Quantitative phosphoproteomics to unravel the cellular response to chemical stressors with different modes of action

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Quantitative phosphoproteomics to unravel the cellular response to chemical stressors with different modes of action. / Sampadi, Bharath; Pines, Alex; Munk, Stephanie; Mišovic, Branislav; de Groot, Anton J; van de Water, Bob; Olsen, Jesper V; Mullenders, Leon H F; Vrieling, Harry.

In: Archives of Toxicology, Vol. 94, 2020, p. 1655-1671.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Sampadi, B, Pines, A, Munk, S, Mišovic, B, de Groot, AJ, van de Water, B, Olsen, JV, Mullenders, LHF & Vrieling, H 2020, 'Quantitative phosphoproteomics to unravel the cellular response to chemical stressors with different modes of action', Archives of Toxicology, vol. 94, pp. 1655-1671. https://doi.org/10.1007/s00204-020-02712-7

APA

Sampadi, B., Pines, A., Munk, S., Mišovic, B., de Groot, A. J., van de Water, B., Olsen, J. V., Mullenders, L. H. F., & Vrieling, H. (2020). Quantitative phosphoproteomics to unravel the cellular response to chemical stressors with different modes of action. Archives of Toxicology, 94, 1655-1671. https://doi.org/10.1007/s00204-020-02712-7

Vancouver

Sampadi B, Pines A, Munk S, Mišovic B, de Groot AJ, van de Water B et al. Quantitative phosphoproteomics to unravel the cellular response to chemical stressors with different modes of action. Archives of Toxicology. 2020;94:1655-1671. https://doi.org/10.1007/s00204-020-02712-7

Author

Sampadi, Bharath ; Pines, Alex ; Munk, Stephanie ; Mišovic, Branislav ; de Groot, Anton J ; van de Water, Bob ; Olsen, Jesper V ; Mullenders, Leon H F ; Vrieling, Harry. / Quantitative phosphoproteomics to unravel the cellular response to chemical stressors with different modes of action. In: Archives of Toxicology. 2020 ; Vol. 94. pp. 1655-1671.

Bibtex

@article{64d96c693f7e4668ae6f0bfbddb87cfd,
title = "Quantitative phosphoproteomics to unravel the cellular response to chemical stressors with different modes of action",
abstract = "Damage to cellular macromolecules and organelles by chemical exposure evokes activation of various stress response pathways. To what extent different chemical stressors activate common and stressor-specific pathways is largely unknown. Here, we used quantitative phosphoproteomics to compare the signaling events induced by four stressors with different modes of action: the DNA damaging agent: cisplatin (CDDP), the topoisomerase II inhibitor: etoposide (ETO), the pro-oxidant: diethyl maleate (DEM) and the immunosuppressant: cyclosporine A (CsA) administered at an equitoxic dose to mouse embryonic stem cells. We observed major differences between the stressors in the number and identity of responsive phosphosites and the amplitude of phosphorylation. Kinase motif and pathway analyses indicated that the DNA damage response (DDR) activation by CDDP occurs predominantly through the replication-stress-related Atr kinase, whereas ETO triggers the DDR through Atr as well as the DNA double-strand-break-associated Atm kinase. CsA shares with ETO activation of CK2 kinase. Congruent with their known modes of action, CsA-mediated signaling is related to down-regulation of pathways that control hematopoietic differentiation and immunity, whereas oxidative stress is the most prominent initiator of DEM-modulated stress signaling. This study shows that even at equitoxic doses, different stressors induce distinctive and complex phosphorylation signaling cascades.",
author = "Bharath Sampadi and Alex Pines and Stephanie Munk and Branislav Mi{\v s}ovic and {de Groot}, {Anton J} and {van de Water}, Bob and Olsen, {Jesper V} and Mullenders, {Leon H F} and Harry Vrieling",
year = "2020",
doi = "10.1007/s00204-020-02712-7",
language = "English",
volume = "94",
pages = "1655--1671",
journal = "Archives of Toxicology",
issn = "0340-5761",
publisher = "Springer",

}

RIS

TY - JOUR

T1 - Quantitative phosphoproteomics to unravel the cellular response to chemical stressors with different modes of action

AU - Sampadi, Bharath

AU - Pines, Alex

AU - Munk, Stephanie

AU - Mišovic, Branislav

AU - de Groot, Anton J

AU - van de Water, Bob

AU - Olsen, Jesper V

AU - Mullenders, Leon H F

AU - Vrieling, Harry

PY - 2020

Y1 - 2020

N2 - Damage to cellular macromolecules and organelles by chemical exposure evokes activation of various stress response pathways. To what extent different chemical stressors activate common and stressor-specific pathways is largely unknown. Here, we used quantitative phosphoproteomics to compare the signaling events induced by four stressors with different modes of action: the DNA damaging agent: cisplatin (CDDP), the topoisomerase II inhibitor: etoposide (ETO), the pro-oxidant: diethyl maleate (DEM) and the immunosuppressant: cyclosporine A (CsA) administered at an equitoxic dose to mouse embryonic stem cells. We observed major differences between the stressors in the number and identity of responsive phosphosites and the amplitude of phosphorylation. Kinase motif and pathway analyses indicated that the DNA damage response (DDR) activation by CDDP occurs predominantly through the replication-stress-related Atr kinase, whereas ETO triggers the DDR through Atr as well as the DNA double-strand-break-associated Atm kinase. CsA shares with ETO activation of CK2 kinase. Congruent with their known modes of action, CsA-mediated signaling is related to down-regulation of pathways that control hematopoietic differentiation and immunity, whereas oxidative stress is the most prominent initiator of DEM-modulated stress signaling. This study shows that even at equitoxic doses, different stressors induce distinctive and complex phosphorylation signaling cascades.

AB - Damage to cellular macromolecules and organelles by chemical exposure evokes activation of various stress response pathways. To what extent different chemical stressors activate common and stressor-specific pathways is largely unknown. Here, we used quantitative phosphoproteomics to compare the signaling events induced by four stressors with different modes of action: the DNA damaging agent: cisplatin (CDDP), the topoisomerase II inhibitor: etoposide (ETO), the pro-oxidant: diethyl maleate (DEM) and the immunosuppressant: cyclosporine A (CsA) administered at an equitoxic dose to mouse embryonic stem cells. We observed major differences between the stressors in the number and identity of responsive phosphosites and the amplitude of phosphorylation. Kinase motif and pathway analyses indicated that the DNA damage response (DDR) activation by CDDP occurs predominantly through the replication-stress-related Atr kinase, whereas ETO triggers the DDR through Atr as well as the DNA double-strand-break-associated Atm kinase. CsA shares with ETO activation of CK2 kinase. Congruent with their known modes of action, CsA-mediated signaling is related to down-regulation of pathways that control hematopoietic differentiation and immunity, whereas oxidative stress is the most prominent initiator of DEM-modulated stress signaling. This study shows that even at equitoxic doses, different stressors induce distinctive and complex phosphorylation signaling cascades.

U2 - 10.1007/s00204-020-02712-7

DO - 10.1007/s00204-020-02712-7

M3 - Journal article

C2 - 32189037

VL - 94

SP - 1655

EP - 1671

JO - Archives of Toxicology

JF - Archives of Toxicology

SN - 0340-5761

ER -

ID: 239208928