Discovery and characterization of small molecules targeting the DNA-binding ETS domain of ERG in prostate cancer

Miriam S. Butler; Mani Roshan-Moniri; Michael Hsing; Desmond Lau; Ari Kim; Paul Yen; Marta Mroczek; Mannan Nouri; Scott Lien; Peter Axerio Cilies; Kush Dalal; Clement Yau; Fariba Ghaidi; Yubin Guo; Takeshi Yamazaki; Sam Lawn; Martin E. Gleave; Cheryl Y. Gregory-Evans; Lawrence P. McIntosh; Michael E. Cox; Paul S. Rennie; Artem Cherkasov

doi:10.18632/oncotarget.17124

Discovery and characterization of small molecules targeting the DNA-binding ETS domain of ERG in prostate cancer

Miriam S. Butler
, Mani Roshan-Moniri
, Michael Hsing
, Desmond Lau
, Ari Kim
, Paul Yen
, Marta Mroczek
, Mannan Nouri
, Scott Lien
, Peter Axerio Cilies
, Kush Dalal
, Clement Yau
, Fariba Ghaidi
, Yubin Guo
, Takeshi Yamazaki
, Sam Lawn
, Martin E. Gleave
, Cheryl Y. Gregory-Evans
, Lawrence P. McIntosh
, Michael E. Cox

Paul S. Rennie, Artem Cherkasov

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

39 Citations (Scopus)

Abstract

Genomic alterations involving translocations of the ETS-related gene ERG occur in approximately half of prostate cancer cases. These alterations result in aberrant, androgen-regulated production of ERG protein variants that directly contribute to disease development and progression. This study describes the discovery and characterization of a new class of small molecule ERG antagonists identified through rational in silico methods. These antagonists are designed to sterically block DNA binding by the ETS domain of ERG and thereby disrupt transcriptional activity. We confirmed the direct binding of a lead compound, VPC-18005, with the ERG-ETS domain using biophysical approaches. We then demonstrated VPC-18005 reduced migration and invasion rates of ERG expressing prostate cancer cells, and reduced metastasis in a zebrafish xenograft model. These results demonstrate proof-of-principal that small molecule targeting of the ERG-ETS domain can suppress transcriptional activity and reverse transformed characteristics of prostate cancers aberrantly expressing ERG. Clinical advancement of the developed small molecule inhibitors may provide new therapeutic agents for use as alternatives to, or in combination with, current therapies for men with ERG-expressing metastatic castration-resistant prostate cancer.

Original language	English
Pages (from-to)	42438-42454
Number of pages	17
Journal	Oncotarget
Volume	8
Issue number	26
DOIs	https://doi.org/10.18632/oncotarget.17124
Publication status	Published - 2017
Externally published	Yes

Keywords

ERG
Prostate cancer
Rational drug design
Small molecule inhibitor
TMPRSS2-ERG

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10.18632/oncotarget.17124

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Butler, M. S., Roshan-Moniri, M., Hsing, M., Lau, D., Kim, A., Yen, P., Mroczek, M., Nouri, M., Lien, S., Cilies, P. A., Dalal, K., Yau, C., Ghaidi, F., Guo, Y., Yamazaki, T., Lawn, S., Gleave, M. E., Gregory-Evans, C. Y., McIntosh, L. P., ... Cherkasov, A. (2017). Discovery and characterization of small molecules targeting the DNA-binding ETS domain of ERG in prostate cancer. Oncotarget, 8(26), 42438-42454. https://doi.org/10.18632/oncotarget.17124

@article{38681006c2aa4db990764f931528192a,

title = "Discovery and characterization of small molecules targeting the DNA-binding ETS domain of ERG in prostate cancer",

abstract = "Genomic alterations involving translocations of the ETS-related gene ERG occur in approximately half of prostate cancer cases. These alterations result in aberrant, androgen-regulated production of ERG protein variants that directly contribute to disease development and progression. This study describes the discovery and characterization of a new class of small molecule ERG antagonists identified through rational in silico methods. These antagonists are designed to sterically block DNA binding by the ETS domain of ERG and thereby disrupt transcriptional activity. We confirmed the direct binding of a lead compound, VPC-18005, with the ERG-ETS domain using biophysical approaches. We then demonstrated VPC-18005 reduced migration and invasion rates of ERG expressing prostate cancer cells, and reduced metastasis in a zebrafish xenograft model. These results demonstrate proof-of-principal that small molecule targeting of the ERG-ETS domain can suppress transcriptional activity and reverse transformed characteristics of prostate cancers aberrantly expressing ERG. Clinical advancement of the developed small molecule inhibitors may provide new therapeutic agents for use as alternatives to, or in combination with, current therapies for men with ERG-expressing metastatic castration-resistant prostate cancer.",

keywords = "ERG, Prostate cancer, Rational drug design, Small molecule inhibitor, TMPRSS2-ERG",

author = "Butler, \{Miriam S.\} and Mani Roshan-Moniri and Michael Hsing and Desmond Lau and Ari Kim and Paul Yen and Marta Mroczek and Mannan Nouri and Scott Lien and Cilies, \{Peter Axerio\} and Kush Dalal and Clement Yau and Fariba Ghaidi and Yubin Guo and Takeshi Yamazaki and Sam Lawn and Gleave, \{Martin E.\} and Gregory-Evans, \{Cheryl Y.\} and McIntosh, \{Lawrence P.\} and Cox, \{Michael E.\} and Rennie, \{Paul S.\} and Artem Cherkasov",

note = "Publisher Copyright: {\textcopyright} Miriam S. Butler et al.",

year = "2017",

doi = "10.18632/oncotarget.17124",

language = "English",

volume = "8",

pages = "42438--42454",

journal = "Oncotarget",

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Butler, MS, Roshan-Moniri, M, Hsing, M, Lau, D, Kim, A, Yen, P, Mroczek, M, Nouri, M, Lien, S, Cilies, PA, Dalal, K, Yau, C, Ghaidi, F, Guo, Y, Yamazaki, T, Lawn, S, Gleave, ME, Gregory-Evans, CY, McIntosh, LP, Cox, ME, Rennie, PS & Cherkasov, A 2017, 'Discovery and characterization of small molecules targeting the DNA-binding ETS domain of ERG in prostate cancer', Oncotarget, vol. 8, no. 26, pp. 42438-42454. https://doi.org/10.18632/oncotarget.17124

TY - JOUR

T1 - Discovery and characterization of small molecules targeting the DNA-binding ETS domain of ERG in prostate cancer

AU - Butler, Miriam S.

AU - Roshan-Moniri, Mani

AU - Hsing, Michael

AU - Lau, Desmond

AU - Kim, Ari

AU - Yen, Paul

AU - Mroczek, Marta

AU - Nouri, Mannan

AU - Lien, Scott

AU - Cilies, Peter Axerio

AU - Dalal, Kush

AU - Yau, Clement

AU - Ghaidi, Fariba

AU - Guo, Yubin

AU - Yamazaki, Takeshi

AU - Lawn, Sam

AU - Gleave, Martin E.

AU - Gregory-Evans, Cheryl Y.

AU - McIntosh, Lawrence P.

AU - Cox, Michael E.

AU - Rennie, Paul S.

AU - Cherkasov, Artem

PY - 2017

Y1 - 2017

N2 - Genomic alterations involving translocations of the ETS-related gene ERG occur in approximately half of prostate cancer cases. These alterations result in aberrant, androgen-regulated production of ERG protein variants that directly contribute to disease development and progression. This study describes the discovery and characterization of a new class of small molecule ERG antagonists identified through rational in silico methods. These antagonists are designed to sterically block DNA binding by the ETS domain of ERG and thereby disrupt transcriptional activity. We confirmed the direct binding of a lead compound, VPC-18005, with the ERG-ETS domain using biophysical approaches. We then demonstrated VPC-18005 reduced migration and invasion rates of ERG expressing prostate cancer cells, and reduced metastasis in a zebrafish xenograft model. These results demonstrate proof-of-principal that small molecule targeting of the ERG-ETS domain can suppress transcriptional activity and reverse transformed characteristics of prostate cancers aberrantly expressing ERG. Clinical advancement of the developed small molecule inhibitors may provide new therapeutic agents for use as alternatives to, or in combination with, current therapies for men with ERG-expressing metastatic castration-resistant prostate cancer.

AB - Genomic alterations involving translocations of the ETS-related gene ERG occur in approximately half of prostate cancer cases. These alterations result in aberrant, androgen-regulated production of ERG protein variants that directly contribute to disease development and progression. This study describes the discovery and characterization of a new class of small molecule ERG antagonists identified through rational in silico methods. These antagonists are designed to sterically block DNA binding by the ETS domain of ERG and thereby disrupt transcriptional activity. We confirmed the direct binding of a lead compound, VPC-18005, with the ERG-ETS domain using biophysical approaches. We then demonstrated VPC-18005 reduced migration and invasion rates of ERG expressing prostate cancer cells, and reduced metastasis in a zebrafish xenograft model. These results demonstrate proof-of-principal that small molecule targeting of the ERG-ETS domain can suppress transcriptional activity and reverse transformed characteristics of prostate cancers aberrantly expressing ERG. Clinical advancement of the developed small molecule inhibitors may provide new therapeutic agents for use as alternatives to, or in combination with, current therapies for men with ERG-expressing metastatic castration-resistant prostate cancer.

KW - ERG

KW - Prostate cancer

KW - Rational drug design

KW - Small molecule inhibitor

KW - TMPRSS2-ERG

UR - https://www.scopus.com/pages/publications/85021262494

U2 - 10.18632/oncotarget.17124

DO - 10.18632/oncotarget.17124

M3 - Article

AN - SCOPUS:85021262494

SN - 1949-2553

VL - 8

SP - 42438

EP - 42454

JO - Oncotarget

JF - Oncotarget

IS - 26

ER -

Discovery and characterization of small molecules targeting the DNA-binding ETS domain of ERG in prostate cancer

Abstract

Keywords

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