Single Dose of a Small Molecule Leads to Complete Regressions of Large Breast Tumors in Mice

Michael P. Mulligan; Matthew W. Boudreau; Brooke A. Bouwens; Yoongyeong Lee; Hunter W. Carrell; Junyao Zhu; Spyro Mousses; David J. Shapiro; Erik R. Nelson; Timothy M. Fan; Paul J. Hergenrother

doi:10.1021/acscentsci.4c01628

Single Dose of a Small Molecule Leads to Complete Regressions of Large Breast Tumors in Mice

Michael P. Mulligan, Matthew W. Boudreau, Brooke A. Bouwens, Yoongyeong Lee, Hunter W. Carrell, Junyao Zhu, Spyro Mousses, David J. Shapiro, Erik R. Nelson, Timothy M. Fan, Paul J. Hergenrother

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

Abstract

Patients with estrogen receptor α positive (ERα+) breast cancer typically undergo surgical resection, followed by 5-10 years of treatment with adjuvant endocrine therapy. This prolonged intervention is associated with a host of undesired side effects that reduce patient compliance, and ultimately therapeutic resistance and disease relapse/progression are common. An ideal anticancer therapy would be effective against recurrent and refractory disease with minimal dosing; however, there is little precedent for marked tumor regression with a single dose of a small molecule therapeutic. Herein we report ErSO-TFPy as a small molecule that induces quantitative or near-quantitative regression of tumors in multiple mouse models of breast cancer with a single dose. Importantly, this effect is robust and independent of tumor size with eradication of even very large tumors (500−1500 mm³) observed. Mechanistically, these tumor regressions are a consequence of rapid induction of necrotic cell death in the tumor and are immune cell independent. If successfully translated to human cancer patients, the benefits of such an anticancer drug that is effective with a single dose would be significant.

Original language	English (US)
Pages (from-to)	228-238
Number of pages	11
Journal	ACS Central Science
Volume	11
Issue number	2
Early online date	Jan 22 2025
DOIs	https://doi.org/10.1021/acscentsci.4c01628
State	Published - Feb 26 2025

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General Chemistry
General Chemical Engineering

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@article{6a861c0c0c6d45a0bb27284ccfa5b429,

title = "Single Dose of a Small Molecule Leads to Complete Regressions of Large Breast Tumors in Mice",

abstract = "Patients with estrogen receptor α positive (ERα+) breast cancer typically undergo surgical resection, followed by 5-10 years of treatment with adjuvant endocrine therapy. This prolonged intervention is associated with a host of undesired side effects that reduce patient compliance, and ultimately therapeutic resistance and disease relapse/progression are common. An ideal anticancer therapy would be effective against recurrent and refractory disease with minimal dosing; however, there is little precedent for marked tumor regression with a single dose of a small molecule therapeutic. Herein we report ErSO-TFPy as a small molecule that induces quantitative or near-quantitative regression of tumors in multiple mouse models of breast cancer with a single dose. Importantly, this effect is robust and independent of tumor size with eradication of even very large tumors (500−1500 mm3) observed. Mechanistically, these tumor regressions are a consequence of rapid induction of necrotic cell death in the tumor and are immune cell independent. If successfully translated to human cancer patients, the benefits of such an anticancer drug that is effective with a single dose would be significant.",

author = "Mulligan, \{Michael P.\} and Boudreau, \{Matthew W.\} and Bouwens, \{Brooke A.\} and Yoongyeong Lee and Carrell, \{Hunter W.\} and Junyao Zhu and Spyro Mousses and Shapiro, \{David J.\} and Nelson, \{Erik R.\} and Fan, \{Timothy M.\} and Hergenrother, \{Paul J.\}",

note = "We would like to thank Dr. Keith Bailey for his assistance and guidance in analyzing results from immunohistochemistry, Dr. Terri Li and the University of Chicago HTRC for performing immunohistochemistry, Dr. Lucas Li and Duke Department of Biostatistics and Bioinformatics for LC-MS/MS analysis of pharmacokinetic experiments, and Dr. Levent Dirikolu for calculating pharmacokinetic parameters. HCC1428 cells were obtained from and pathogen tested by Cancer Center at Illinois{\textquoteright}s Tumor Engineering and Phenotyping Shared Resource. MYS and MDG cells were obtained from the laboratory of Dr. Ben Ho Park. P.J.H. thanks the NIH (R35CA283859). P.J.H., D.J.S., E.R.N. and T.M.F thank the NIH (R01CA258746) and the Cancer Center at Illinois (B2101 and a Bridge Grant) for support of this work. M.W.B. and M.P.M. were members of the NIH Chemistry-Biology Interface Training Program (T32-GM136629). M.W.B. was an ACS Medicinal Chemistry Predoctoral Fellow, and he is supported by an NCI F99/K00 predoctoral fellowship (F99-CA253731; K00-CA253731).",

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doi = "10.1021/acscentsci.4c01628",

language = "English (US)",

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T1 - Single Dose of a Small Molecule Leads to Complete Regressions of Large Breast Tumors in Mice

AU - Mulligan, Michael P.

AU - Boudreau, Matthew W.

AU - Bouwens, Brooke A.

AU - Lee, Yoongyeong

AU - Carrell, Hunter W.

AU - Zhu, Junyao

AU - Mousses, Spyro

AU - Shapiro, David J.

AU - Nelson, Erik R.

AU - Fan, Timothy M.

AU - Hergenrother, Paul J.

N1 - We would like to thank Dr. Keith Bailey for his assistance and guidance in analyzing results from immunohistochemistry, Dr. Terri Li and the University of Chicago HTRC for performing immunohistochemistry, Dr. Lucas Li and Duke Department of Biostatistics and Bioinformatics for LC-MS/MS analysis of pharmacokinetic experiments, and Dr. Levent Dirikolu for calculating pharmacokinetic parameters. HCC1428 cells were obtained from and pathogen tested by Cancer Center at Illinois’s Tumor Engineering and Phenotyping Shared Resource. MYS and MDG cells were obtained from the laboratory of Dr. Ben Ho Park. P.J.H. thanks the NIH (R35CA283859). P.J.H., D.J.S., E.R.N. and T.M.F thank the NIH (R01CA258746) and the Cancer Center at Illinois (B2101 and a Bridge Grant) for support of this work. M.W.B. and M.P.M. were members of the NIH Chemistry-Biology Interface Training Program (T32-GM136629). M.W.B. was an ACS Medicinal Chemistry Predoctoral Fellow, and he is supported by an NCI F99/K00 predoctoral fellowship (F99-CA253731; K00-CA253731).

PY - 2025/2/26

Y1 - 2025/2/26

N2 - Patients with estrogen receptor α positive (ERα+) breast cancer typically undergo surgical resection, followed by 5-10 years of treatment with adjuvant endocrine therapy. This prolonged intervention is associated with a host of undesired side effects that reduce patient compliance, and ultimately therapeutic resistance and disease relapse/progression are common. An ideal anticancer therapy would be effective against recurrent and refractory disease with minimal dosing; however, there is little precedent for marked tumor regression with a single dose of a small molecule therapeutic. Herein we report ErSO-TFPy as a small molecule that induces quantitative or near-quantitative regression of tumors in multiple mouse models of breast cancer with a single dose. Importantly, this effect is robust and independent of tumor size with eradication of even very large tumors (500−1500 mm3) observed. Mechanistically, these tumor regressions are a consequence of rapid induction of necrotic cell death in the tumor and are immune cell independent. If successfully translated to human cancer patients, the benefits of such an anticancer drug that is effective with a single dose would be significant.

AB - Patients with estrogen receptor α positive (ERα+) breast cancer typically undergo surgical resection, followed by 5-10 years of treatment with adjuvant endocrine therapy. This prolonged intervention is associated with a host of undesired side effects that reduce patient compliance, and ultimately therapeutic resistance and disease relapse/progression are common. An ideal anticancer therapy would be effective against recurrent and refractory disease with minimal dosing; however, there is little precedent for marked tumor regression with a single dose of a small molecule therapeutic. Herein we report ErSO-TFPy as a small molecule that induces quantitative or near-quantitative regression of tumors in multiple mouse models of breast cancer with a single dose. Importantly, this effect is robust and independent of tumor size with eradication of even very large tumors (500−1500 mm3) observed. Mechanistically, these tumor regressions are a consequence of rapid induction of necrotic cell death in the tumor and are immune cell independent. If successfully translated to human cancer patients, the benefits of such an anticancer drug that is effective with a single dose would be significant.

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JO - ACS Central Science

JF - ACS Central Science

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ER -

Single Dose of a Small Molecule Leads to Complete Regressions of Large Breast Tumors in Mice

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