Arabidopsis casein kinase 2 triggers stem cell exhaustion under Al toxicity and phosphate deficiency through activating the DNA damage response pathway

Wei Pengliang; Demulder Manon; David Pascale; Eekhout Thomas; Yoshiyama Kaoru Okamoto; Nguyen Long; Vercauteren Ilse; Eeckhout Dominique; Galle Margot; De Jaeger Geert; Larsen Paul; Audenaert Dominique; Desnos Thierry; Nussaume Laurent; Loris Remy; De Veylder Lieven

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Arabidopsis casein kinase 2 triggers stem cell exhaustion under Al toxicity and phosphate deficiency through activating the DNA damage response pathway

机译：Arabidopsis酪蛋白激酶2通过激活DNA损伤响应途径来触发Al毒性和磷酸盐缺乏的干细胞耗尽

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Aluminum (Al) toxicity and inorganic phosphate (Pi) limitation are widespread chronic abiotic and mutually enhancing stresses that profoundly affect crop yield. Both stresses strongly inhibit root growth, resulting from a progressive exhaustion of the stem cell niche. Here, we report on a casein kinase 2 (CK2) inhibitor identified by its capability to maintain a functional root stem cell niche in Arabidopsis thaliana under Al toxic conditions. CK2 operates through phosphorylation of the cell cycle checkpoint activator SUPPRESSOR OF GAMMA RADIATION1 (SOG1), priming its activity under DNA-damaging conditions. In addition to yielding Al tolerance, CK2 and SOG1 inactivation prevents meristem exhaustion under Pi starvation, revealing the existence of a low Pi-induced cell cycle checkpoint that depends on the DNA damage activator ATAXIA-TELANGIECTASIA MUTATED (ATM). Overall, our data reveal an important physiological role for the plant DNA damage response pathway under agriculturally limiting growth conditions, opening new avenues to cope with Pi limitation.

机译：铝（Al）毒性和无机磷（Pi）限制是广泛存在的慢性非生物和相互增强的胁迫，深刻影响作物产量。这两种胁迫都强烈抑制了根的生长，这是由于干细胞生态位逐渐耗尽所致。在这里，我们报告了一种酪蛋白激酶2（CK2）抑制剂，通过其在铝中毒条件下维持拟南芥中功能性根干细胞生态位的能力来鉴定。CK2通过γ辐射细胞周期检查点激活物抑制物1（SOG1）的磷酸化发挥作用，在DNA损伤条件下激发其活性。除了产生铝耐受外，CK2和SOG1失活可防止Pi饥饿下分生组织衰竭，揭示了依赖于DNA损伤激活剂共济失调-毛细血管扩张突变（ATM）的低Pi诱导细胞周期检查点的存在。总的来说，我们的数据揭示了植物DNA损伤反应途径在农业限制生长条件下的重要生理作用，为应对Pi限制开辟了新途径。

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《The Plant Cell》 |2021年第4期|共20页
作者
Wei Pengliang; Demulder Manon; David Pascale; Eekhout Thomas; Yoshiyama Kaoru Okamoto; Nguyen Long; Vercauteren Ilse; Eeckhout Dominique; Galle Margot; De Jaeger Geert; Larsen Paul; Audenaert Dominique; Desnos Thierry; Nussaume Laurent; Loris Remy; De Veylder Lieven;
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作者单位

Univ Ghent Dept Plant Biotechnol &

Bioinformat B-9052 Ghent Belgium;

Univ Ghent Dept Plant Biotechnol &

Bioinformat B-9052 Ghent Belgium;

Aix Marseille Univ UMR7265 BIAM CEA CNRS SAVE Signalisat Adaptat Vegetaux Leur En F-13108 St Paul Les Durance France;

Univ Ghent Dept Plant Biotechnol &

Bioinformat B-9052 Ghent Belgium;

Tohoku Univ Grad Sch Life Sci Sendai Miyagi 9808577 Japan;

VIB VIB Screening Core B-9052 Ghent Belgium;

Univ Ghent Dept Plant Biotechnol &

Bioinformat B-9052 Ghent Belgium;

Univ Ghent Dept Plant Biotechnol &

Bioinformat B-9052 Ghent Belgium;

Univ Ghent Dept Plant Biotechnol &

Bioinformat B-9052 Ghent Belgium;

Univ Ghent Dept Plant Biotechnol &

Bioinformat B-9052 Ghent Belgium;

Univ Calif Riverside Dept Biochem Riverside CA 92521 USA;

VIB VIB Screening Core B-9052 Ghent Belgium;

Aix Marseille Univ UMR7265 BIAM CEA CNRS SAVE Signalisat Adaptat Vegetaux Leur En F-13108 St Paul Les Durance France;

Aix Marseille Univ UMR7265 BIAM CEA CNRS SAVE Signalisat Adaptat Vegetaux Leur En F-13108 St Paul Les Durance France;

Vrije Univ Brussel Struct Biol Brussels B-1050 Brussels Belgium;

Univ Ghent Dept Plant Biotechnol &

Bioinformat B-9052 Ghent Belgium;

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正文语种 eng
中图分类植物细胞学;
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机译：DNA损伤激活蛋白激酶ATR和ATM以及DNA转移损伤聚合酶对干细胞环境中复制阻断DNA损伤的协同反应。
6. DNA damage‐induced apoptosis and mitogen‐activated protein kinase pathway contribute to the toxicity of dronedarone in hepatic cells [J] . Chen Si, Ren Zhen, Yu Dianke, Environmental and molecular mutagenesis. . 2018,第S1期

机译：DNA损伤诱导的细胞凋亡和丝裂原激活的蛋白激酶途径有助于肝细胞中Dronedarone的毒性
7. DNA damage‐induced apoptosis and mitogen‐activated protein kinase pathway contribute to the toxicity of dronedarone in hepatic cells [J] . Chen Si, Ren Zhen, Yu Dianke, Environmental and molecular mutagenesis. . 2018,第4期

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8. DNA Damage, Checkpoint Responses, and Cell Cycle Control in Aging Stem Cells [C] . Karin N. Kleinhans, Martin D. Burkhalter Else Kro?ner-Fresenius Symposium on the Advances in Stem Cell Aging . 2012

机译：老化干细胞中的DNA损伤，检查点反应和细胞周期控制
9. Cellular and transcriptional modulation of the DNA damage response in TK6 cells pretreated with protein kinase C activating tumor promoters. [D] . Glover, Kyle Philip. 2014

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10. Cancer Stem Cells from Tumor Cell Lines Activate the DNA Damage Response Pathway after Ionizing Radiation More Efficiently Than Noncancer Stem Cells [O] . Heriberto Abraham Valencia-González, Graciela Ruíz, Elizabeth Ortiz-Sánchez, 2019

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11. Arabidopsis Casein Kinase 2 triggers Stem Cell Exhaustion under Al Toxicity and Phosphate Deficiency Through activation of the DNA Damage Response pathway [O] . Wei Pengliang, Manon Demulder, Pascale David, 2020

机译：Arabidopsis酪蛋白激酶2通过激活DNA损伤响应途径触发抗毒性和磷酸盐缺乏的干细胞耗尽
12. DNA Ligase I is an In Vivo Substrate of DNA-Dependent Protein Kinase and is Activated by Phosphorylation in Response to DNA Double-Strand Breaks [R] . Bhat, K. R. , Benton, B. J. , Ray, R. 2006

机译：DNa连接酶I是DNa依赖性蛋白激酶的体内底物，并通过磷酸化活化以响应DNa双链断裂

Arabidopsis casein kinase 2 triggers stem cell exhaustion under Al toxicity and phosphate deficiency through activating the DNA damage response pathway

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