 catalyzes the O-fucosylation of these epidermal growth factor-like repeats. This O-fucose elongates, resulting in an O-linked tetrasaccharide that regulates the signaling activities of Notch. Fucosyltransferases utilize GDP-fucose, which is synthesized in the cytosol, but fucosylation occurs in the lumen of the endoplasmic reticulum (ER) and Golgi. Therefore, GDP-fucose uptake into the ER and Golgi is essential for fucosylation. However, although GDP-fucose biosynthesis is well understood, the mechanisms and intracellular routes of GDP-fucose transportation remain unclear. Our previous study on the Drosophila Golgi GDP-fucose transporter (Gfr), which specifically localizes to the Golgi, suggested that another GDP-fucose transporter(s) exists in Drosophila. Here, we identified Efr (ER GDP-fucose transporter), a GDP-fucose transporter that localizes specifically to the ER. Efr is a multifunctional nucleotide sugar transporter involved in the biosynthesis of heparan sulfate-glycosaminoglycan chains and the O-fucosylation of Notch. Comparison of the fucosylation defects in the N-glycans in Gfr and Efr mutants revealed that Gfr and Efr made distinct contributions to this modification; Gfr but not Efr was crucial for the fucosylation of N-glycans. We also found that Gfr and Efr function redundantly in the O-fucosylation of Notch, although they had different localizations and nucleotide sugar transportation specificities. These results indicate that two pathways for the nucleotide sugar supply, involving two nucleotide sugar transporters with distinct characteristics and distributions, contribute to the O-fucosylation of Notch.

Highlights

  • Protein fucosylation requires GDP-fucose as a donor of fucose

  • Our previous study demonstrated that the O-fucosylation of Notch in Drosophila has a partial requirement for the Drosophila ortholog of SLC35C1, designated as Gfr (Golgi GDP-fucose transporter) [17]

  • This suppression could be explained by possible dimerization between CG3774 and endogenous nucleotide sugar transporters [25, 26], which could lead to inhibition of the activity of the latter, as reported before in similar

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Summary

Introduction

Protein fucosylation requires GDP-fucose as a donor of fucose. Pathways for the synthesis of GDP-fucose are well understood [10, 11]. Our previous study demonstrated that the O-fucosylation of Notch in Drosophila has a partial requirement for the Drosophila ortholog of SLC35C1, designated as Gfr (Golgi GDP-fucose transporter) [17]. The localization of Efr did not overlap with that of a previously identified GDP-fucose transporter, Gfr, which localizes to the Golgi (Fig. 1, O–Q).

Results
Conclusion

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