Mechanism of Metabolic Control: Target of Rapamycin Signaling Links Nitrogen Quality to the Activity of the Rtg1 and Rtg3 Transcription Factors

doi:10.1083/jcb.151.4.863

Published online 13 November 2000. doi:10.1083/jcb.151.4.863

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© The Rockefeller University Press, 0021-9525/2000/11/863/ $5.00
The Journal of Cell Biology, Volume 151, Number 4, November 13, 2000 863-878

Original Article

Mechanism of Metabolic Control: Target of Rapamycin Signaling Links Nitrogen Quality to the Activity of the Rtg1 and Rtg3 Transcription Factors

Arash Komeili^a,b, Karen P. Wedaman^c, Erin K. O'Shea^a,b, and Ted Powers^c
^a Howard Hughes Medical Institute, University of California School of Medicine, San Francisco, California 94143
^b Department of Biochemistry and Biophysics, University of California School of Medicine, San Francisco, California 94143
^c Section of Molecular and Cellular Biology, Division of Biological Sciences, University of California Davis, Davis, California 95616

Correspondence to: Ted Powers, Section of Molecular and Cellular Biology, Division of Biological Sciences, University of California Davis, Davis, CA 95616. Tel:(530) 754-5052 Fax:(530) 752-3085

De novo biosynthesis of amino acids uses intermediates providedby the TCA cycle that must be replenished by anaplerotic reactionsto maintain the respiratory competency of the cell. Genome-wideexpression analyses in Saccharomyces cerevisiae reveal thatmany of the genes involved in these reactions are repressedin the presence of the preferred nitrogen sources glutamineor glutamate. Expression of these genes in media containingurea or ammonia as a sole nitrogen source requires the heterodimericbZip transcription factors Rtg1 and Rtg3 and correlates witha redistribution of the Rtg1p/Rtg3 complex from a predominantlycytoplasmic to a predominantly nuclear location. Nuclear importof the complex requires the cytoplasmic protein Rtg2, a previouslyidentified upstream regulator of Rtg1 and Rtg3, whereas exportrequires the importin-ß-family member Msn5. Remarkably,nuclear accumulation of Rtg1/Rtg3, as well as expression oftheir target genes, is induced by addition of rapamycin, a specificinhibitor of the target of rapamycin (TOR) kinases. We demonstratefurther that Rtg3 is a phosphoprotein and that its phosphorylationstate changes after rapamycin treatment. Taken together, theseresults demonstrate that target of rapamycin signaling regulatesspecific anaplerotic reactions by coupling nitrogen qualityto the activity and subcellular localization of distinct transcriptionfactors.

Key Words: gene expression, metabolism, phosphorylation, rapamycin, signaltransduction

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