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Investigating the function of Gdt1p in yeast Golgi glycosylation. | LitMetric

Investigating the function of Gdt1p in yeast Golgi glycosylation.

Biochim Biophys Acta Gen Subj

Univ. Lille, CNRS, UMR 8576 - UGSF - Unité de Glycobiologie Structurale et Fonctionnelle, F-59000 Lille, France; LIA GLYCOLAB4CDG France/Belgium (International Associated Laboratory "Laboratory for the Research on Congenital Disorders of Glycosylation - from cellular mechanisms to cure", France. Electronic address:

Published: March 2018

AI Article Synopsis

  • The Golgi apparatus relies on precise ion balance, notably of calcium (Ca) and manganese (Mn), to function properly, particularly in glycosylation processes, though the regulation mechanisms are not fully understood.
  • Gdt1p, a protein within a lesser-known family, appears to help maintain this balance by importing Mn into the Golgi, which is complemented by calcium transport performed by another protein, Pmr1p.
  • Research shows that defects in glycosylation in specific yeast mutants can be corrected by adding Mn or Ca, indicating a key role for both ions and revealing that the structure of Gdt1p, especially its aspartic acid residues, is essential for its function in this process.

Article Abstract

The Golgi ion homeostasis is tightly regulated to ensure essential cellular processes such as glycosylation, yet our understanding of this regulation remains incomplete. Gdt1p is a member of the conserved Uncharacterized Protein Family (UPF0016). Our previous work suggested that Gdt1p may function in the Golgi by regulating Golgi Ca/Mn homeostasis. NMR structural analysis of the polymannan chains isolated from yeasts showed that the gdt1Δ mutant cultured in presence of high Ca concentration, as well as the pmr1Δ and gdt1Δ/pmr1Δ strains presented strong late Golgi glycosylation defects with a lack of α-1,2 mannoses substitution and α-1,3 mannoses termination. The addition of Mn confirmed the rescue of these defects. Interestingly, our structural data confirmed that the glycosylation defect in pmr1Δ could also completely be suppressed by the addition of Ca. The use of Pmr1p mutants either defective for Ca or Mn transport or both revealed that the suppression of the observed glycosylation defect in pmr1Δ strains by the intraluminal Golgi Ca requires the activity of Gdt1p. These data support the hypothesis that Gdt1p, in order to sustain the Golgi glycosylation process, imports Mn inside the Golgi lumen when Pmr1p exclusively transports Ca. Our results also reinforce the functional link between Gdt1p and Pmr1p as we highlighted that Gdt1p was a Mn sensitive protein whose abundance was directly dependent on the nature of the ion transported by Pmr1p. Finally, this study demonstrated that the aspartic residues of the two conserved motifs E-x-G-D-[KR], likely constituting the cation binding sites of Gdt1p, play a crucial role in Golgi glycosylation and hence in Mn/Catransport.

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Source
http://dx.doi.org/10.1016/j.bbagen.2017.11.006DOI Listing

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