Phosphorylation of the Yeast Nitrate Transporter Ynt1 Is Essential for Delivery to the Plasma Membrane during Nitrogen Limitation

Ynt1 is the sole high affinity nitrate transporter of the yeast Hansenula polymorpha. It is highly regulated by the nitrogen source, by being down-regulated in response to glutamine by repression of the YNT1 gene and Ynt1 ubiquitinylation, endocytosis, and vacuolar degradation. On the contrary, we s...

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Bibliographic Details
Published in:The Journal of biological chemistry 2008-11, Vol.283 (45), p.31208-31217
Main Authors: Navarro, Francisco J., Martín, Yusé, Siverio, José M.
Format: Article
Language:English
Subjects:
Anion Transport Proteins - genetics
Anion Transport Proteins - metabolism
Cell Membrane - genetics
Cell Membrane - metabolism
Down-Regulation - drug effects
Down-Regulation - physiology
Fungal Proteins - genetics
Fungal Proteins - metabolism
Gene Expression Regulation, Fungal - drug effects
Gene Expression Regulation, Fungal - physiology
Glutamine - metabolism
Glutamine - pharmacology
Nitrogen - metabolism
Phosphorylation - drug effects
Phosphorylation - physiology
Pichia - genetics
Pichia - metabolism
Protein Structure, Secondary - physiology
Protein Synthesis, Post-Translational Modification, and Degradation
Protein Transport - physiology
Ubiquitination - drug effects
Ubiquitination - physiology
Vacuoles - genetics
Vacuoles - metabolism
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Summary:Ynt1 is the sole high affinity nitrate transporter of the yeast Hansenula polymorpha. It is highly regulated by the nitrogen source, by being down-regulated in response to glutamine by repression of the YNT1 gene and Ynt1 ubiquitinylation, endocytosis, and vacuolar degradation. On the contrary, we show that nitrogen limitation stabilizes Ynt1 levels at the plasma membrane, requiring phosphorylation of the transporter. We determined that Ser-246 in the central intracellular loop plays a key role in the phosphorylation of Ynt1 and that the nitrogen permease reactivator 1 kinase (Npr1) is necessary for Ynt1 phosphorylation. Abolition of phosphorylation led Ynt1 to the vacuole by a pep12-dependent end4-independent pathway, which is also dependent on ubiquitinylation, whereas Ynt1 protein lacking ubiquitinylation sites does not follow this pathway. We found that, under nitrogen limitation, Ynt1 phosphorylation is essential for rapid induction of nitrate assimilation genes. Our results suggest that, under nitrogen limitation, phosphorylation prevents Ynt1 delivery from the secretion route to the vacuole, which, aided by reduced ubiquitinylation, accumulates Ynt1 at the plasma membrane. This mechanism could be part of the response that allows nitrate-assimilatory organisms to cope with nitrogen depletion.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M802170200