Enhancer Remodeling and MicroRNA Alterations Are Associated with Acquired Resistance to ALK Inhibitors

Anaplastic lymphoma kinase (ALK) inhibitors are highly effective in patients with fusion-positive lung cancer, but acquired resistance invariably emerges. Identification of secondary mutations has received considerable attention, but most cases cannot be explained by genetic causes alone, raising th...

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Veröffentlicht in:	Cancer research (Chicago, Ill.) Ill.), 2018-06, Vol.78 (12), p.3350-3362
Hauptverfasser:	Yun, Mi Ran, Lim, Sun Min, Kim, Seon-Kyu, Choi, Hun Mi, Pyo, Kyoung-Ho, Kim, Seong Keun, Lee, Ji Min, Lee, You Won, Choi, Jae Woo, Kim, Hye Ryun, Hong, Min Hee, Haam, Keeok, Huh, Nanhyung, Kim, Jong-Hwan, Kim, Yong Sung, Shim, Hyo Sup, Soo, Ross Andrew, Shih, Jin-Yuan, Yang, James Chih-Hsin, Kim, Mirang, Cho, Byoung Chul
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Sprache:	eng
Schlagworte:	Acetylation Axl protein Deregulation Drug resistance Epigenetics Gene expression Histone deacetylase Histone H3 Inhibitors Kinases Lung cancer Lymphoma Lysine miRNA Mutation Patients Protein-tyrosine kinase Transcription activation Transgenic mice Xenografts
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container_title	Cancer research (Chicago, Ill.)
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creator	Yun, Mi Ran Lim, Sun Min Kim, Seon-Kyu Choi, Hun Mi Pyo, Kyoung-Ho Kim, Seong Keun Lee, Ji Min Lee, You Won Choi, Jae Woo Kim, Hye Ryun Hong, Min Hee Haam, Keeok Huh, Nanhyung Kim, Jong-Hwan Kim, Yong Sung Shim, Hyo Sup Soo, Ross Andrew Shih, Jin-Yuan Yang, James Chih-Hsin Kim, Mirang Cho, Byoung Chul
description	Anaplastic lymphoma kinase (ALK) inhibitors are highly effective in patients with fusion-positive lung cancer, but acquired resistance invariably emerges. Identification of secondary mutations has received considerable attention, but most cases cannot be explained by genetic causes alone, raising the possibility of epigenetic mechanisms in acquired drug resistance. Here, we investigated the dynamic changes in the transcriptome and enhancer landscape during development of acquired resistance to ALK inhibitors. Histone H3 lysine 27 acetylation (H3K27ac) was profoundly altered during acquisition of resistance, and enhancer remodeling induced expression changes in both miRNAs and mRNAs. Decreased H3K27ac levels and reduced miR-34a expression associated with the activation of target genes such as AXL. Panobinostat, a pan-histone deacetylase inhibitor, altered the H3K27ac profile and activated tumor-suppressor miRNAs such as miR-449, another member of the miR-34 family, and synergistically induced antiproliferative effects with ALK inhibitors on resistant cells, xenografts, and transgenic mice. Paired analysis of patient samples before and after treatment with ALK inhibitors revealed that repression of miR-34a or miR-449a and activation of AXL were mutually exclusive of secondary mutations in ALK. Our findings indicate that enhancer remodeling and altered expression of miRNAs play key roles in cancer drug resistance and suggest that strategies targeting epigenetic pathways represent a potentially effective method for overcoming acquired resistance to cancer therapy. Epigenetic deregulation drives acquired resistance to ALK inhibitors in ALK-positive lung cancer. .
doi_str_mv	10.1158/0008-5472.CAN-17-3146
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Identification of secondary mutations has received considerable attention, but most cases cannot be explained by genetic causes alone, raising the possibility of epigenetic mechanisms in acquired drug resistance. Here, we investigated the dynamic changes in the transcriptome and enhancer landscape during development of acquired resistance to ALK inhibitors. Histone H3 lysine 27 acetylation (H3K27ac) was profoundly altered during acquisition of resistance, and enhancer remodeling induced expression changes in both miRNAs and mRNAs. Decreased H3K27ac levels and reduced miR-34a expression associated with the activation of target genes such as AXL. Panobinostat, a pan-histone deacetylase inhibitor, altered the H3K27ac profile and activated tumor-suppressor miRNAs such as miR-449, another member of the miR-34 family, and synergistically induced antiproliferative effects with ALK inhibitors on resistant cells, xenografts, and transgenic mice. Paired analysis of patient samples before and after treatment with ALK inhibitors revealed that repression of miR-34a or miR-449a and activation of AXL were mutually exclusive of secondary mutations in ALK. Our findings indicate that enhancer remodeling and altered expression of miRNAs play key roles in cancer drug resistance and suggest that strategies targeting epigenetic pathways represent a potentially effective method for overcoming acquired resistance to cancer therapy. 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Identification of secondary mutations has received considerable attention, but most cases cannot be explained by genetic causes alone, raising the possibility of epigenetic mechanisms in acquired drug resistance. Here, we investigated the dynamic changes in the transcriptome and enhancer landscape during development of acquired resistance to ALK inhibitors. Histone H3 lysine 27 acetylation (H3K27ac) was profoundly altered during acquisition of resistance, and enhancer remodeling induced expression changes in both miRNAs and mRNAs. Decreased H3K27ac levels and reduced miR-34a expression associated with the activation of target genes such as AXL. Panobinostat, a pan-histone deacetylase inhibitor, altered the H3K27ac profile and activated tumor-suppressor miRNAs such as miR-449, another member of the miR-34 family, and synergistically induced antiproliferative effects with ALK inhibitors on resistant cells, xenografts, and transgenic mice. Paired analysis of patient samples before and after treatment with ALK inhibitors revealed that repression of miR-34a or miR-449a and activation of AXL were mutually exclusive of secondary mutations in ALK. Our findings indicate that enhancer remodeling and altered expression of miRNAs play key roles in cancer drug resistance and suggest that strategies targeting epigenetic pathways represent a potentially effective method for overcoming acquired resistance to cancer therapy. 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Identification of secondary mutations has received considerable attention, but most cases cannot be explained by genetic causes alone, raising the possibility of epigenetic mechanisms in acquired drug resistance. Here, we investigated the dynamic changes in the transcriptome and enhancer landscape during development of acquired resistance to ALK inhibitors. Histone H3 lysine 27 acetylation (H3K27ac) was profoundly altered during acquisition of resistance, and enhancer remodeling induced expression changes in both miRNAs and mRNAs. Decreased H3K27ac levels and reduced miR-34a expression associated with the activation of target genes such as AXL. Panobinostat, a pan-histone deacetylase inhibitor, altered the H3K27ac profile and activated tumor-suppressor miRNAs such as miR-449, another member of the miR-34 family, and synergistically induced antiproliferative effects with ALK inhibitors on resistant cells, xenografts, and transgenic mice. Paired analysis of patient samples before and after treatment with ALK inhibitors revealed that repression of miR-34a or miR-449a and activation of AXL were mutually exclusive of secondary mutations in ALK. Our findings indicate that enhancer remodeling and altered expression of miRNAs play key roles in cancer drug resistance and suggest that strategies targeting epigenetic pathways represent a potentially effective method for overcoming acquired resistance to cancer therapy. Epigenetic deregulation drives acquired resistance to ALK inhibitors in ALK-positive lung cancer. .</abstract><cop>United States</cop><pub>American Association for Cancer Research, Inc</pub><pmid>29669761</pmid><doi>10.1158/0008-5472.CAN-17-3146</doi><tpages>13</tpages><orcidid>https://orcid.org/0000-0002-9933-7433</orcidid><orcidid>https://orcid.org/0000-0001-5741-8748</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Acetylation Axl protein Deregulation Drug resistance Epigenetics Gene expression Histone deacetylase Histone H3 Inhibitors Kinases Lung cancer Lymphoma Lysine miRNA Mutation Patients Protein-tyrosine kinase Transcription activation Transgenic mice Xenografts
title	Enhancer Remodeling and MicroRNA Alterations Are Associated with Acquired Resistance to ALK Inhibitors
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