A post-transcriptional program of chemoresistance by AU-rich elements and TTP in quiescent leukemic cells

BACKGROUND: Quiescence (G0) is a transient, cell cycle-arrested state. By entering G0, cancer cells survive unfavorable conditions such as chemotherapy and cause relapse. While G0 cells have been studied at the transcriptome level, how post-transcriptional regulation contributes to their chemoresist...

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Autores principales: Lee, Sooncheol, Micalizzi, Douglas, Truesdell, Samuel S., Bukhari, Syed I. A., Boukhali, Myriam, Lombardi-Story, Jennifer, Kato, Yasutaka, Choo, Min-Kyung, Dey-Guha, Ipsita, Ji, Fei, Nicholson, Benjamin T., Myers, David T., Lee, Dongjun, Mazzola, Maria A., Raheja, Radhika, Langenbucher, Adam, Haradhvala, Nicholas J., Lawrence, Michael S., Gandhi, Roopali, Tiedje, Christopher, Diaz-Muñoz, Manuel D., Sweetser, David A., Sadreyev, Ruslan, Sykes, David, Haas, Wilhelm, Haber, Daniel A., Maheswaran, Shyamala, Vasudevan, Shobha
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2020
Materias:
Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7011231/
https://www.ncbi.nlm.nih.gov/pubmed/32039742
http://dx.doi.org/10.1186/s13059-020-1936-4
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author Lee, Sooncheol
Micalizzi, Douglas
Truesdell, Samuel S.
Bukhari, Syed I. A.
Boukhali, Myriam
Lombardi-Story, Jennifer
Kato, Yasutaka
Choo, Min-Kyung
Dey-Guha, Ipsita
Ji, Fei
Nicholson, Benjamin T.
Myers, David T.
Lee, Dongjun
Mazzola, Maria A.
Raheja, Radhika
Langenbucher, Adam
Haradhvala, Nicholas J.
Lawrence, Michael S.
Gandhi, Roopali
Tiedje, Christopher
Diaz-Muñoz, Manuel D.
Sweetser, David A.
Sadreyev, Ruslan
Sykes, David
Haas, Wilhelm
Haber, Daniel A.
Maheswaran, Shyamala
Vasudevan, Shobha
author_facet Lee, Sooncheol
Micalizzi, Douglas
Truesdell, Samuel S.
Bukhari, Syed I. A.
Boukhali, Myriam
Lombardi-Story, Jennifer
Kato, Yasutaka
Choo, Min-Kyung
Dey-Guha, Ipsita
Ji, Fei
Nicholson, Benjamin T.
Myers, David T.
Lee, Dongjun
Mazzola, Maria A.
Raheja, Radhika
Langenbucher, Adam
Haradhvala, Nicholas J.
Lawrence, Michael S.
Gandhi, Roopali
Tiedje, Christopher
Diaz-Muñoz, Manuel D.
Sweetser, David A.
Sadreyev, Ruslan
Sykes, David
Haas, Wilhelm
Haber, Daniel A.
Maheswaran, Shyamala
Vasudevan, Shobha
author_sort Lee, Sooncheol
collection PubMed
description BACKGROUND: Quiescence (G0) is a transient, cell cycle-arrested state. By entering G0, cancer cells survive unfavorable conditions such as chemotherapy and cause relapse. While G0 cells have been studied at the transcriptome level, how post-transcriptional regulation contributes to their chemoresistance remains unknown. RESULTS: We induce chemoresistant and G0 leukemic cells by serum starvation or chemotherapy treatment. To study post-transcriptional regulation in G0 leukemic cells, we systematically analyzed their transcriptome, translatome, and proteome. We find that our resistant G0 cells recapitulate gene expression profiles of in vivo chemoresistant leukemic and G0 models. In G0 cells, canonical translation initiation is inhibited; yet we find that inflammatory genes are highly translated, indicating alternative post-transcriptional regulation. Importantly, AU-rich elements (AREs) are significantly enriched in the upregulated G0 translatome and transcriptome. Mechanistically, we find the stress-responsive p38 MAPK-MK2 signaling pathway stabilizes ARE mRNAs by phosphorylation and inactivation of mRNA decay factor, Tristetraprolin (TTP) in G0. This permits expression of ARE mRNAs that promote chemoresistance. Conversely, inhibition of TTP phosphorylation by p38 MAPK inhibitors and non-phosphorylatable TTP mutant decreases ARE-bearing TNFα and DUSP1 mRNAs and sensitizes leukemic cells to chemotherapy. Furthermore, co-inhibiting p38 MAPK and TNFα prior to or along with chemotherapy substantially reduces chemoresistance in primary leukemic cells ex vivo and in vivo. CONCLUSIONS: These studies uncover post-transcriptional regulation underlying chemoresistance in leukemia. Our data reveal the p38 MAPK-MK2-TTP axis as a key regulator of expression of ARE-bearing mRNAs that promote chemoresistance. By disrupting this pathway, we develop an effective combination therapy against chemosurvival. ELECTRONIC SUPPLEMENTARY MATERIAL: Supplementary information accompanies this paper at 10.1186/s13059-020-1936-4.
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spelling pubmed-70112312020-02-13 A post-transcriptional program of chemoresistance by AU-rich elements and TTP in quiescent leukemic cells Lee, Sooncheol Micalizzi, Douglas Truesdell, Samuel S. Bukhari, Syed I. A. Boukhali, Myriam Lombardi-Story, Jennifer Kato, Yasutaka Choo, Min-Kyung Dey-Guha, Ipsita Ji, Fei Nicholson, Benjamin T. Myers, David T. Lee, Dongjun Mazzola, Maria A. Raheja, Radhika Langenbucher, Adam Haradhvala, Nicholas J. Lawrence, Michael S. Gandhi, Roopali Tiedje, Christopher Diaz-Muñoz, Manuel D. Sweetser, David A. Sadreyev, Ruslan Sykes, David Haas, Wilhelm Haber, Daniel A. Maheswaran, Shyamala Vasudevan, Shobha Genome Biol Research BACKGROUND: Quiescence (G0) is a transient, cell cycle-arrested state. By entering G0, cancer cells survive unfavorable conditions such as chemotherapy and cause relapse. While G0 cells have been studied at the transcriptome level, how post-transcriptional regulation contributes to their chemoresistance remains unknown. RESULTS: We induce chemoresistant and G0 leukemic cells by serum starvation or chemotherapy treatment. To study post-transcriptional regulation in G0 leukemic cells, we systematically analyzed their transcriptome, translatome, and proteome. We find that our resistant G0 cells recapitulate gene expression profiles of in vivo chemoresistant leukemic and G0 models. In G0 cells, canonical translation initiation is inhibited; yet we find that inflammatory genes are highly translated, indicating alternative post-transcriptional regulation. Importantly, AU-rich elements (AREs) are significantly enriched in the upregulated G0 translatome and transcriptome. Mechanistically, we find the stress-responsive p38 MAPK-MK2 signaling pathway stabilizes ARE mRNAs by phosphorylation and inactivation of mRNA decay factor, Tristetraprolin (TTP) in G0. This permits expression of ARE mRNAs that promote chemoresistance. Conversely, inhibition of TTP phosphorylation by p38 MAPK inhibitors and non-phosphorylatable TTP mutant decreases ARE-bearing TNFα and DUSP1 mRNAs and sensitizes leukemic cells to chemotherapy. Furthermore, co-inhibiting p38 MAPK and TNFα prior to or along with chemotherapy substantially reduces chemoresistance in primary leukemic cells ex vivo and in vivo. CONCLUSIONS: These studies uncover post-transcriptional regulation underlying chemoresistance in leukemia. Our data reveal the p38 MAPK-MK2-TTP axis as a key regulator of expression of ARE-bearing mRNAs that promote chemoresistance. By disrupting this pathway, we develop an effective combination therapy against chemosurvival. ELECTRONIC SUPPLEMENTARY MATERIAL: Supplementary information accompanies this paper at 10.1186/s13059-020-1936-4. BioMed Central 2020-02-10 /pmc/articles/PMC7011231/ /pubmed/32039742 http://dx.doi.org/10.1186/s13059-020-1936-4 Text en © The Author(s). 2020 Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
spellingShingle Research
Lee, Sooncheol
Micalizzi, Douglas
Truesdell, Samuel S.
Bukhari, Syed I. A.
Boukhali, Myriam
Lombardi-Story, Jennifer
Kato, Yasutaka
Choo, Min-Kyung
Dey-Guha, Ipsita
Ji, Fei
Nicholson, Benjamin T.
Myers, David T.
Lee, Dongjun
Mazzola, Maria A.
Raheja, Radhika
Langenbucher, Adam
Haradhvala, Nicholas J.
Lawrence, Michael S.
Gandhi, Roopali
Tiedje, Christopher
Diaz-Muñoz, Manuel D.
Sweetser, David A.
Sadreyev, Ruslan
Sykes, David
Haas, Wilhelm
Haber, Daniel A.
Maheswaran, Shyamala
Vasudevan, Shobha
A post-transcriptional program of chemoresistance by AU-rich elements and TTP in quiescent leukemic cells
title A post-transcriptional program of chemoresistance by AU-rich elements and TTP in quiescent leukemic cells
title_full A post-transcriptional program of chemoresistance by AU-rich elements and TTP in quiescent leukemic cells
title_fullStr A post-transcriptional program of chemoresistance by AU-rich elements and TTP in quiescent leukemic cells
title_full_unstemmed A post-transcriptional program of chemoresistance by AU-rich elements and TTP in quiescent leukemic cells
title_short A post-transcriptional program of chemoresistance by AU-rich elements and TTP in quiescent leukemic cells
title_sort post-transcriptional program of chemoresistance by au-rich elements and ttp in quiescent leukemic cells
topic Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7011231/
https://www.ncbi.nlm.nih.gov/pubmed/32039742
http://dx.doi.org/10.1186/s13059-020-1936-4
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