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Research Article

The Tor and PKA signaling pathways independently target the Atg1/Atg13 protein kinase complex to control autophagy

Joseph S. Stephan, Yuh-Ying Yeh, Vidhya Ramachandran, Stephen J. Deminoff, and Paul K. Herman
PNAS October 6, 2009 106 (40) 17049-17054; https://doi.org/10.1073/pnas.0903316106
Joseph S. Stephan
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Yuh-Ying Yeh
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Vidhya Ramachandran
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Stephen J. Deminoff
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Paul K. Herman
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  • For correspondence: herman.81@osu.edu
  1. Edited by Scott D. Emr, Cornell University, Ithaca, NY, and approved August 6, 2009 (received for review March 25, 2009)

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Abstract

Macroautophagy (or autophagy) is a conserved degradative pathway that has been implicated in a number of biological processes, including organismal aging, innate immunity, and the progression of human cancers. This pathway was initially identified as a cellular response to nutrient deprivation and is essential for cell survival during these periods of starvation. Autophagy is highly regulated and is under the control of a number of signaling pathways, including the Tor pathway, that coordinate cell growth with nutrient availability. These pathways appear to target a complex of proteins that contains the Atg1 protein kinase. The data here show that autophagy in Saccharomyces cerevisiae is also controlled by the cAMP-dependent protein kinase (PKA) pathway. Elevated levels of PKA activity inhibited autophagy and inactivation of the PKA pathway was sufficient to induce a robust autophagy response. We show that in addition to Atg1, PKA directly phosphorylates Atg13, a conserved regulator of Atg1 kinase activity. This phosphorylation regulates Atg13 localization to the preautophagosomal structure, the nucleation site from which autophagy pathway transport intermediates are formed. Atg13 is also phosphorylated in a Tor-dependent manner, but these modifications appear to occur at positions distinct from the PKA phosphorylation sites identified here. In all, our data indicate that the PKA and Tor pathways function independently to control autophagy in S. cerevisiae, and that the Atg1/Atg13 kinase complex is a key site of signal integration within this degradative pathway.

  • cAMP-dependent protein kinase
  • macroautophagy
  • stationary phase
  • Tor protein kinase

Footnotes

  • 1To whom correspondence should be addressed. E-mail: herman.81{at}osu.edu
  • Author contributions: J.S.S., Y.-Y.Y., V.R., S.J.D., and P.K.H. designed research; J.S.S., Y.-Y.Y., V.R., and S.J.D. performed research; J.S.S., Y.-Y.Y., V.R., and S.J.D. contributed new reagents/analytic tools; J.S.S., Y.-Y.Y., V.R., S.J.D., and P.K.H. analyzed data; and J.S.S. and P.K.H. wrote the paper.

  • The authors declare no conflict of interest.

  • This article is a PNAS Direct Submission.

  • This article contains supporting information online at www.pnas.org/cgi/content/full/0903316106/DCSupplemental.

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The Tor and PKA signaling pathways independently target the Atg1/Atg13 protein kinase complex to control autophagy
Joseph S. Stephan, Yuh-Ying Yeh, Vidhya Ramachandran, Stephen J. Deminoff, Paul K. Herman
Proceedings of the National Academy of Sciences Oct 2009, 106 (40) 17049-17054; DOI: 10.1073/pnas.0903316106

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The Tor and PKA signaling pathways independently target the Atg1/Atg13 protein kinase complex to control autophagy
Joseph S. Stephan, Yuh-Ying Yeh, Vidhya Ramachandran, Stephen J. Deminoff, Paul K. Herman
Proceedings of the National Academy of Sciences Oct 2009, 106 (40) 17049-17054; DOI: 10.1073/pnas.0903316106
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