Ratnakumar Sooraj, Kacherovsky Nataly, Arms Erin, Young Elton T
Department of Biochemistry, University of Washington, Seattle, Washington 98195-7350, USA.
Genetics. 2009 Jul;182(3):735-45. doi: 10.1534/genetics.109.103432. Epub 2009 Apr 27.
The transcription factors Adr1 and Cat8 act in concert to regulate the expression of numerous yeast genes after the diauxic shift. Their activities are regulated by Snf1, the yeast homolog of the AMP-activated protein kinase of higher eukaryotes. Cat8 is regulated directly by Snf1, but how Snf1 regulates Adr1 is unknown. Mutations in Adr1 that alleviate glucose repression are clustered between amino acids 227 and 239. This region contains a consensus sequence for protein kinase A, RRAS(230)F, and Ser230 is phosphorylated in vitro by both protein kinase A and Ca(++) calmodulin-dependent protein kinase. Using an antiphosphopeptide antibody, we found that the level of Adr1 phosphorylated on Ser230 was highest in glucose-grown cells and decreased in a Snf1-dependent manner when glucose was depleted. A nonphosphorylatable Ser230Ala mutant was no longer Snf1 dependent for activation of Adr1-dependent genes and could suppress Cat8 dependence at genes coregulated by Adr1 and Cat8. Contrary to expectation, neither protein kinase A (PKA) nor Ca(++) calmodulin-dependent protein kinase appeared to have an important role in Ser230 phosphorylation in vivo, and a screen of 102 viable kinase deletion strains failed to identify a candidate kinase. We conclude that either Ser230 is phosphorylated by multiple protein kinases or its kinase is encoded by an essential gene. Using the Ser230Ala mutant, we explain a long-standing observation of synergy between Adr1 constitutive mutants and Snf1 activation and conclude that dephosphorylation of Ser230 via a Snf1-dependent pathway appears to be a major component of Adr1 regulation.
转录因子Adr1和Cat8协同作用,在双相转变后调节众多酵母基因的表达。它们的活性受Snf1调节,Snf1是高等真核生物AMP激活蛋白激酶的酵母同源物。Cat8直接受Snf1调节,但Snf1如何调节Adr1尚不清楚。Adr1中缓解葡萄糖抑制的突变聚集在氨基酸227和239之间。该区域包含蛋白激酶A的共有序列RRAS(230)F,并且Ser230在体外被蛋白激酶A和Ca(++)钙调蛋白依赖性蛋白激酶磷酸化。使用抗磷酸肽抗体,我们发现Ser230磷酸化的Adr1水平在葡萄糖生长的细胞中最高,当葡萄糖耗尽时以Snf1依赖性方式降低。不可磷酸化的Ser230Ala突变体不再依赖Snf1激活Adr1依赖性基因,并且可以在由Adr1和Cat8共同调节的基因处抑制对Cat8的依赖性。与预期相反,蛋白激酶A(PKA)和Ca(++)钙调蛋白依赖性蛋白激酶在体内Ser230磷酸化中似乎都没有重要作用,并且对102个可行的激酶缺失菌株的筛选未能鉴定出候选激酶。我们得出结论,要么Ser230被多种蛋白激酶磷酸化,要么其激酶由一个必需基因编码。使用Ser230Ala突变体,我们解释了长期以来关于Adr1组成型突变体与Snf1激活之间协同作用的观察结果,并得出结论,通过Snf1依赖性途径使Ser230去磷酸化似乎是Adr1调节的主要组成部分。