Chemical Inhibition of ENL/AF9 YEATS Domains in Acute Leukemia

Leopold Garnar-Wortzel; Timothy R. Bishop; Seiya Kitamura; Natalia Milosevich; Joshua N. Asiaban; Xiaoyu Zhang; Qinheng Zheng; Emily Chen; Anissa R. Ramos; Christopher J. Ackerman; Eric N. Hampton; Arnab K. Chatterjee; Travis S. Young; Mitchell V. Hull; K. Barry Sharpless; Benjamin F. Cravatt; Dennis W. Wolan; Michael A. Erb

doi:10.1021/acscentsci.0c01550

Chemical Inhibition of ENL/AF9 YEATS Domains in Acute Leukemia

Leopold Garnar-Wortzel, Timothy R. Bishop, Seiya Kitamura, Natalia Milosevich, Joshua N. Asiaban, Xiaoyu Zhang, Qinheng Zheng, Emily Chen, Anissa R. Ramos, Christopher J. Ackerman, Eric N. Hampton, Arnab K. Chatterjee, Travis S. Young, Mitchell V. Hull, K. Barry Sharpless, Benjamin F. Cravatt, Dennis W. Wolan, Michael A. Erb

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

38 Scopus citations

Abstract

Transcriptional coregulators, which mediate chromatin-dependent transcriptional signaling, represent tractable targets to modulate tumorigenic gene expression programs with small molecules. Genetic loss-of-function studies have recently implicated the transcriptional coactivator, ENL, as a selective requirement for the survival of acute leukemia and highlighted an essential role for its chromatin reader YEATS domain. Motivated by these discoveries, we executed a screen of nearly 300,000 small molecules and identified an amido-imidazopyridine inhibitor of the ENL YEATS domain (IC50 = 7 μM). Improvements to the initial screening hit were enabled by adopting and expanding upon a SuFEx-based approach to high-throughput medicinal chemistry, ultimately demonstrating that it is compatible with cell-based drug discovery. Through these efforts, we discovered SR-0813, a potent and selective ENL/AF9 YEATS domain inhibitor (IC50 = 25 nM). Armed with this tool and a first-in-class ENL PROTAC, SR-1114, we detailed the biological response of AML cells to pharmacological ENL disruption for the first time. Most notably, we discovered that ENL YEATS inhibition is sufficient to selectively suppress ENL target genes, including HOXA9/10, MYB, MYC, and a number of other leukemia proto-oncogenes. Cumulatively, our study establishes YEATS domain inhibition as a viable approach to disrupt the pathogenic function of ENL in acute leukemia and provides the first thoroughly characterized chemical probe for the ENL YEATS domain.

Original language	English (US)
Pages (from-to)	815-830
Number of pages	16
Journal	ACS Central Science
Volume	7
Issue number	5
DOIs	https://doi.org/10.1021/acscentsci.0c01550
State	Published - May 26 2021
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
General Chemical Engineering

Access to Document

10.1021/acscentsci.0c01550

Cite this

Garnar-Wortzel, L., Bishop, T. R., Kitamura, S., Milosevich, N., Asiaban, J. N., Zhang, X., Zheng, Q., Chen, E., Ramos, A. R., Ackerman, C. J., Hampton, E. N., Chatterjee, A. K., Young, T. S., Hull, M. V., Sharpless, K. B., Cravatt, B. F., Wolan, D. W., & Erb, M. A. (2021). Chemical Inhibition of ENL/AF9 YEATS Domains in Acute Leukemia. ACS Central Science, 7(5), 815-830. https://doi.org/10.1021/acscentsci.0c01550

Garnar-Wortzel, L, Bishop, TR, Kitamura, S, Milosevich, N, Asiaban, JN, Zhang, X, Zheng, Q, Chen, E, Ramos, AR, Ackerman, CJ, Hampton, EN, Chatterjee, AK, Young, TS, Hull, MV, Sharpless, KB, Cravatt, BF, Wolan, DW & Erb, MA 2021, 'Chemical Inhibition of ENL/AF9 YEATS Domains in Acute Leukemia', ACS Central Science, vol. 7, no. 5, pp. 815-830. https://doi.org/10.1021/acscentsci.0c01550

@article{86ed56b1cd1a48ae8c794dfae845303d,

title = "Chemical Inhibition of ENL/AF9 YEATS Domains in Acute Leukemia",

abstract = "Transcriptional coregulators, which mediate chromatin-dependent transcriptional signaling, represent tractable targets to modulate tumorigenic gene expression programs with small molecules. Genetic loss-of-function studies have recently implicated the transcriptional coactivator, ENL, as a selective requirement for the survival of acute leukemia and highlighted an essential role for its chromatin reader YEATS domain. Motivated by these discoveries, we executed a screen of nearly 300,000 small molecules and identified an amido-imidazopyridine inhibitor of the ENL YEATS domain (IC50 = 7 μM). Improvements to the initial screening hit were enabled by adopting and expanding upon a SuFEx-based approach to high-throughput medicinal chemistry, ultimately demonstrating that it is compatible with cell-based drug discovery. Through these efforts, we discovered SR-0813, a potent and selective ENL/AF9 YEATS domain inhibitor (IC50 = 25 nM). Armed with this tool and a first-in-class ENL PROTAC, SR-1114, we detailed the biological response of AML cells to pharmacological ENL disruption for the first time. Most notably, we discovered that ENL YEATS inhibition is sufficient to selectively suppress ENL target genes, including HOXA9/10, MYB, MYC, and a number of other leukemia proto-oncogenes. Cumulatively, our study establishes YEATS domain inhibition as a viable approach to disrupt the pathogenic function of ENL in acute leukemia and provides the first thoroughly characterized chemical probe for the ENL YEATS domain.",

author = "Leopold Garnar-Wortzel and Bishop, {Timothy R.} and Seiya Kitamura and Natalia Milosevich and Asiaban, {Joshua N.} and Xiaoyu Zhang and Qinheng Zheng and Emily Chen and Ramos, {Anissa R.} and Ackerman, {Christopher J.} and Hampton, {Eric N.} and Chatterjee, {Arnab K.} and Young, {Travis S.} and Hull, {Mitchell V.} and Sharpless, {K. Barry} and Cravatt, {Benjamin F.} and Wolan, {Dennis W.} and Erb, {Michael A.}",

note = "Publisher Copyright: {\textcopyright} 2021 The Authors. Published by American Chemical Society.",

year = "2021",

month = may,

day = "26",

doi = "10.1021/acscentsci.0c01550",

language = "English (US)",

volume = "7",

pages = "815--830",

journal = "ACS Central Science",

issn = "2374-7943",

publisher = "American Chemical Society",

number = "5",

}

TY - JOUR

T1 - Chemical Inhibition of ENL/AF9 YEATS Domains in Acute Leukemia

AU - Garnar-Wortzel, Leopold

AU - Bishop, Timothy R.

AU - Kitamura, Seiya

AU - Milosevich, Natalia

AU - Asiaban, Joshua N.

AU - Zhang, Xiaoyu

AU - Zheng, Qinheng

AU - Chen, Emily

AU - Ramos, Anissa R.

AU - Ackerman, Christopher J.

AU - Hampton, Eric N.

AU - Chatterjee, Arnab K.

AU - Young, Travis S.

AU - Hull, Mitchell V.

AU - Sharpless, K. Barry

AU - Cravatt, Benjamin F.

AU - Wolan, Dennis W.

AU - Erb, Michael A.

PY - 2021/5/26

Y1 - 2021/5/26

N2 - Transcriptional coregulators, which mediate chromatin-dependent transcriptional signaling, represent tractable targets to modulate tumorigenic gene expression programs with small molecules. Genetic loss-of-function studies have recently implicated the transcriptional coactivator, ENL, as a selective requirement for the survival of acute leukemia and highlighted an essential role for its chromatin reader YEATS domain. Motivated by these discoveries, we executed a screen of nearly 300,000 small molecules and identified an amido-imidazopyridine inhibitor of the ENL YEATS domain (IC50 = 7 μM). Improvements to the initial screening hit were enabled by adopting and expanding upon a SuFEx-based approach to high-throughput medicinal chemistry, ultimately demonstrating that it is compatible with cell-based drug discovery. Through these efforts, we discovered SR-0813, a potent and selective ENL/AF9 YEATS domain inhibitor (IC50 = 25 nM). Armed with this tool and a first-in-class ENL PROTAC, SR-1114, we detailed the biological response of AML cells to pharmacological ENL disruption for the first time. Most notably, we discovered that ENL YEATS inhibition is sufficient to selectively suppress ENL target genes, including HOXA9/10, MYB, MYC, and a number of other leukemia proto-oncogenes. Cumulatively, our study establishes YEATS domain inhibition as a viable approach to disrupt the pathogenic function of ENL in acute leukemia and provides the first thoroughly characterized chemical probe for the ENL YEATS domain.

AB - Transcriptional coregulators, which mediate chromatin-dependent transcriptional signaling, represent tractable targets to modulate tumorigenic gene expression programs with small molecules. Genetic loss-of-function studies have recently implicated the transcriptional coactivator, ENL, as a selective requirement for the survival of acute leukemia and highlighted an essential role for its chromatin reader YEATS domain. Motivated by these discoveries, we executed a screen of nearly 300,000 small molecules and identified an amido-imidazopyridine inhibitor of the ENL YEATS domain (IC50 = 7 μM). Improvements to the initial screening hit were enabled by adopting and expanding upon a SuFEx-based approach to high-throughput medicinal chemistry, ultimately demonstrating that it is compatible with cell-based drug discovery. Through these efforts, we discovered SR-0813, a potent and selective ENL/AF9 YEATS domain inhibitor (IC50 = 25 nM). Armed with this tool and a first-in-class ENL PROTAC, SR-1114, we detailed the biological response of AML cells to pharmacological ENL disruption for the first time. Most notably, we discovered that ENL YEATS inhibition is sufficient to selectively suppress ENL target genes, including HOXA9/10, MYB, MYC, and a number of other leukemia proto-oncogenes. Cumulatively, our study establishes YEATS domain inhibition as a viable approach to disrupt the pathogenic function of ENL in acute leukemia and provides the first thoroughly characterized chemical probe for the ENL YEATS domain.

UR - http://www.scopus.com/inward/record.url?scp=85106621450&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85106621450&partnerID=8YFLogxK

U2 - 10.1021/acscentsci.0c01550

DO - 10.1021/acscentsci.0c01550

M3 - Article

AN - SCOPUS:85106621450

SN - 2374-7943

VL - 7

SP - 815

EP - 830

JO - ACS Central Science

JF - ACS Central Science

IS - 5

ER -

Chemical Inhibition of ENL/AF9 YEATS Domains in Acute Leukemia

Abstract

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Cite this