Journal
BIOCHEMICAL JOURNAL
Volume 441, Issue -, Pages 255-264Publisher
PORTLAND PRESS LTD
DOI: 10.1042/BJ20111264
Keywords
pH homoeostasis; signal transduction; Gcn2; Saccharomyces cerevisiae; amino acid transport
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Funding
- Spanish Ministerio de Ciencia e Innovacion (Madrid) [BFU2008-00604]
- Generalitat Valenciana (Valencia) [Prometeo/2010/038]
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Intracellular pH conditions many cellular systems, but its mechanisms of regulation and perception are mostly unknown. We have identified two yeast genes important for tolerance to intracellular acidification caused by weak permeable acids. One corresponded to LEU2 and functions by removing the dependency of the leu2 mutant host strain on uptake of extracellular leucine. Leucine transport is inhibited by intracellular acidification, and either leucine oversupplementation or overexpression of the transporter gene BAP2 improved acid growth. Another acid-tolerance gene is GCN2, encoding a protein kinase activated by uncharged tRNAs during amino acid starvation. Gcn2 phosphorylates eIF2 alpha (eukaryotic initiation factor 2 alpha) (Sui2) at Ser(51) and this inhibits general translation, but activates that of Gcn4, a transcription factor for amino acid biosynthetic genes. Intracellular acidification activates Gcn2 probably by inhibition of aminoacyl-tRNA synthetases because we observed accumulation of uncharged tRNA(leu) without leucine depletion. Gcn2 is required for leucine transport and a gcn2-null mutant is sensitive to acid stress if auxotrophic for leucine. Gcn4 is required for neither leucine transport nor acid tolerance, but a S51A sui2 mutant is acid-sensitive. This suggests that Gcn2, by phosphorylating eIF2 alpha, may activate translation of an unknown regulator of amino acid transporters different from Gcn4.
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