Natural HDAC‐1/8 inhibitor baicalein exerts therapeutic effect in CBF‐AML

Natural HDAC‐1/8 inhibitor baicalein exerts therapeutic effect in CBF‐AML

Abstract Background Although targeting histone deacetylases (HDACs) may be an effective strategy for core binding factor‐acute myeloid leukemia (CBF‐AML) harboring t(8;21) or inv(16), HDAC inhibitors are reported to be limited by drug‐resistant characteristic. Our purpose is to evaluate the anti‐leu...

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Main Authors: Xiaoxuan Yu, Hui Li, Po Hu, Yingjie Qing, Xiangyuan Wang, Mengyuan Zhu, Hongzheng Wang, Zhanyu Wang, Jingyan Xu, Qinglong Guo, Hui Hui
Format: Article
Language:English
Published: Wiley 2020-08-01
Series:Clinical and Translational Medicine
Subjects:
ABC transporter genes
CBF‐AML
differentiation
HDAC‐1/8 inhibitors
natural product
Online Access:https://doi.org/10.1002/ctm2.154
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record_format Article
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language English
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author Xiaoxuan Yu
Hui Li
Po Hu
Yingjie Qing
Xiangyuan Wang
Mengyuan Zhu
Hongzheng Wang
Zhanyu Wang
Jingyan Xu
Qinglong Guo
Hui Hui
spellingShingle Xiaoxuan Yu
Hui Li
Po Hu
Yingjie Qing
Xiangyuan Wang
Mengyuan Zhu
Hongzheng Wang
Zhanyu Wang
Jingyan Xu
Qinglong Guo
Hui Hui
Natural HDAC‐1/8 inhibitor baicalein exerts therapeutic effect in CBF‐AML
Clinical and Translational Medicine
ABC transporter genes
CBF‐AML
differentiation
HDAC‐1/8 inhibitors
natural product
author_facet Xiaoxuan Yu
Hui Li
Po Hu
Yingjie Qing
Xiangyuan Wang
Mengyuan Zhu
Hongzheng Wang
Zhanyu Wang
Jingyan Xu
Qinglong Guo
Hui Hui
author_sort Xiaoxuan Yu
title Natural HDAC‐1/8 inhibitor baicalein exerts therapeutic effect in CBF‐AML
title_short Natural HDAC‐1/8 inhibitor baicalein exerts therapeutic effect in CBF‐AML
title_full Natural HDAC‐1/8 inhibitor baicalein exerts therapeutic effect in CBF‐AML
title_fullStr Natural HDAC‐1/8 inhibitor baicalein exerts therapeutic effect in CBF‐AML
title_full_unstemmed Natural HDAC‐1/8 inhibitor baicalein exerts therapeutic effect in CBF‐AML
title_sort natural hdac‐1/8 inhibitor baicalein exerts therapeutic effect in cbf‐aml
publisher Wiley
series Clinical and Translational Medicine
issn 2001-1326
publishDate 2020-08-01
description Abstract Background Although targeting histone deacetylases (HDACs) may be an effective strategy for core binding factor‐acute myeloid leukemia (CBF‐AML) harboring t(8;21) or inv(16), HDAC inhibitors are reported to be limited by drug‐resistant characteristic. Our purpose is to evaluate the anti‐leukemia effects of Baicalein on CBF‐AML and clarify its underlying mechanism. Methods Enzyme activity assay was used to measure the activity inhibition of HDACs. Rhodamine123 and RT‐qPCR were employed to evaluate the distribution of drugs and the change of ATP‐binding cassette (ABC) transporter genes. CCK8, Annexin V/PI, and FACS staining certified the effects of Baicalein on cell growth, apoptosis, and differentiation. Duolink and IP assay assessed the interaction between HDAC‐1 and ubiquitin, HSP90 and AML1‐ETO, and Ac‐p53 and CBFβ‐MYH11. AML cell lines and primary AML cells‐bearing NOD/SCID mice models were used to evaluate the anti‐leukemic efficiency and potential mechanism of Baicalein in vivo. Results Baicalein showed HDAC‐1/8 inhibition to trigger growth suppression and differentiation induction of AML cell lines and primary AML cells. Although the inhibitory action on HDAC‐1 was mild, Baicalein could induce the degradation of HDAC‐1 via ubiquitin proteasome pathway, thereby upregulating the acetylation of Histone H3 without promoting ABC transporter genes expression. Meanwhile, Baicalein increased the acetylation of HSP90 and lessened its connection to AML1/ETO, consequently leading to degradation of AML1‐ETO in t(8;21)q(22;22) AML cells. In inv(16) AML cells, Baicalein possessed the capacity of apoptosis induction accompanied with p53‐mediated apoptosis genes expression. Moreover, CBFβ‐MYH11‐bound p53 acetylation was restored via HDAC‐8 inhibition induced by Baicalein contributing the diminishing of survival of CD34+ inv(16) AML cells. Conclusions These findings improved the understanding of the epigenetic regulation of Baicalein, and warrant therapeutic potential of Baicalein for CBF‐AML.
topic ABC transporter genes
CBF‐AML
differentiation
HDAC‐1/8 inhibitors
natural product
url https://doi.org/10.1002/ctm2.154
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spelling doaj-de86159d833b4ef69fad68e1ea2ffbbf2021-06-27T09:10:52ZengWileyClinical and Translational Medicine2001-13262020-08-01104n/an/a10.1002/ctm2.154Natural HDAC‐1/8 inhibitor baicalein exerts therapeutic effect in CBF‐AMLXiaoxuan Yu0Hui Li1Po Hu2Yingjie Qing3Xiangyuan Wang4Mengyuan Zhu5Hongzheng Wang6Zhanyu Wang7Jingyan Xu8Qinglong Guo9Hui Hui10State Key Laboratory of Natural Medicines Jiangsu Key Laboratory of Carcinogenesis and Intervention Key Laboratory of Drug Quality Control and Pharmacovigilance Ministry of Education Jiangsu Key Laboratory of Drug Design and Optimization China Pharmaceutical University China Pharmaceutical University Nanjing Jiangsu ChinaState Key Laboratory of Natural Medicines Jiangsu Key Laboratory of Carcinogenesis and Intervention Key Laboratory of Drug Quality Control and Pharmacovigilance Ministry of Education Jiangsu Key Laboratory of Drug Design and Optimization China Pharmaceutical University China Pharmaceutical University Nanjing Jiangsu ChinaState Key Laboratory of Natural Medicines Jiangsu Key Laboratory of Carcinogenesis and Intervention Key Laboratory of Drug Quality Control and Pharmacovigilance Ministry of Education Jiangsu Key Laboratory of Drug Design and Optimization China Pharmaceutical University China Pharmaceutical University Nanjing Jiangsu ChinaState Key Laboratory of Natural Medicines Jiangsu Key Laboratory of Carcinogenesis and Intervention Key Laboratory of Drug Quality Control and Pharmacovigilance Ministry of Education Jiangsu Key Laboratory of Drug Design and Optimization China Pharmaceutical University China Pharmaceutical University Nanjing Jiangsu ChinaState Key Laboratory of Natural Medicines Jiangsu Key Laboratory of Carcinogenesis and Intervention Key Laboratory of Drug Quality Control and Pharmacovigilance Ministry of Education Jiangsu Key Laboratory of Drug Design and Optimization China Pharmaceutical University China Pharmaceutical University Nanjing Jiangsu ChinaState Key Laboratory of Natural Medicines Jiangsu Key Laboratory of Carcinogenesis and Intervention Key Laboratory of Drug Quality Control and Pharmacovigilance Ministry of Education Jiangsu Key Laboratory of Drug Design and Optimization China Pharmaceutical University China Pharmaceutical University Nanjing Jiangsu ChinaState Key Laboratory of Natural Medicines Jiangsu Key Laboratory of Carcinogenesis and Intervention Key Laboratory of Drug Quality Control and Pharmacovigilance Ministry of Education Jiangsu Key Laboratory of Drug Design and Optimization China Pharmaceutical University China Pharmaceutical University Nanjing Jiangsu ChinaState Key Laboratory of Natural Medicines Jiangsu Key Laboratory of Carcinogenesis and Intervention Key Laboratory of Drug Quality Control and Pharmacovigilance Ministry of Education Jiangsu Key Laboratory of Drug Design and Optimization China Pharmaceutical University China Pharmaceutical University Nanjing Jiangsu ChinaDepartment of Hematology The Affiliated DrumTower Hospital of Nanjing University Medical School Nanjing ChinaState Key Laboratory of Natural Medicines Jiangsu Key Laboratory of Carcinogenesis and Intervention Key Laboratory of Drug Quality Control and Pharmacovigilance Ministry of Education Jiangsu Key Laboratory of Drug Design and Optimization China Pharmaceutical University China Pharmaceutical University Nanjing Jiangsu ChinaState Key Laboratory of Natural Medicines Jiangsu Key Laboratory of Carcinogenesis and Intervention Key Laboratory of Drug Quality Control and Pharmacovigilance Ministry of Education Jiangsu Key Laboratory of Drug Design and Optimization China Pharmaceutical University China Pharmaceutical University Nanjing Jiangsu ChinaAbstract Background Although targeting histone deacetylases (HDACs) may be an effective strategy for core binding factor‐acute myeloid leukemia (CBF‐AML) harboring t(8;21) or inv(16), HDAC inhibitors are reported to be limited by drug‐resistant characteristic. Our purpose is to evaluate the anti‐leukemia effects of Baicalein on CBF‐AML and clarify its underlying mechanism. Methods Enzyme activity assay was used to measure the activity inhibition of HDACs. Rhodamine123 and RT‐qPCR were employed to evaluate the distribution of drugs and the change of ATP‐binding cassette (ABC) transporter genes. CCK8, Annexin V/PI, and FACS staining certified the effects of Baicalein on cell growth, apoptosis, and differentiation. Duolink and IP assay assessed the interaction between HDAC‐1 and ubiquitin, HSP90 and AML1‐ETO, and Ac‐p53 and CBFβ‐MYH11. AML cell lines and primary AML cells‐bearing NOD/SCID mice models were used to evaluate the anti‐leukemic efficiency and potential mechanism of Baicalein in vivo. Results Baicalein showed HDAC‐1/8 inhibition to trigger growth suppression and differentiation induction of AML cell lines and primary AML cells. Although the inhibitory action on HDAC‐1 was mild, Baicalein could induce the degradation of HDAC‐1 via ubiquitin proteasome pathway, thereby upregulating the acetylation of Histone H3 without promoting ABC transporter genes expression. Meanwhile, Baicalein increased the acetylation of HSP90 and lessened its connection to AML1/ETO, consequently leading to degradation of AML1‐ETO in t(8;21)q(22;22) AML cells. In inv(16) AML cells, Baicalein possessed the capacity of apoptosis induction accompanied with p53‐mediated apoptosis genes expression. Moreover, CBFβ‐MYH11‐bound p53 acetylation was restored via HDAC‐8 inhibition induced by Baicalein contributing the diminishing of survival of CD34+ inv(16) AML cells. Conclusions These findings improved the understanding of the epigenetic regulation of Baicalein, and warrant therapeutic potential of Baicalein for CBF‐AML.https://doi.org/10.1002/ctm2.154ABC transporter genesCBF‐AMLdifferentiationHDAC‐1/8 inhibitorsnatural product

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