Dissecting the impact of bromodomain inhibitors on the Interferon Regulatory Factor 4‐MYC oncogenic axis in multiple myeloma

B‐cell progenitor fate determinant interferon regulatory factor 4 (IRF4) exerts key roles in the pathogenesis and progression of multiple myeloma (MM), a currently incurable plasma cell malignancy. Aberrant expression of IRF4 and the establishment of a positive auto‐regulatory loop with oncogene MYC...

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Veröffentlicht in:	Hematological oncology 2022-08, Vol.40 (3), p.417-429
Hauptverfasser:	Agnarelli, Alessandro, Mitchell, Simon, Caalim, Gillian, Wood, C. David, Milton‐Harris, Leanne, Chevassut, Timothy, West, Michelle J., Mancini, Erika J.
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Schlagworte:	BET/BRD4 CBP/EP300 Cell Cycle Proteins - metabolism Cell Cycle Proteins - pharmacology Cell Cycle Proteins - therapeutic use Cell death Cell Line, Tumor Cell Proliferation Cell viability dual inhibition Epigenetics Gene expression Humans Inhibitors Interferon Interferon regulatory factor Interferon regulatory factor 4 Interferon Regulatory Factors - genetics Interferon Regulatory Factors - metabolism IRF4 Malignancy mRNA Multiple myeloma Multiple Myeloma - drug therapy Multiple Myeloma - genetics Multiple Myeloma - metabolism MYC Myc protein Nuclear Proteins - genetics Nuclear Proteins - metabolism Pathogenesis Plasma cells Protein expression Proteins Proto-Oncogene Proteins c-myc - genetics Proto-Oncogene Proteins c-myc - metabolism RNA, Messenger Synergistic effect Transcription Factors - genetics Transcription Factors - metabolism
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container_title	Hematological oncology
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creator	Agnarelli, Alessandro Mitchell, Simon Caalim, Gillian Wood, C. David Milton‐Harris, Leanne Chevassut, Timothy West, Michelle J. Mancini, Erika J.
description	B‐cell progenitor fate determinant interferon regulatory factor 4 (IRF4) exerts key roles in the pathogenesis and progression of multiple myeloma (MM), a currently incurable plasma cell malignancy. Aberrant expression of IRF4 and the establishment of a positive auto‐regulatory loop with oncogene MYC, drives a MM specific gene‐expression program leading to the abnormal expansion of malignant immature plasma cells. Targeting the IRF4‐MYC oncogenic loop has the potential to provide a selective and effective therapy for MM. Here we evaluate the use of bromodomain inhibitors to target the IRF4‐MYC axis through combined inhibition of their known epigenetic regulators, BRD4 and CBP/EP300. Although all inhibitors induced cell death, we found no synergistic effect of targeting both of these regulators on the viability of MM cell‐lines. Importantly, for all inhibitors over a time period up to 72 h, we detected reduced IRF4 mRNA, but a limited decrease in IRF4 protein expression or mRNA levels of downstream target genes. This indicates that inhibitor‐induced loss of cell viability is not mediated through reduced IRF4 protein expression, as previously proposed. Further analysis revealed a long half‐life of IRF4 protein in MM cells. In support of our experimental observations, gene network modeling of MM suggests that bromodomain inhibition is exerted primarily through MYC and not IRF4. These findings suggest that despite the autofeedback positive regulatory loop between IRF4 and MYC, bromodomain inhibitors are not effective at targeting IRF4 in MM and that novel therapeutic strategies should focus on the direct inhibition or degradation of IRF4.
doi_str_mv	10.1002/hon.3016
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Although all inhibitors induced cell death, we found no synergistic effect of targeting both of these regulators on the viability of MM cell‐lines. Importantly, for all inhibitors over a time period up to 72 h, we detected reduced IRF4 mRNA, but a limited decrease in IRF4 protein expression or mRNA levels of downstream target genes. This indicates that inhibitor‐induced loss of cell viability is not mediated through reduced IRF4 protein expression, as previously proposed. Further analysis revealed a long half‐life of IRF4 protein in MM cells. In support of our experimental observations, gene network modeling of MM suggests that bromodomain inhibition is exerted primarily through MYC and not IRF4. 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David</creatorcontrib><creatorcontrib>Milton‐Harris, Leanne</creatorcontrib><creatorcontrib>Chevassut, Timothy</creatorcontrib><creatorcontrib>West, Michelle J.</creatorcontrib><creatorcontrib>Mancini, Erika J.</creatorcontrib><title>Dissecting the impact of bromodomain inhibitors on the Interferon Regulatory Factor 4‐MYC oncogenic axis in multiple myeloma</title><title>Hematological oncology</title><addtitle>Hematol Oncol</addtitle><description>B‐cell progenitor fate determinant interferon regulatory factor 4 (IRF4) exerts key roles in the pathogenesis and progression of multiple myeloma (MM), a currently incurable plasma cell malignancy. Aberrant expression of IRF4 and the establishment of a positive auto‐regulatory loop with oncogene MYC, drives a MM specific gene‐expression program leading to the abnormal expansion of malignant immature plasma cells. Targeting the IRF4‐MYC oncogenic loop has the potential to provide a selective and effective therapy for MM. Here we evaluate the use of bromodomain inhibitors to target the IRF4‐MYC axis through combined inhibition of their known epigenetic regulators, BRD4 and CBP/EP300. Although all inhibitors induced cell death, we found no synergistic effect of targeting both of these regulators on the viability of MM cell‐lines. Importantly, for all inhibitors over a time period up to 72 h, we detected reduced IRF4 mRNA, but a limited decrease in IRF4 protein expression or mRNA levels of downstream target genes. This indicates that inhibitor‐induced loss of cell viability is not mediated through reduced IRF4 protein expression, as previously proposed. Further analysis revealed a long half‐life of IRF4 protein in MM cells. In support of our experimental observations, gene network modeling of MM suggests that bromodomain inhibition is exerted primarily through MYC and not IRF4. 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David</au><au>Milton‐Harris, Leanne</au><au>Chevassut, Timothy</au><au>West, Michelle J.</au><au>Mancini, Erika J.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Dissecting the impact of bromodomain inhibitors on the Interferon Regulatory Factor 4‐MYC oncogenic axis in multiple myeloma</atitle><jtitle>Hematological oncology</jtitle><addtitle>Hematol Oncol</addtitle><date>2022-08</date><risdate>2022</risdate><volume>40</volume><issue>3</issue><spage>417</spage><epage>429</epage><pages>417-429</pages><issn>0278-0232</issn><eissn>1099-1069</eissn><abstract>B‐cell progenitor fate determinant interferon regulatory factor 4 (IRF4) exerts key roles in the pathogenesis and progression of multiple myeloma (MM), a currently incurable plasma cell malignancy. Aberrant expression of IRF4 and the establishment of a positive auto‐regulatory loop with oncogene MYC, drives a MM specific gene‐expression program leading to the abnormal expansion of malignant immature plasma cells. Targeting the IRF4‐MYC oncogenic loop has the potential to provide a selective and effective therapy for MM. Here we evaluate the use of bromodomain inhibitors to target the IRF4‐MYC axis through combined inhibition of their known epigenetic regulators, BRD4 and CBP/EP300. Although all inhibitors induced cell death, we found no synergistic effect of targeting both of these regulators on the viability of MM cell‐lines. Importantly, for all inhibitors over a time period up to 72 h, we detected reduced IRF4 mRNA, but a limited decrease in IRF4 protein expression or mRNA levels of downstream target genes. This indicates that inhibitor‐induced loss of cell viability is not mediated through reduced IRF4 protein expression, as previously proposed. 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subjects	BET/BRD4 CBP/EP300 Cell Cycle Proteins - metabolism Cell Cycle Proteins - pharmacology Cell Cycle Proteins - therapeutic use Cell death Cell Line, Tumor Cell Proliferation Cell viability dual inhibition Epigenetics Gene expression Humans Inhibitors Interferon Interferon regulatory factor Interferon regulatory factor 4 Interferon Regulatory Factors - genetics Interferon Regulatory Factors - metabolism IRF4 Malignancy mRNA Multiple myeloma Multiple Myeloma - drug therapy Multiple Myeloma - genetics Multiple Myeloma - metabolism MYC Myc protein Nuclear Proteins - genetics Nuclear Proteins - metabolism Pathogenesis Plasma cells Protein expression Proteins Proto-Oncogene Proteins c-myc - genetics Proto-Oncogene Proteins c-myc - metabolism RNA, Messenger Synergistic effect Transcription Factors - genetics Transcription Factors - metabolism
title	Dissecting the impact of bromodomain inhibitors on the Interferon Regulatory Factor 4‐MYC oncogenic axis in multiple myeloma
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