Namy Olivier, Galopier Aurélie, Martini Cyrielle, Matsufuji Senya, Fabret Céline, Rousset Jean-Pierre
IGM, CNRS, UMR 8621, Orsay, 91405 France.
Nat Cell Biol. 2008 Sep;10(9):1069-75. doi: 10.1038/ncb1766.
Prion proteins are found in mammals and yeast, and can transmit diseases and encode heritable phenotypic traits. In Saccharomyces cerevisiae, eRF3, Rnq1, Ure2 and Swil are functional proteins with a soluble conformation that can switch to a non-functional, amyloid conformation denoted as [PSI+], [PIN+], [URE3] and [SWI+], respectively. The prion [PSI+] corresponds to an aggregated conformation of the translational release factor eRF3, which suppresses nonsense codons. [PSI+] modifies cellular fitness and induces several phenotypes according to the genetic background. An elegant series of studies has demonstrated that several [PSI+]-induced phenotypes occur as a consequence of decreased translational termination efficiency. However, the genes whose expression levels are controlled by [PSI+] remain largely unknown. Here, we show that [PSI+] enhances expression of antizyme, a negative regulator of cellular polyamines, by modulating the +1 frameshifting required for its expression. Our study also demonstrates that [PSI+] greatly affects cellular polyamines in yeast. We show that modification of the cellular content of polyamines by the prion accounts for half of the [PSI+]-induced phenotypes. Antizyme is the first protein to be described for which expression of its functional form is stimulated by [PSI+].
朊病毒蛋白存在于哺乳动物和酵母中,可传播疾病并编码可遗传的表型特征。在酿酒酵母中,eRF3、Rnq1、Ure2和Swil是具有可溶构象的功能蛋白,它们可分别转变为无功能的淀粉样构象,即[PSI+]、[PIN+]、[URE3]和[SWI+]。朊病毒[PSI+]对应于翻译释放因子eRF3的聚集构象,它可抑制无义密码子。[PSI+]根据遗传背景改变细胞适应性并诱导多种表型。一系列精妙的研究表明,几种[PSI+]诱导的表型是翻译终止效率降低的结果。然而,其表达水平受[PSI+]控制的基因仍 largely unknown。在此,我们表明[PSI+]通过调节抗酶表达所需的+1移码来增强抗酶(细胞多胺的负调节因子)的表达。我们的研究还表明,[PSI+]对酵母中的细胞多胺有很大影响。我们表明,朊病毒对细胞多胺含量的改变占[PSI+]诱导表型的一半。抗酶是第一个被描述其功能形式的表达受[PSI+]刺激的蛋白质。
