Inactivation of Ymr1, Sjl2/3 phosphatases promotes stress resistance and longevity in wild type and Ras2G19V yeast

IF 4.1 3区 医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
M.G. Mirisola , V.D. Longo
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引用次数: 0

Abstract

In Saccharomyces cerevisiae, Ras (RAt Sarcoma) activity plays a central role in mediating the effect of glucose in decreasing stress resistance and longevity, with constitutive Ras activation mutations promoting cell growth and oncogenesis. Here, we used transposon mutagenesis in yeast to identify suppressors of the constitutively active Ras2G19V, orthologue of the KRASG12C mammalian oncogene. We identified mutations in YMR1 (Yeast Myotubularin Related), SJL2 (SynaptoJanin-Like) and SJL3 phosphatases, which target phosphatidylinositol phosphates, as the most potent suppressors of constitutive active Ras, able to reverse its effect on stress sensitization and sufficient to extend longevity. In sjl2 mutants, the staining of Ras-GTP switched from membrane-associated to a diffuse cytoplasmic staining, suggesting that it may block Ras activity by preventing its localization. Whereas expression of the Sjl2 PI 3,4,5 phosphatase mediated stress sensitization in both the Ras2G19V and wild type backgrounds, overexpression of the phosphatidylinositol 3 kinase VPS34 (Vacuolar Protein Sorting), promoted heat shock sensitization only in the Ras2G19V background, suggesting a complex relationship between different phosphatidylinositol and stress resistance. These results provide potential targets to inhibit the growth of cancer cells with constitutive Ras activity and link the glucose-dependent yeast pro-aging Ras signaling pathway to the well-established pro-aging PI3K (PhosphoInositide 3-Kinase) pathway in worms and other species raising the possibility that the conserved longevity effect of mutations in the PI3K-AKT (AK strain Transforming) pathway may involve inhibition of Ras signaling.

Ymr1、Sjl2/3 磷酸酶的失活可促进野生型和 Ras2G19V 型酵母的抗逆性和寿命。
在酿酒酵母(Saccharomyces cerevisiae)中,Ras(RAt Sarcoma)的活性在介导葡萄糖降低抗应激性和延长寿命方面起着核心作用,组成型 Ras 激活突变会促进细胞生长和肿瘤发生。在这里,我们利用酵母中的转座子诱变来鉴定组成型活性 Ras2G19V(哺乳动物 KRASG12C 癌基因的直系同源物)的抑制因子。我们发现,YMR1(酵母肌球蛋白相关)、SJL2(SynaptoJanin-Like)和 SJL3 磷酸酶(以磷脂酰肌醇磷酸酯为靶标)的突变是组成型活性 Ras 最有效的抑制因子,能够逆转其对应激敏感性的影响,并足以延长寿命。在 sjl2 突变体中,Ras-GTP 的染色从与膜结合转变为弥漫的细胞质染色,这表明它可能通过阻止 Ras 的定位来阻断 Ras 的活性。在 Ras2G19V 和野生型背景中,Slj2 PI 3,4,5 磷酸酶的表达都介导了应激敏感性,而过表达磷脂酰肌醇 3 激酶 VPS34(空泡蛋白分选)仅在 Ras2G19V 背景中促进了热休克敏感性,这表明不同磷脂酰肌醇与应激抗性之间存在复杂的关系。这些结果为抑制具有组成型 Ras 活性的癌细胞的生长提供了潜在靶点,并将葡萄糖依赖性酵母促衰老 Ras 信号通路与蠕虫和其他物种中成熟的促衰老 PI3K(磷脂酰肌醇 3-激酶)通路联系起来,提出了 PI3K-AKT(AK 应变转化)通路突变的长寿效应可能涉及抑制 Ras 信号转导的可能性。
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来源期刊
Biomedical Journal
Biomedical Journal Medicine-General Medicine
CiteScore
11.60
自引率
1.80%
发文量
128
审稿时长
42 days
期刊介绍: Biomedical Journal publishes 6 peer-reviewed issues per year in all fields of clinical and biomedical sciences for an internationally diverse authorship. Unlike most open access journals, which are free to readers but not authors, Biomedical Journal does not charge for subscription, submission, processing or publication of manuscripts, nor for color reproduction of photographs. Clinical studies, accounts of clinical trials, biomarker studies, and characterization of human pathogens are within the scope of the journal, as well as basic studies in model species such as Escherichia coli, Caenorhabditis elegans, Drosophila melanogaster, and Mus musculus revealing the function of molecules, cells, and tissues relevant for human health. However, articles on other species can be published if they contribute to our understanding of basic mechanisms of biology. A highly-cited international editorial board assures timely publication of manuscripts. Reviews on recent progress in biomedical sciences are commissioned by the editors.
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