Prolonged re-expression of the hypermethylated gene EPB41L3 using artificial transcription factors and epigenetic drugs

Christian Huisman; Monique G. P. van der Wijst; Fahimeh Falahi; Juul Overkamp; Gellert Karsten; Martijn M. Terpstra; Klaas Kok; Ate G. J. van der Zee; Ed Schuuring; G. Bea A. Wisman; Marianne G. Rots

doi:10.1080/15592294.2015.1034415

Prolonged re-expression of the hypermethylated gene EPB41L3 using artificial transcription factors and epigenetic drugs

Christian Huisman^*
, Monique G. P. van der Wijst
, Fahimeh Falahi
, Juul Overkamp
, Gellert Karsten
, Martijn M. Terpstra
, Klaas Kok
, Ate G. J. van der Zee
, Ed Schuuring
, G. Bea A. Wisman
, Marianne G. Rots

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

26 Citations (Scopus)

Abstract

Epigenetic silencing of tumor suppressor genes (TSGs) is considered a significant event in the progression of cancer. For example, EPB41L3, a potential biomarker in cervical cancer, is often silenced by cancer-specific promoter methylation. Artificial transcription factors (ATFs) are unique tools to re-express such silenced TSGs to functional levels; however, the induced effects are considered transient. Here, we aimed to improve the efficiency and sustainability of gene re-expression using engineered zinc fingers fused to VP64 (ZF-ATFs) or DNA methylation modifiers (ZF-Tet2 or ZF-TDG) and/or by co-treatment with epigenetic drugs [5-aza-dC2'-deoxycytidine or Trichostatin A (TSA)]. EPB41L3-ZF effectively bound its methylated endogenous locus, as also confirmed by ChIP-seq. ZF-ATFs reactivated the epigenetically silenced target gene EPB41L3 (˜10-fold) in breast, ovarian, and cervical cancer cell lines. Prolonged high levels of EPB41L3 (˜150-fold) induction could be achieved by short-term co-treatment with epigenetic drugs. Interestingly, for otherwise ineffective ZF-Tet2 or ZF-TDG treatments, TSA facilitated re-expression of EPB41L3 by up to twofold. ATF-mediated re-expression demonstrated a tumor suppressive role for EPB41L3 in cervical cancer cell lines. In conclusion, epigenetic reprogramming provides a novel way to improve sustainability of re-expression of epigenetically silenced promoters.

Original language	English
Pages (from-to)	384-396
Number of pages	13
Journal	Epigenetics
Volume	10
Issue number	5
DOIs	https://doi.org/10.1080/15592294.2015.1034415
Publication status	Published - 4-May-2015

Keywords

anti-cancer drug response
novel antitumor agents
epigenome editing
methylation biomarkers
DNA demethylases
artificial transcription factors
CERVICAL INTRAEPITHELIAL NEOPLASIA
HISTONE DEACETYLASE INHIBITORS
DNA METHYLATION
CANCER-CELLS
PROSTATE-CANCER
BREAST-CANCER
EXPRESSION
DEMETHYLATION
REACTIVATION
ACTIVATION

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Huisman, C., van der Wijst, M. G. P., Falahi, F., Overkamp, J., Karsten, G., Terpstra, M. M., Kok, K., van der Zee, A. G. J., Schuuring, E., Wisman, G. B. A., & Rots, M. G. (2015). Prolonged re-expression of the hypermethylated gene EPB41L3 using artificial transcription factors and epigenetic drugs. Epigenetics, 10(5), 384-396. https://doi.org/10.1080/15592294.2015.1034415

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title = "Prolonged re-expression of the hypermethylated gene EPB41L3 using artificial transcription factors and epigenetic drugs",

abstract = "Epigenetic silencing of tumor suppressor genes (TSGs) is considered a significant event in the progression of cancer. For example, EPB41L3, a potential biomarker in cervical cancer, is often silenced by cancer-specific promoter methylation. Artificial transcription factors (ATFs) are unique tools to re-express such silenced TSGs to functional levels; however, the induced effects are considered transient. Here, we aimed to improve the efficiency and sustainability of gene re-expression using engineered zinc fingers fused to VP64 (ZF-ATFs) or DNA methylation modifiers (ZF-Tet2 or ZF-TDG) and/or by co-treatment with epigenetic drugs [5-aza-dC2'-deoxycytidine or Trichostatin A (TSA)]. EPB41L3-ZF effectively bound its methylated endogenous locus, as also confirmed by ChIP-seq. ZF-ATFs reactivated the epigenetically silenced target gene EPB41L3 (˜10-fold) in breast, ovarian, and cervical cancer cell lines. Prolonged high levels of EPB41L3 (˜150-fold) induction could be achieved by short-term co-treatment with epigenetic drugs. Interestingly, for otherwise ineffective ZF-Tet2 or ZF-TDG treatments, TSA facilitated re-expression of EPB41L3 by up to twofold. ATF-mediated re-expression demonstrated a tumor suppressive role for EPB41L3 in cervical cancer cell lines. In conclusion, epigenetic reprogramming provides a novel way to improve sustainability of re-expression of epigenetically silenced promoters.",

keywords = "anti-cancer drug response, novel antitumor agents, epigenome editing, methylation biomarkers, DNA demethylases, artificial transcription factors, CERVICAL INTRAEPITHELIAL NEOPLASIA, HISTONE DEACETYLASE INHIBITORS, DNA METHYLATION, CANCER-CELLS, PROSTATE-CANCER, BREAST-CANCER, EXPRESSION, DEMETHYLATION, REACTIVATION, ACTIVATION",

author = "Christian Huisman and \{van der Wijst\}, \{Monique G. P.\} and Fahimeh Falahi and Juul Overkamp and Gellert Karsten and Terpstra, \{Martijn M.\} and Klaas Kok and \{van der Zee\}, \{Ate G. J.\} and Ed Schuuring and Wisman, \{G. Bea A.\} and Rots, \{Marianne G.\}",

year = "2015",

month = may,

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doi = "10.1080/15592294.2015.1034415",

language = "English",

volume = "10",

pages = "384--396",

journal = "Epigenetics",

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T1 - Prolonged re-expression of the hypermethylated gene EPB41L3 using artificial transcription factors and epigenetic drugs

AU - Huisman, Christian

AU - van der Wijst, Monique G. P.

AU - Falahi, Fahimeh

AU - Overkamp, Juul

AU - Karsten, Gellert

AU - Terpstra, Martijn M.

AU - Kok, Klaas

AU - van der Zee, Ate G. J.

AU - Schuuring, Ed

AU - Wisman, G. Bea A.

AU - Rots, Marianne G.

PY - 2015/5/4

Y1 - 2015/5/4

N2 - Epigenetic silencing of tumor suppressor genes (TSGs) is considered a significant event in the progression of cancer. For example, EPB41L3, a potential biomarker in cervical cancer, is often silenced by cancer-specific promoter methylation. Artificial transcription factors (ATFs) are unique tools to re-express such silenced TSGs to functional levels; however, the induced effects are considered transient. Here, we aimed to improve the efficiency and sustainability of gene re-expression using engineered zinc fingers fused to VP64 (ZF-ATFs) or DNA methylation modifiers (ZF-Tet2 or ZF-TDG) and/or by co-treatment with epigenetic drugs [5-aza-dC2'-deoxycytidine or Trichostatin A (TSA)]. EPB41L3-ZF effectively bound its methylated endogenous locus, as also confirmed by ChIP-seq. ZF-ATFs reactivated the epigenetically silenced target gene EPB41L3 (˜10-fold) in breast, ovarian, and cervical cancer cell lines. Prolonged high levels of EPB41L3 (˜150-fold) induction could be achieved by short-term co-treatment with epigenetic drugs. Interestingly, for otherwise ineffective ZF-Tet2 or ZF-TDG treatments, TSA facilitated re-expression of EPB41L3 by up to twofold. ATF-mediated re-expression demonstrated a tumor suppressive role for EPB41L3 in cervical cancer cell lines. In conclusion, epigenetic reprogramming provides a novel way to improve sustainability of re-expression of epigenetically silenced promoters.

AB - Epigenetic silencing of tumor suppressor genes (TSGs) is considered a significant event in the progression of cancer. For example, EPB41L3, a potential biomarker in cervical cancer, is often silenced by cancer-specific promoter methylation. Artificial transcription factors (ATFs) are unique tools to re-express such silenced TSGs to functional levels; however, the induced effects are considered transient. Here, we aimed to improve the efficiency and sustainability of gene re-expression using engineered zinc fingers fused to VP64 (ZF-ATFs) or DNA methylation modifiers (ZF-Tet2 or ZF-TDG) and/or by co-treatment with epigenetic drugs [5-aza-dC2'-deoxycytidine or Trichostatin A (TSA)]. EPB41L3-ZF effectively bound its methylated endogenous locus, as also confirmed by ChIP-seq. ZF-ATFs reactivated the epigenetically silenced target gene EPB41L3 (˜10-fold) in breast, ovarian, and cervical cancer cell lines. Prolonged high levels of EPB41L3 (˜150-fold) induction could be achieved by short-term co-treatment with epigenetic drugs. Interestingly, for otherwise ineffective ZF-Tet2 or ZF-TDG treatments, TSA facilitated re-expression of EPB41L3 by up to twofold. ATF-mediated re-expression demonstrated a tumor suppressive role for EPB41L3 in cervical cancer cell lines. In conclusion, epigenetic reprogramming provides a novel way to improve sustainability of re-expression of epigenetically silenced promoters.

KW - anti-cancer drug response

KW - novel antitumor agents

KW - epigenome editing

KW - methylation biomarkers

KW - DNA demethylases

KW - artificial transcription factors

KW - CERVICAL INTRAEPITHELIAL NEOPLASIA

KW - HISTONE DEACETYLASE INHIBITORS

KW - DNA METHYLATION

KW - CANCER-CELLS

KW - PROSTATE-CANCER

KW - BREAST-CANCER

KW - EXPRESSION

KW - DEMETHYLATION

KW - REACTIVATION

KW - ACTIVATION

U2 - 10.1080/15592294.2015.1034415

DO - 10.1080/15592294.2015.1034415

M3 - Article

C2 - 25830725

SN - 1559-2294

VL - 10

SP - 384

EP - 396

JO - Epigenetics

JF - Epigenetics

IS - 5

ER -

Prolonged re-expression of the hypermethylated gene EPB41L3 using artificial transcription factors and epigenetic drugs

Abstract

Keywords

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