Abstract
Ras proteins and cAMP-dependent protein kinase (protein kinase A, PKA) are important components of a nutrient signaling pathway that mediates cellular responses to glucose in yeast. The molecular mechanisms that regulate Ras/PKA-mediated signaling remain to be fully understood. Here, we provide evidence that Ras/PKA signaling is negatively regulated by a deubiquitinating enzyme, Ubp3. Disrupting the activity of Ubp3 leads to hyperactivation of PKA, as evidenced by much enhanced phosphorylation of PKA substrates, decreased accumulation of glycogen, larger cell size, and increased sensitivity to heat shock. Levels of intracellular cAMP and the active forms of Ras proteins are also elevated in the ubp3Δ mutant. Consistent with a possibility that the increased cAMP is responsible for the abnormal signaling behavior of the ubp3Δ mutant, overexpressing PDE2, which encodes a phosphodiesterase that hydrolyzes cAMP, significantly relieves the cell size increase and heat shock sensitivity of the mutant. Further analysis reveals that Ubp3 interacts with a Ras GTPase-accelerating protein, Ira2, and regulates its level of ubiquitination. Together, our data indicate that Ubp3 is a new regulator of the Ras/PKA signaling pathway and suggest that Ubp3 regulates this pathway by controlling the ubiquitination of Ras GTPase-accelerating protein Ira2.
Highlights
We focus on Ubp3, a yeast deubiquitinating enzyme that has been implicated in the regulation of nutrient signaling [33]
The Deubiquitinating Enzyme Ubp3 Negatively Regulates Ras/protein kinase (PKA) Signaling—It has been reported that disrupting UBP3 leads to an increased sensitivity to rapamycin [33], a drug that inhibits TORC1
We provide evidence that Ubp3 is a negative regulator for this important signaling pathway in yeast
Summary
Disrupting Ubp activity leads to accumulation of ubiquitinated RasGAP and hyperactivation of Ras signaling. Significance: This study reveals a new layer of mechanism that regulates Ras. Ras proteins and cAMP-dependent protein kinase (protein kinase A, PKA) are important components of a nutrient signaling pathway that mediates cellular responses to glucose in yeast. Further analysis reveals that Ubp interacts with a Ras GTPase-accelerating protein, Ira, and regulates its level of ubiquitination. RasGAP in both yeast (Ira2) and human (neurofibromin) are regulated by ubiquitination [17, 18], a posttranslational modification that typically leads to protein degradation in the proteasome [19]. Addition of glucose triggers ubiquitination and inactivation of Ira, which, leads to an accumulation of cellular Ras-GTP and enhanced activation of the Ras/PKA pathway [18]. Our study reveals a new role for Ubp in regulating Ras/PKA signaling
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