A Multipronged Approach Establishes Covalent Modification of β-Tubulin as the Mode of Action of Benzamide Anti-cancer Toxins

Juan Manuel Povedano; Rameshu Rallabandi; Xin Bai; Xuecheng Ye; Joel Liou; Hong Chen; Jiwoong Kim; Yang Xie; Bruce Posner; Luke Rice; Jef K. De Brabander; David G. McFadden

doi:10.1021/acs.jmedchem.0c01482

A Multipronged Approach Establishes Covalent Modification of β-Tubulin as the Mode of Action of Benzamide Anti-cancer Toxins

Juan Manuel Povedano, Rameshu Rallabandi, Xin Bai, Xuecheng Ye, Joel Liou, Hong Chen, Jiwoong Kim, Yang Xie, Bruce Posner, Luke Rice, Jef K. De Brabander, David G. McFadden

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

3 Scopus citations

Abstract

A phenotypic high-throughput screen identified a benzamide small molecule with activity against small cell lung cancer cells. A "clickable"benzamide probe was designed that irreversibly bound a single 50 kDa cellular protein, identified by mass spectrometry as β-tubulin. Moreover, the anti-cancer potency of a series of benzamide analogs strongly correlated with probe competition, indicating that β-tubulin was the functional target. Additional evidence suggested that benzamides covalently modified Cys239 within the colchicine binding site. Consistent with this mechanism, benzamides impaired growth of microtubules formed with β-tubulin harboring Cys239, but not β3 tubulin encoding Ser239. We therefore designed an aldehyde-containing analog capable of trapping Ser239 in β3 tubulin, presumably as a hemiacetal. Using a forward genetics strategy, we identified benzamide-resistant cell lines harboring a Thr238Ala mutation in β-tubulin sufficient to induce compound resistance. The disclosed chemical probes are useful to identify other colchicine site binders, a frequent target of structurally diverse small molecules.

Original language	English (US)
Pages (from-to)	14054-14066
Number of pages	13
Journal	Journal of Medicinal Chemistry
Volume	63
Issue number	22
DOIs	https://doi.org/10.1021/acs.jmedchem.0c01482
State	Published - Nov 25 2020
Externally published	Yes

ASJC Scopus subject areas

Molecular Medicine
Drug Discovery

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10.1021/acs.jmedchem.0c01482

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Povedano, J. M., Rallabandi, R., Bai, X., Ye, X., Liou, J., Chen, H., Kim, J., Xie, Y., Posner, B., Rice, L., De Brabander, J. K., & McFadden, D. G. (2020). A Multipronged Approach Establishes Covalent Modification of β-Tubulin as the Mode of Action of Benzamide Anti-cancer Toxins. Journal of Medicinal Chemistry, 63(22), 14054-14066. https://doi.org/10.1021/acs.jmedchem.0c01482

Povedano, JM, Rallabandi, R, Bai, X, Ye, X, Liou, J, Chen, H, Kim, J, Xie, Y , Posner, B , Rice, L , De Brabander, JK & McFadden, DG 2020, 'A Multipronged Approach Establishes Covalent Modification of β-Tubulin as the Mode of Action of Benzamide Anti-cancer Toxins', Journal of Medicinal Chemistry, vol. 63, no. 22, pp. 14054-14066. https://doi.org/10.1021/acs.jmedchem.0c01482

@article{789ec97db73d4c508408c1d4c0781247,

title = "A Multipronged Approach Establishes Covalent Modification of β-Tubulin as the Mode of Action of Benzamide Anti-cancer Toxins",

abstract = "A phenotypic high-throughput screen identified a benzamide small molecule with activity against small cell lung cancer cells. A {"}clickable{"}benzamide probe was designed that irreversibly bound a single 50 kDa cellular protein, identified by mass spectrometry as β-tubulin. Moreover, the anti-cancer potency of a series of benzamide analogs strongly correlated with probe competition, indicating that β-tubulin was the functional target. Additional evidence suggested that benzamides covalently modified Cys239 within the colchicine binding site. Consistent with this mechanism, benzamides impaired growth of microtubules formed with β-tubulin harboring Cys239, but not β3 tubulin encoding Ser239. We therefore designed an aldehyde-containing analog capable of trapping Ser239 in β3 tubulin, presumably as a hemiacetal. Using a forward genetics strategy, we identified benzamide-resistant cell lines harboring a Thr238Ala mutation in β-tubulin sufficient to induce compound resistance. The disclosed chemical probes are useful to identify other colchicine site binders, a frequent target of structurally diverse small molecules.",

author = "Povedano, {Juan Manuel} and Rameshu Rallabandi and Xin Bai and Xuecheng Ye and Joel Liou and Hong Chen and Jiwoong Kim and Yang Xie and Bruce Posner and Luke Rice and {De Brabander}, {Jef K.} and McFadden, {David G.}",

note = "Funding Information: This work was funded through a UT Southwestern Dean{\textquoteright}s Circle of Friends Pilot Synergy Grant. J.K.D.B. acknowledges support from the Welch Foundation (Grant I-1422) and holds the Julie and Louis Beecherl, Jr., Chair in Medical Science. D.G.M. acknowledges support from the Welch Foundation (Grant I-2040), the Disease Oriented Scholars Program at UT Southwestern, a Clinical Investigator Award from the Damon Runyon Cancer Research Foundation (102-19), the Cancer Prevention and Research Institute of Texas (RR140084 and RP190141), and the National Cancer Institute of the NIH (U54CA231649). J.M.P. is supported by a fellowship from the Chilton Family Foundation. HRMS data were obtained from the Shimadzu Center for Advanced Analytical Chemistry (SCAAC) at UT Arlington. Work in the laboratory of L.M.R. was supported by the NIH (R01-GM098543) and the Welch Foundation (Grant I-1908). Andrew Lemoff and colleagues at the UT Southwestern Medical Center Proteomics Core Facility performed mass spectrometry analysis on benzamide-bound proteins. We thank John Minna and Adi Gazdar for sharing human SCLC cell lines. We thank Deepak Nijhawan for critically reading the manuscript and for numerous helpful discussions. We thank Kuanqing Liu for critically reading the manuscript. Publisher Copyright: {\textcopyright} ",

year = "2020",

month = nov,

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doi = "10.1021/acs.jmedchem.0c01482",

language = "English (US)",

volume = "63",

pages = "14054--14066",

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T1 - A Multipronged Approach Establishes Covalent Modification of β-Tubulin as the Mode of Action of Benzamide Anti-cancer Toxins

AU - Povedano, Juan Manuel

AU - Rallabandi, Rameshu

AU - Bai, Xin

AU - Ye, Xuecheng

AU - Liou, Joel

AU - Chen, Hong

AU - Kim, Jiwoong

AU - Xie, Yang

AU - Posner, Bruce

AU - Rice, Luke

AU - De Brabander, Jef K.

AU - McFadden, David G.

N1 - Funding Information: This work was funded through a UT Southwestern Dean’s Circle of Friends Pilot Synergy Grant. J.K.D.B. acknowledges support from the Welch Foundation (Grant I-1422) and holds the Julie and Louis Beecherl, Jr., Chair in Medical Science. D.G.M. acknowledges support from the Welch Foundation (Grant I-2040), the Disease Oriented Scholars Program at UT Southwestern, a Clinical Investigator Award from the Damon Runyon Cancer Research Foundation (102-19), the Cancer Prevention and Research Institute of Texas (RR140084 and RP190141), and the National Cancer Institute of the NIH (U54CA231649). J.M.P. is supported by a fellowship from the Chilton Family Foundation. HRMS data were obtained from the Shimadzu Center for Advanced Analytical Chemistry (SCAAC) at UT Arlington. Work in the laboratory of L.M.R. was supported by the NIH (R01-GM098543) and the Welch Foundation (Grant I-1908). Andrew Lemoff and colleagues at the UT Southwestern Medical Center Proteomics Core Facility performed mass spectrometry analysis on benzamide-bound proteins. We thank John Minna and Adi Gazdar for sharing human SCLC cell lines. We thank Deepak Nijhawan for critically reading the manuscript and for numerous helpful discussions. We thank Kuanqing Liu for critically reading the manuscript. Publisher Copyright: ©

PY - 2020/11/25

Y1 - 2020/11/25

N2 - A phenotypic high-throughput screen identified a benzamide small molecule with activity against small cell lung cancer cells. A "clickable"benzamide probe was designed that irreversibly bound a single 50 kDa cellular protein, identified by mass spectrometry as β-tubulin. Moreover, the anti-cancer potency of a series of benzamide analogs strongly correlated with probe competition, indicating that β-tubulin was the functional target. Additional evidence suggested that benzamides covalently modified Cys239 within the colchicine binding site. Consistent with this mechanism, benzamides impaired growth of microtubules formed with β-tubulin harboring Cys239, but not β3 tubulin encoding Ser239. We therefore designed an aldehyde-containing analog capable of trapping Ser239 in β3 tubulin, presumably as a hemiacetal. Using a forward genetics strategy, we identified benzamide-resistant cell lines harboring a Thr238Ala mutation in β-tubulin sufficient to induce compound resistance. The disclosed chemical probes are useful to identify other colchicine site binders, a frequent target of structurally diverse small molecules.

AB - A phenotypic high-throughput screen identified a benzamide small molecule with activity against small cell lung cancer cells. A "clickable"benzamide probe was designed that irreversibly bound a single 50 kDa cellular protein, identified by mass spectrometry as β-tubulin. Moreover, the anti-cancer potency of a series of benzamide analogs strongly correlated with probe competition, indicating that β-tubulin was the functional target. Additional evidence suggested that benzamides covalently modified Cys239 within the colchicine binding site. Consistent with this mechanism, benzamides impaired growth of microtubules formed with β-tubulin harboring Cys239, but not β3 tubulin encoding Ser239. We therefore designed an aldehyde-containing analog capable of trapping Ser239 in β3 tubulin, presumably as a hemiacetal. Using a forward genetics strategy, we identified benzamide-resistant cell lines harboring a Thr238Ala mutation in β-tubulin sufficient to induce compound resistance. The disclosed chemical probes are useful to identify other colchicine site binders, a frequent target of structurally diverse small molecules.

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DO - 10.1021/acs.jmedchem.0c01482

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AN - SCOPUS:85096525764

SN - 0022-2623

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SP - 14054

EP - 14066

JO - Journal of Medicinal Chemistry

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ER -

A Multipronged Approach Establishes Covalent Modification of β-Tubulin as the Mode of Action of Benzamide Anti-cancer Toxins

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