Arabidopsis Casein Kinase 2 triggers stem cell exhaustion under Al toxicity and phosphate deficiency through activation of the DNA damage response pathway

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

doi:10.1093/plcell/koab005

Arabidopsis Casein Kinase 2 triggers stem cell exhaustion under Al toxicity and phosphate deficiency through activation of the DNA damage response pathway

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

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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 cause a strong inhibition of 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 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. 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.

Originele taal-2	English
Pagina's (van-tot)	1361-1380
Aantal pagina's	20
Tijdschrift	Plant Cell
Volume	33
Nummer van het tijdschrift	4
DOI's	https://doi.org/10.1093/plcell/koab005
Status	Published - apr 2021

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10.1093/plcell/koab005Licentie: Unspecified

author_versionAccepted author manuscript, 4,54 MBLicentie: Unspecified

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1 Afgelopen
3 Actief

FWOAL962: Functioneel-structurele analyse van Casein Kinase 2 en SOG1 in reactie op Al-geïnduceerde DNA-schade en fosfaat depletie
Loris, R. & De Veylder, L.
1/01/20 → 31/12/23
Project: Fundamenteel
OZRSRF12: Structural flexibility and disorder in protein function: from toxin-antitoxin modules to bacterial persistence - SRF mandate
Loris, R.
1/10/18 → 30/09/23
Project: Fundamenteel
SRP13: Structuur en dynamiek van macromoleculaire complexen in gezondheid en ziekte
Steyaert, J., Remaut, H. K., Loris, R., Efremov, R., Steyaert, J., Loris, R. & Remaut, H. K.
1/11/12 → 31/10/24
Project: Fundamenteel

9 Citaties
1 Article

Crystal structure of Arabidopsis thaliana casein kinase 2 alpha1
Demulder, M., De Veylder, L. & Loris, R., 1 apr 2020, In: Acta Crystallogr F Struct Biol Commun. 76, 4, blz. 182-191 10 blz.
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Wei, P., Demulder, M., David, P., Eekhout, T., Yoshiyama, K. O., Nguyen, L., Vercauteren, I., Eeckhout, D., Galle, M., Larsen, P., De Jaeger, G., Audenaert, D., Desnod, T., Nussaume, L., Loris, R., & De Veylder, L. (2021). Arabidopsis Casein Kinase 2 triggers stem cell exhaustion under Al toxicity and phosphate deficiency through activation of the DNA damage response pathway. Plant Cell, 33(4), 1361-1380. https://doi.org/10.1093/plcell/koab005

Wei, Pengliang ; Demulder, Manon ; David, Pascale ; Eekhout, Thomas ; Yoshiyama, Kaoru O. ; Nguyen, Long ; Vercauteren, Ilse ; Eeckhout, Dominique ; Galle, Margot ; Larsen, Paul ; De Jaeger, Geert ; Audenaert, Dominique ; Desnod, Thierry ; Nussaume, Laurent ; Loris, Remy ; De Veylder, Lieven. / Arabidopsis Casein Kinase 2 triggers stem cell exhaustion under Al toxicity and phosphate deficiency through activation of the DNA damage response pathway. In: Plant Cell. 2021 ; Vol. 33, Nr. 4. blz. 1361-1380.

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title = "Arabidopsis Casein Kinase 2 triggers stem cell exhaustion under Al toxicity and phosphate deficiency through activation of the DNA damage response pathway",

abstract = "Aluminum (Al) toxicity and inorganic phosphate (Pi) limitation are widespread chronic abiotic and mutually enhancing stresses that profoundly affect crop yield. Both stresses cause a strong inhibition of 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 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. 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.",

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author = "Pengliang Wei and Manon Demulder and Pascale David and Thomas Eekhout and Yoshiyama, {Kaoru O.} and Long Nguyen and Ilse Vercauteren and Dominique Eeckhout and Margot Galle and Paul Larsen and {De Jaeger}, Geert and Dominique Audenaert and Thierry Desnod and Laurent Nussaume and Remy Loris and {De Veylder}, Lieven",

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doi = "10.1093/plcell/koab005",

language = "English",

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Wei, P, Demulder, M, David, P, Eekhout, T, Yoshiyama, KO, Nguyen, L, Vercauteren, I, Eeckhout, D, Galle, M, Larsen, P, De Jaeger, G, Audenaert, D, Desnod, T, Nussaume, L, Loris, R & De Veylder, L 2021, 'Arabidopsis Casein Kinase 2 triggers stem cell exhaustion under Al toxicity and phosphate deficiency through activation of the DNA damage response pathway', Plant Cell, vol. 33, nr. 4, blz. 1361-1380. https://doi.org/10.1093/plcell/koab005

Arabidopsis Casein Kinase 2 triggers stem cell exhaustion under Al toxicity and phosphate deficiency through activation of the DNA damage response pathway. / Wei, Pengliang; Demulder, Manon; David, Pascale; Eekhout, Thomas; Yoshiyama, Kaoru O.; Nguyen, Long; Vercauteren, Ilse; Eeckhout, Dominique; Galle, Margot; Larsen, Paul; De Jaeger, Geert; Audenaert, Dominique; Desnod, Thierry; Nussaume, Laurent; Loris, Remy; De Veylder, Lieven.

In: Plant Cell, Vol. 33, Nr. 4, 04.2021, blz. 1361-1380.

Onderzoeksoutput: Article › peer review

TY - JOUR

T1 - Arabidopsis Casein Kinase 2 triggers stem cell exhaustion under Al toxicity and phosphate deficiency through activation of the DNA damage response pathway

AU - Wei, Pengliang

AU - Demulder, Manon

AU - David, Pascale

AU - Eekhout, Thomas

AU - Yoshiyama, Kaoru O.

AU - Nguyen, Long

AU - Vercauteren, Ilse

AU - Eeckhout, Dominique

AU - Galle, Margot

AU - Larsen, Paul

AU - De Jaeger, Geert

AU - Audenaert, Dominique

AU - Desnod, Thierry

AU - Nussaume, Laurent

AU - Loris, Remy

AU - De Veylder, Lieven

PY - 2021/4

Y1 - 2021/4

N2 - Aluminum (Al) toxicity and inorganic phosphate (Pi) limitation are widespread chronic abiotic and mutually enhancing stresses that profoundly affect crop yield. Both stresses cause a strong inhibition of 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 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. 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.

AB - Aluminum (Al) toxicity and inorganic phosphate (Pi) limitation are widespread chronic abiotic and mutually enhancing stresses that profoundly affect crop yield. Both stresses cause a strong inhibition of 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 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. 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.

KW - Casein kinase 2

KW - SOG1

KW - Aluminium tolerance

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U2 - 10.1093/plcell/koab005

DO - 10.1093/plcell/koab005

M3 - Article

VL - 33

SP - 1361

EP - 1380

JO - The Plant Cell

JF - The Plant Cell

SN - 1040-4651

IS - 4

ER -

Arabidopsis Casein Kinase 2 triggers stem cell exhaustion under Al toxicity and phosphate deficiency through activation of the DNA damage response pathway

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Projecten

FWOAL962: Functioneel-structurele analyse van Casein Kinase 2 en SOG1 in reactie op Al-geïnduceerde DNA-schade en fosfaat depletie

OZRSRF12: Structural flexibility and disorder in protein function: from toxin-antitoxin modules to bacterial persistence - SRF mandate

SRP13: Structuur en dynamiek van macromoleculaire complexen in gezondheid en ziekte

Onderzoekersoutput

Crystal structure of Arabidopsis thaliana casein kinase 2 alpha1

Citeer dit