Abdel-Sater F, et al. (2004) Amino acid signaling in yeast: casein kinase I and the Ssy5 endoprotease are key determinants of endoproteolytic activation of the membrane-bound Stp1 transcription factor. Mol Cell Biol 24(22):9771-85
Abstract: Saccharomyces cerevisiae cells possess a plasma membrane sensor able to detect the presence of extracellular amino acids and then to activate a signaling pathway leading to transcriptional induction of multiple genes, e.g., AGP1, encoding an amino acid permease. This sensing function requires the permease-like Ssy1 and associated Ptr3 and Ssy5 proteins, all essential to activation, by endoproteolytic processing, of the membrane-bound Stp1 transcription factor. The SCF(Grr1) ubiquitin-ligase complex is also essential to AGP1 induction, but its exact role in the amino acid signaling pathway remains unclear. Here we show that Stp1 undergoes casein kinase I-dependent phosphorylation. In the yck mutant lacking this kinase, Stp1 is not cleaved and AGP1 is not induced in response to amino acids. Furthermore, we provide evidence that Ssy5 is the endoprotease responsible for Stp1 processing. Ssy5 is significantly similar to serine proteases, its self-processing is a prerequisite for Stp1 cleavage, and its overexpression causes inducer-independent Stp1 cleavage and high-level AGP1 transcription. We further show that Stp1 processing also requires the SCF(Grr1) complex but is insensitive to proteasome inhibition. However, Stp1 processing does not require SCF(Grr1), Ssy1, or Ptr3 when Ssy5 is overproduced. Finally, we describe the properties of a particular ptr3 mutant that suggest that Ptr3 acts with Ssy1 in amino acid detection and signal initiation. We propose that Ssy1 and Ptr3 form the core components of the amino acid sensor. Upon detection of external amino acids, Ssy1-Ptr3 likely allows-in a manner dependent on SCF(Grr1)-the Ssy5 endoprotease to gain access to and to cleave Stp1, this requiring prior phosphorylation of Stp1 by casein kinase I.
|Status: Published||Type: Journal Article | Research Support, Non-U.S. Gov't||PubMed ID: 15509782|
Topics addressed in this paper
Number of different genes curated to this paper: 10
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