Cancer-associated histone mutation H2BG53D disrupts DNA-histone octamer interaction and promotes oncogenic phenotypes

Yi Ching Esther Wan; Tsz Chui Sophia Leung; Dongbo Ding; Xulun Sun; Jiaxian Liu; Lina Zhu; Tze Zhen Evangeline Kang; Du Yang; Yuchen Zhang; Jitian Zhang; Chengmin Qian; Michael Shing Yan Huen; Qing Li; Maggie Zi Ying Chow; Zongli Zheng; Junhong Han; Ajay Goel; Xin Wang; Toyotaka Ishibashi; Kui Ming Chan

doi:10.1038/s41392-020-0131-0

Cancer-associated histone mutation H2BG53D disrupts DNA-histone octamer interaction and promotes oncogenic phenotypes

Yi Ching Esther Wan, Tsz Chui Sophia Leung, Dongbo Ding, Xulun Sun, Jiaxian Liu, Lina Zhu, Tze Zhen Evangeline Kang, Du Yang, Yuchen Zhang, Jitian Zhang, Chengmin Qian, Michael Shing Yan Huen, Qing Li, Maggie Zi Ying Chow, Zongli Zheng, Junhong Han, Ajay Goel, Xin Wang^*, Toyotaka Ishibashi^*, Kui Ming Chan^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › Letter › peer-review

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Abstract

Histones are nuclear proteins crucial for the packaging of genomic DNA and regulating gene expression. Recent reports including ours have revealed and characterized mutations in genes encoding histone H3 in a variety of diseases; H3K27M in DIPG and H3K36M in chondroblastoma. These histone H3 mutants alter gene expression via changing histone methylations in trans (K-to-M). However, whether additional driver histone mutations exist in other malignancies remain largely unknown. Here we report the identification of a novel H2BG53-to-D missense mutation in Pancreatic Ductal Adenocarcinoma (PDAC). We show that the substitution of the evolutionarily conserved glycine at H2B-53 to aspartic acid weakens the DNA-histone octamer interaction and alters nucleosome stability. We find that the H2BG53D mutation has not effect on DNA replication or DNA damage repair but enhances transcription elongation in vitro. Using CRISPR-Cas9 approach we generated H2BG53D knockin pancreatic cancer cells expressing the G53D-mutant H2B at physiological level mimicking patient conditions. The H2BG53D mutant cells displayed increased cell migration phenotypes, revealing the cancer promoting effect of the H2BG53D mutation in PDAC.

Original language	English
Article number	27
Journal	Signal Transduction and Targeted Therapy
Volume	5
Online published	6 Mar 2020
DOIs	https://doi.org/10.1038/s41392-020-0131-0
Publication status	Published - 2020

Research Keywords

METHYLATION
REPROGRAMS

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This full text is made available under CC-BY 4.0. https://creativecommons.org/licenses/by/4.0/

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/s41392-020-0131-0

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Wan, Y. C. E., Leung, T. C. S., Ding, D., Sun, X., Liu, J., Zhu, L., Kang, T. Z. E., Yang, D., Zhang, Y., Zhang, J., Qian, C., Huen, M. S. Y., Li, Q., Chow, M. Z. Y., Zheng, Z., Han, J., Goel, A., Wang, X., Ishibashi, T., & Chan, K. M. (2020). Cancer-associated histone mutation H2BG53D disrupts DNA-histone octamer interaction and promotes oncogenic phenotypes. Signal Transduction and Targeted Therapy, 5, Article 27. https://doi.org/10.1038/s41392-020-0131-0

@article{7981f8da57fd41c09de48463628e8591,

title = "Cancer-associated histone mutation H2BG53D disrupts DNA-histone octamer interaction and promotes oncogenic phenotypes",

abstract = "Histones are nuclear proteins crucial for the packaging of genomic DNA and regulating gene expression. Recent reports including ours have revealed and characterized mutations in genes encoding histone H3 in a variety of diseases; H3K27M in DIPG and H3K36M in chondroblastoma. These histone H3 mutants alter gene expression via changing histone methylations in trans (K-to-M). However, whether additional driver histone mutations exist in other malignancies remain largely unknown. Here we report the identification of a novel H2BG53-to-D missense mutation in Pancreatic Ductal Adenocarcinoma (PDAC). We show that the substitution of the evolutionarily conserved glycine at H2B-53 to aspartic acid weakens the DNA-histone octamer interaction and alters nucleosome stability. We find that the H2BG53D mutation has not effect on DNA replication or DNA damage repair but enhances transcription elongation in vitro. Using CRISPR-Cas9 approach we generated H2BG53D knockin pancreatic cancer cells expressing the G53D-mutant H2B at physiological level mimicking patient conditions. The H2BG53D mutant cells displayed increased cell migration phenotypes, revealing the cancer promoting effect of the H2BG53D mutation in PDAC.",

keywords = "METHYLATION, REPROGRAMS",

author = "Wan, {Yi Ching Esther} and Leung, {Tsz Chui Sophia} and Dongbo Ding and Xulun Sun and Jiaxian Liu and Lina Zhu and Kang, {Tze Zhen Evangeline} and Du Yang and Yuchen Zhang and Jitian Zhang and Chengmin Qian and Huen, {Michael Shing Yan} and Qing Li and Chow, {Maggie Zi Ying} and Zongli Zheng and Junhong Han and Ajay Goel and Xin Wang and Toyotaka Ishibashi and Chan, {Kui Ming}",

year = "2020",

doi = "10.1038/s41392-020-0131-0",

language = "English",

volume = "5",

}

Wan, YCE, Leung, TCS, Ding, D, Sun, X, Liu, J , Zhu, L , Kang, TZE, Yang, D, Zhang, Y , Zhang, J, Qian, C, Huen, MSY, Li, Q, Chow, MZY, Zheng, Z, Han, J, Goel, A, Wang, X, Ishibashi, T & Chan, KM 2020, 'Cancer-associated histone mutation H2BG53D disrupts DNA-histone octamer interaction and promotes oncogenic phenotypes', Signal Transduction and Targeted Therapy, vol. 5, 27. https://doi.org/10.1038/s41392-020-0131-0

TY - JOUR

T1 - Cancer-associated histone mutation H2BG53D disrupts DNA-histone octamer interaction and promotes oncogenic phenotypes

AU - Wan, Yi Ching Esther

AU - Leung, Tsz Chui Sophia

AU - Ding, Dongbo

AU - Sun, Xulun

AU - Liu, Jiaxian

AU - Zhu, Lina

AU - Kang, Tze Zhen Evangeline

AU - Yang, Du

AU - Zhang, Yuchen

AU - Zhang, Jitian

AU - Qian, Chengmin

AU - Huen, Michael Shing Yan

AU - Li, Qing

AU - Chow, Maggie Zi Ying

AU - Zheng, Zongli

AU - Han, Junhong

AU - Goel, Ajay

AU - Wang, Xin

AU - Ishibashi, Toyotaka

AU - Chan, Kui Ming

PY - 2020

Y1 - 2020

N2 - Histones are nuclear proteins crucial for the packaging of genomic DNA and regulating gene expression. Recent reports including ours have revealed and characterized mutations in genes encoding histone H3 in a variety of diseases; H3K27M in DIPG and H3K36M in chondroblastoma. These histone H3 mutants alter gene expression via changing histone methylations in trans (K-to-M). However, whether additional driver histone mutations exist in other malignancies remain largely unknown. Here we report the identification of a novel H2BG53-to-D missense mutation in Pancreatic Ductal Adenocarcinoma (PDAC). We show that the substitution of the evolutionarily conserved glycine at H2B-53 to aspartic acid weakens the DNA-histone octamer interaction and alters nucleosome stability. We find that the H2BG53D mutation has not effect on DNA replication or DNA damage repair but enhances transcription elongation in vitro. Using CRISPR-Cas9 approach we generated H2BG53D knockin pancreatic cancer cells expressing the G53D-mutant H2B at physiological level mimicking patient conditions. The H2BG53D mutant cells displayed increased cell migration phenotypes, revealing the cancer promoting effect of the H2BG53D mutation in PDAC.

AB - Histones are nuclear proteins crucial for the packaging of genomic DNA and regulating gene expression. Recent reports including ours have revealed and characterized mutations in genes encoding histone H3 in a variety of diseases; H3K27M in DIPG and H3K36M in chondroblastoma. These histone H3 mutants alter gene expression via changing histone methylations in trans (K-to-M). However, whether additional driver histone mutations exist in other malignancies remain largely unknown. Here we report the identification of a novel H2BG53-to-D missense mutation in Pancreatic Ductal Adenocarcinoma (PDAC). We show that the substitution of the evolutionarily conserved glycine at H2B-53 to aspartic acid weakens the DNA-histone octamer interaction and alters nucleosome stability. We find that the H2BG53D mutation has not effect on DNA replication or DNA damage repair but enhances transcription elongation in vitro. Using CRISPR-Cas9 approach we generated H2BG53D knockin pancreatic cancer cells expressing the G53D-mutant H2B at physiological level mimicking patient conditions. The H2BG53D mutant cells displayed increased cell migration phenotypes, revealing the cancer promoting effect of the H2BG53D mutation in PDAC.

KW - METHYLATION

KW - REPROGRAMS

UR - http://www.scopus.com/inward/record.url?scp=85082020260&partnerID=8YFLogxK

UR - https://www.scopus.com/record/pubmetrics.uri?eid=2-s2.0-85082020260&origin=recordpage

U2 - 10.1038/s41392-020-0131-0

DO - 10.1038/s41392-020-0131-0

M3 - Letter

C2 - 32296031

SN - 2095-9907

VL - 5

JO - Signal Transduction and Targeted Therapy

JF - Signal Transduction and Targeted Therapy

M1 - 27

ER -

Cancer-associated histone mutation H2BG53D disrupts DNA-histone octamer interaction and promotes oncogenic phenotypes

Abstract

Research Keywords

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GRF: Consensus Molecular Subtyping of Pancreatic Ductal Adenocarcinoma and Tumor-intrinsic Regulatory Network Inference from Deconvolved Gene Expression Profiles

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Cancer-associated histone mutation H2BG53D disrupts DNA-histone octamer interaction and promotes oncogenic phenotypes

Abstract

Research Keywords

Publisher's Copyright Statement

UN SDGs

Access Output

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GRF: Consensus Molecular Subtyping of Pancreatic Ductal Adenocarcinoma and Tumor-intrinsic Regulatory Network Inference from Deconvolved Gene Expression Profiles

Cite this