Comparisons of two receptor-MAPK pathways in a single cell-type reveal mechanisms of signalling specificity

IF 15.8 1区 生物学 Q1 PLANT SCIENCES Nature Plants Pub Date : 2024-09-10 DOI:10.1038/s41477-024-01768-y
Yan Ma, Isabelle Flückiger, Jade Nicolet, Jia Pang, Joe B. Dickinson, Damien De Bellis, Aurélia Emonet, Satoshi Fujita, Niko Geldner
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Abstract

Cells harbour numerous receptor pathways to respond to diverse stimuli, yet often share common downstream signalling components. Mitogen-activated protein kinase (MPK) cascades are an example of such common hubs in eukaryotes. How such common hubs faithfully transduce distinct signals within the same cell-type is insufficiently understood, yet of fundamental importance for signal integration and processing in plants. We engineered a unique genetic background allowing direct comparisons of a developmental and an immunity pathway in one cell-type, the Arabidopsis root endodermis. We demonstrate that the two pathways maintain distinct functional and transcriptional outputs despite common MPK activity patterns. Nevertheless, activation of different MPK kinases and MPK classes led to distinct functional readouts, matching observed pathway-specific readouts. On the basis of our comprehensive analysis of core MPK signalling elements, we propose that combinatorial activation within the MPK cascade determines the differential regulation of an endodermal master transcription factor, MYB36, that drives pathway-specific gene activation. By comparing signalling of two receptor pathways in the same cell-type, the study describes maintenance of signalling specificity at a single-cell level and the role of MAPK networks in this process.

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单一细胞类型中两种受体-MAPK 通路的比较揭示了信号特异性机制
细胞有许多受体通路来应对不同的刺激,但它们往往有共同的下游信号元件。丝裂原活化蛋白激酶(MPK)级联就是真核生物中这种共同枢纽的一个例子。这种共同枢纽如何在同一细胞类型中忠实地传递不同的信号还没有得到充分的了解,但对植物中的信号整合和处理具有根本性的重要意义。我们设计了一种独特的遗传背景,可以直接比较拟南芥根内皮这一细胞类型中的发育途径和免疫途径。我们证明,尽管 MPK 的活动模式相同,但这两种途径保持着不同的功能和转录输出。然而,激活不同的 MPK 激酶和 MPK 类别会导致不同的功能读数,这与观察到的特异性通路读数相匹配。在对 MPK 核心信号元件进行全面分析的基础上,我们提出,MPK 级联内的组合激活决定了对内胚层主转录因子 MYB36 的不同调控,而 MYB36 则驱动特定途径的基因激活。
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来源期刊
Nature Plants
Nature Plants PLANT SCIENCES-
CiteScore
25.30
自引率
2.20%
发文量
196
期刊介绍: Nature Plants is an online-only, monthly journal publishing the best research on plants — from their evolution, development, metabolism and environmental interactions to their societal significance.
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