TOR 和 PKA 途径在 Ste11 转录因子水平上协同作用，以防止裂殖酵母的交配和减数分裂。

TOR and PKA pathways synergize at the level of the Ste11 transcription factor to prevent mating and meiosis in fission yeast.

机构信息

Instituto de Biología Molecular y Celular del Cáncer, Consejo Superior de Investigaciones Científicas, Salamanca University, Salamanca, Spain.

出版信息

PLoS One. 2010 Jul 9;5(7):e11514. doi: 10.1371/journal.pone.0011514.

DOI:10.1371/journal.pone.0011514

PMID:20634885

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2901329/

Abstract

BACKGROUND

In the fission yeast Schizosaccharomyces pombe, the TOR (target of rapamycin) and PKA (protein kinase A) signaling transduction pathways regulate the expression of genes required for cell growth and sexual differentiation in response to the nutritional environment. Inhibition of Tor2 signaling results in the induction of genes involved in sexual differentiation, and the cells undergo mating and meiosis, even under good nutritional conditions. The same phenotype is observed in mutants in which the PKA pathway is inactive. By contrast, Tor2 overexpression or mutations that hyperactivate PKA signaling impair sexual differentiation, even under poor nutritional conditions. Accordingly, a very important question is to understand the molecular mechanism by which these two pathways coordinately regulate gene expression in response to nutrients.

METHODOLOGY/PRINCIPAL FINDINGS: Here we demonstrate that TOR and PKA pathways operate coordinately to negatively regulate sexual differentiation by inhibiting the nuclear accumulation of the Ste11 transcription factor. However, the Tor2 pathway is unable to block the nuclear localization of Ste11 under good nutritional conditions when the PKA pathway is inactive. Using microarray analyses, we found that both pathways inhibit sexual differentiation by blocking ste11-dependent gene expression.

CONCLUSIONS/SIGNIFICANCE: We conclude that both the PKA and the TOR pathways inhibit Ste11 nuclear accumulation to repress Ste11-dependent gene expression. However, the PKA pathway plays a quantitatively more important role than the TOR pathway in this process.

摘要

背景

在裂殖酵母 Schizosaccharomyces pombe 中，TOR（雷帕霉素靶蛋白）和 PKA（蛋白激酶 A）信号转导通路响应营养环境调节细胞生长和有性分化所需基因的表达。Tor2 信号的抑制导致参与有性分化的基因的诱导，即使在良好的营养条件下，细胞也会进行交配和减数分裂。在 PKA 途径失活的突变体中也观察到相同的表型。相比之下，Tor2 的过度表达或过度激活 PKA 信号会损害有性分化，即使在营养条件差的情况下也是如此。因此，一个非常重要的问题是要了解这两条通路如何协调地响应营养物质调节基因表达的分子机制。

方法/主要发现：在这里，我们证明 TOR 和 PKA 通路通过抑制 Ste11 转录因子的核积累来协同调节有性分化。然而，当 PKA 途径失活时，即使在良好的营养条件下，Tor2 途径也无法阻止 Ste11 的核定位。通过微阵列分析，我们发现这两条通路通过阻断 ste11 依赖性基因表达来抑制有性分化。

结论/意义：我们得出结论，PKA 和 TOR 通路都通过抑制 Ste11 的核积累来抑制 Ste11 依赖性基因表达。然而，在这个过程中，PKA 途径比 TOR 途径起着更为重要的定量作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/495c/2901329/5d0d9d5bb3e3/pone.0011514.g001.jpg

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TOR 和 PKA 途径在 Ste11 转录因子水平上协同作用，以防止裂殖酵母的交配和减数分裂。

TOR and PKA pathways synergize at the level of the Ste11 transcription factor to prevent mating and meiosis in fission yeast.

机构信息

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