PLK1 inhibition selectively induces apoptosis in ARID1A deficient cells through uncoupling of oxygen consumption from ATP production

Upadhyayula S. Srinivas; Norbert S. C. Tay; Patrick Jaynes; Akshaya Anbuselvan; Gokula K. Ramachandran; Joanna D. Wardyn; Michal M. Hoppe; Phuong Mai Hoang; Yanfen Peng; Sherlly Lim; May Yin Lee; Praveen C. Peethala; Omer An; Akshay Shendre; Bryce W. Q. Tan; Sherlyn Jemimah; Manikandan Lakshmanan; Longyu Hu; Rekha Jakhar; Karishma Sachaphibulkij; Lina H. K. Lim; Shazib Pervaiz; Karen Crasta; Henry Yang; Patrick Tan; Chao Liang; Lena Ho; Vartika Khanchandani; Dennis Kappei; Wei Peng Yong; David S. P. Tan; Matteo Bordi; Silvia Campello; Wai Leong Tam; Christian Frezza; Anand D. Jeyasekharan

doi:10.1038/s41388-022-02219-8

PLK1 inhibition selectively induces apoptosis in ARID1A deficient cells through uncoupling of oxygen consumption from ATP production

Upadhyayula S. Srinivas, Norbert S. C. Tay, Patrick Jaynes, Akshaya Anbuselvan, Gokula K. Ramachandran, Joanna D. Wardyn, Michal M. Hoppe, Phuong Mai Hoang, Yanfen Peng, Sherlly Lim, May Yin Lee, Praveen C. Peethala, Omer An, Akshay Shendre, Bryce W. Q. Tan, Sherlyn Jemimah, Manikandan Lakshmanan, Longyu Hu, Rekha Jakhar, Karishma SachaphibulkijLina H. K. Lim, Shazib Pervaiz, Karen Crasta, Henry Yang, Patrick Tan, Chao Liang, Lena Ho, Vartika Khanchandani, Dennis Kappei, Wei Peng Yong, David S. P. Tan, Matteo Bordi, Silvia Campello, Wai Leong Tam, Christian Frezza, Anand D. Jeyasekharan

Risultato della ricerca: Contributo in rivista › Articolo in rivista

Abstract

Inhibitors of the mitotic kinase PLK1 yield objective responses in a subset of refractory cancers. However, PLK1 overexpression in cancer does not correlate with drug sensitivity, and the clinical development of PLK1 inhibitors has been hampered by the lack of patient selection marker. Using a high-throughput chemical screen, we discovered that cells deficient for the tumor suppressor ARID1A are highly sensitive to PLK1 inhibition. Interestingly this sensitivity was unrelated to canonical functions of PLK1 in mediating G2/M cell cycle transition. Instead, a whole-genome CRISPR screen revealed PLK1 inhibitor sensitivity in ARID1A deficient cells to be dependent on the mitochondrial translation machinery. We find that ARID1A knock-out (KO) cells have an unusual mitochondrial phenotype with aberrant biogenesis, increased oxygen consumption/expression of oxidative phosphorylation genes, but without increased ATP production. Using expansion microscopy and biochemical fractionation, we see that a subset of PLK1 localizes to the mitochondria in interphase cells. Inhibition of PLK1 in ARID1A KO cells further uncouples oxygen consumption from ATP production, with subsequent membrane depolarization and apoptosis. Knockdown of specific subunits of the mitochondrial ribosome reverses PLK1-inhibitor induced apoptosis in ARID1A deficient cells, confirming specificity of the phenotype. Together, these findings highlight a novel interphase role for PLK1 in maintaining mitochondrial fitness under metabolic stress, and a strategy for therapeutic use of PLK1 inhibitors. To translate these findings, we describe a quantitative microscopy assay for assessment of ARID1A protein loss, which could offer a novel patient selection strategy for the clinical development of PLK1 inhibitors in cancer.

Lingua originale	English
pagine (da-a)	1986-2002
Numero di pagine	17
Rivista	Oncogene
Volume	41
DOI	https://doi.org/10.1038/s41388-022-02219-8
Stato di pubblicazione	Pubblicato - 2022

Keywords

ATP production

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Srinivas, U. S., Tay, N. S. C., Jaynes, P., Anbuselvan, A., Ramachandran, G. K., Wardyn, J. D., Hoppe, M. M., Hoang, P. M., Peng, Y., Lim, S., Lee, M. Y., Peethala, P. C., An, O., Shendre, A., Tan, B. W. Q., Jemimah, S., Lakshmanan, M., Hu, L., Jakhar, R., ... Jeyasekharan, A. D. (2022). PLK1 inhibition selectively induces apoptosis in ARID1A deficient cells through uncoupling of oxygen consumption from ATP production. Oncogene, 41, 1986-2002. https://doi.org/10.1038/s41388-022-02219-8

@article{47a8ba1821aa4911a3b29b6c8cd71742,

title = "PLK1 inhibition selectively induces apoptosis in ARID1A deficient cells through uncoupling of oxygen consumption from ATP production",

abstract = "Inhibitors of the mitotic kinase PLK1 yield objective responses in a subset of refractory cancers. However, PLK1 overexpression in cancer does not correlate with drug sensitivity, and the clinical development of PLK1 inhibitors has been hampered by the lack of patient selection marker. Using a high-throughput chemical screen, we discovered that cells deficient for the tumor suppressor ARID1A are highly sensitive to PLK1 inhibition. Interestingly this sensitivity was unrelated to canonical functions of PLK1 in mediating G2/M cell cycle transition. Instead, a whole-genome CRISPR screen revealed PLK1 inhibitor sensitivity in ARID1A deficient cells to be dependent on the mitochondrial translation machinery. We find that ARID1A knock-out (KO) cells have an unusual mitochondrial phenotype with aberrant biogenesis, increased oxygen consumption/expression of oxidative phosphorylation genes, but without increased ATP production. Using expansion microscopy and biochemical fractionation, we see that a subset of PLK1 localizes to the mitochondria in interphase cells. Inhibition of PLK1 in ARID1A KO cells further uncouples oxygen consumption from ATP production, with subsequent membrane depolarization and apoptosis. Knockdown of specific subunits of the mitochondrial ribosome reverses PLK1-inhibitor induced apoptosis in ARID1A deficient cells, confirming specificity of the phenotype. Together, these findings highlight a novel interphase role for PLK1 in maintaining mitochondrial fitness under metabolic stress, and a strategy for therapeutic use of PLK1 inhibitors. To translate these findings, we describe a quantitative microscopy assay for assessment of ARID1A protein loss, which could offer a novel patient selection strategy for the clinical development of PLK1 inhibitors in cancer.",

keywords = "ATP production, ATP production",

author = "Srinivas, {Upadhyayula S.} and Tay, {Norbert S. C.} and Patrick Jaynes and Akshaya Anbuselvan and Ramachandran, {Gokula K.} and Wardyn, {Joanna D.} and Hoppe, {Michal M.} and Hoang, {Phuong Mai} and Yanfen Peng and Sherlly Lim and Lee, {May Yin} and Peethala, {Praveen C.} and Omer An and Akshay Shendre and Tan, {Bryce W. Q.} and Sherlyn Jemimah and Manikandan Lakshmanan and Longyu Hu and Rekha Jakhar and Karishma Sachaphibulkij and Lim, {Lina H. K.} and Shazib Pervaiz and Karen Crasta and Henry Yang and Patrick Tan and Chao Liang and Lena Ho and Vartika Khanchandani and Dennis Kappei and Yong, {Wei Peng} and Tan, {David S. P.} and Matteo Bordi and Silvia Campello and Tam, {Wai Leong} and Christian Frezza and Jeyasekharan, {Anand D.}",

year = "2022",

doi = "10.1038/s41388-022-02219-8",

language = "English",

volume = "41",

pages = "1986--2002",

journal = "Oncogene",

issn = "0950-9232",

publisher = "Springer Nature",

}

Srinivas, US, Tay, NSC, Jaynes, P, Anbuselvan, A, Ramachandran, GK, Wardyn, JD, Hoppe, MM, Hoang, PM, Peng, Y, Lim, S, Lee, MY, Peethala, PC, An, O, Shendre, A, Tan, BWQ, Jemimah, S, Lakshmanan, M, Hu, L, Jakhar, R, Sachaphibulkij, K, Lim, LHK, Pervaiz, S, Crasta, K, Yang, H, Tan, P, Liang, C, Ho, L, Khanchandani, V, Kappei, D, Yong, WP, Tan, DSP, Bordi, M, Campello, S, Tam, WL, Frezza, C & Jeyasekharan, AD 2022, 'PLK1 inhibition selectively induces apoptosis in ARID1A deficient cells through uncoupling of oxygen consumption from ATP production', Oncogene, vol. 41, pagg. 1986-2002. https://doi.org/10.1038/s41388-022-02219-8

TY - JOUR

T1 - PLK1 inhibition selectively induces apoptosis in ARID1A deficient cells through uncoupling of oxygen consumption from ATP production

AU - Srinivas, Upadhyayula S.

AU - Tay, Norbert S. C.

AU - Jaynes, Patrick

AU - Anbuselvan, Akshaya

AU - Ramachandran, Gokula K.

AU - Wardyn, Joanna D.

AU - Hoppe, Michal M.

AU - Hoang, Phuong Mai

AU - Peng, Yanfen

AU - Lim, Sherlly

AU - Lee, May Yin

AU - Peethala, Praveen C.

AU - An, Omer

AU - Shendre, Akshay

AU - Tan, Bryce W. Q.

AU - Jemimah, Sherlyn

AU - Lakshmanan, Manikandan

AU - Hu, Longyu

AU - Jakhar, Rekha

AU - Sachaphibulkij, Karishma

AU - Lim, Lina H. K.

AU - Pervaiz, Shazib

AU - Crasta, Karen

AU - Yang, Henry

AU - Tan, Patrick

AU - Liang, Chao

AU - Ho, Lena

AU - Khanchandani, Vartika

AU - Kappei, Dennis

AU - Yong, Wei Peng

AU - Tan, David S. P.

AU - Bordi, Matteo

AU - Campello, Silvia

AU - Tam, Wai Leong

AU - Frezza, Christian

AU - Jeyasekharan, Anand D.

PY - 2022

Y1 - 2022

N2 - Inhibitors of the mitotic kinase PLK1 yield objective responses in a subset of refractory cancers. However, PLK1 overexpression in cancer does not correlate with drug sensitivity, and the clinical development of PLK1 inhibitors has been hampered by the lack of patient selection marker. Using a high-throughput chemical screen, we discovered that cells deficient for the tumor suppressor ARID1A are highly sensitive to PLK1 inhibition. Interestingly this sensitivity was unrelated to canonical functions of PLK1 in mediating G2/M cell cycle transition. Instead, a whole-genome CRISPR screen revealed PLK1 inhibitor sensitivity in ARID1A deficient cells to be dependent on the mitochondrial translation machinery. We find that ARID1A knock-out (KO) cells have an unusual mitochondrial phenotype with aberrant biogenesis, increased oxygen consumption/expression of oxidative phosphorylation genes, but without increased ATP production. Using expansion microscopy and biochemical fractionation, we see that a subset of PLK1 localizes to the mitochondria in interphase cells. Inhibition of PLK1 in ARID1A KO cells further uncouples oxygen consumption from ATP production, with subsequent membrane depolarization and apoptosis. Knockdown of specific subunits of the mitochondrial ribosome reverses PLK1-inhibitor induced apoptosis in ARID1A deficient cells, confirming specificity of the phenotype. Together, these findings highlight a novel interphase role for PLK1 in maintaining mitochondrial fitness under metabolic stress, and a strategy for therapeutic use of PLK1 inhibitors. To translate these findings, we describe a quantitative microscopy assay for assessment of ARID1A protein loss, which could offer a novel patient selection strategy for the clinical development of PLK1 inhibitors in cancer.

AB - Inhibitors of the mitotic kinase PLK1 yield objective responses in a subset of refractory cancers. However, PLK1 overexpression in cancer does not correlate with drug sensitivity, and the clinical development of PLK1 inhibitors has been hampered by the lack of patient selection marker. Using a high-throughput chemical screen, we discovered that cells deficient for the tumor suppressor ARID1A are highly sensitive to PLK1 inhibition. Interestingly this sensitivity was unrelated to canonical functions of PLK1 in mediating G2/M cell cycle transition. Instead, a whole-genome CRISPR screen revealed PLK1 inhibitor sensitivity in ARID1A deficient cells to be dependent on the mitochondrial translation machinery. We find that ARID1A knock-out (KO) cells have an unusual mitochondrial phenotype with aberrant biogenesis, increased oxygen consumption/expression of oxidative phosphorylation genes, but without increased ATP production. Using expansion microscopy and biochemical fractionation, we see that a subset of PLK1 localizes to the mitochondria in interphase cells. Inhibition of PLK1 in ARID1A KO cells further uncouples oxygen consumption from ATP production, with subsequent membrane depolarization and apoptosis. Knockdown of specific subunits of the mitochondrial ribosome reverses PLK1-inhibitor induced apoptosis in ARID1A deficient cells, confirming specificity of the phenotype. Together, these findings highlight a novel interphase role for PLK1 in maintaining mitochondrial fitness under metabolic stress, and a strategy for therapeutic use of PLK1 inhibitors. To translate these findings, we describe a quantitative microscopy assay for assessment of ARID1A protein loss, which could offer a novel patient selection strategy for the clinical development of PLK1 inhibitors in cancer.

KW - ATP production

UR - http://hdl.handle.net/10807/273417

U2 - 10.1038/s41388-022-02219-8

DO - 10.1038/s41388-022-02219-8

M3 - Article

SN - 0950-9232

VL - 41

SP - 1986

EP - 2002

JO - Oncogene

JF - Oncogene

ER -

PLK1 inhibition selectively induces apoptosis in ARID1A deficient cells through uncoupling of oxygen consumption from ATP production

Abstract

Keywords

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