Co-targeting of metabolism using dietary and pharmacologic approaches reduces breast cancer metastatic burden

Qianying Zuo; Jin Young Yoo; Erik R. Nelson; Matthew J. Sikora; Rebecca B. Riggins; Zeynep Madak-Erdogan

doi:10.1038/s41523-024-00715-6

Co-targeting of metabolism using dietary and pharmacologic approaches reduces breast cancer metastatic burden

Qianying Zuo, Jin Young Yoo, Erik R. Nelson, Matthew J. Sikora, Rebecca B. Riggins, Zeynep Madak-Erdogan

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

Abstract

Patients with metastatic breast cancer face reduced quality of life and increased mortality rates, necessitating more effective anti-cancer strategies. Building on previous research that identified metastatic-niche-specific metabolic vulnerabilities, we investigated how a ketogenic diet enhances estrogen receptor (ER)-positive liver metastatic breast cancer’s response to Fulvestrant (Fulv) treatment. Using in vitro cell lines and in vivo xenograft metastasis mouse models, we examined the molecular mechanisms of combining ER targeting with a ketogenic diet. We found that Fulv treatment downregulates the ketogenesis pathway enzyme OXCT1, leading to β-hydroxybutyrate accumulation and decreased tumor cell viability. We also explored interactions between glucose, palmitic acid, and β-hydroxybutyric acid. These findings establish the molecular basis and clinical potential of a ketogenic diet to enhance Fulv efficacy in patients with ER+ liver metastatic breast cancer, potentially improving survival outcomes and quality of life in this population.

Original language	English (US)
Article number	3
Journal	npj Breast Cancer
Volume	11
Issue number	1
Early online date	Jan 14 2025
DOIs	https://doi.org/10.1038/s41523-024-00715-6
State	E-pub ahead of print - Jan 14 2025

ASJC Scopus subject areas

Oncology
Radiology Nuclear Medicine and imaging
Pharmacology (medical)

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10.1038/s41523-024-00715-6License: CC BY-NC-ND

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title = "Co-targeting of metabolism using dietary and pharmacologic approaches reduces breast cancer metastatic burden",

abstract = "Patients with metastatic breast cancer face reduced quality of life and increased mortality rates, necessitating more effective anti-cancer strategies. Building on previous research that identified metastatic-niche-specific metabolic vulnerabilities, we investigated how a ketogenic diet enhances estrogen receptor (ER)-positive liver metastatic breast cancer{\textquoteright}s response to Fulvestrant (Fulv) treatment. Using in vitro cell lines and in vivo xenograft metastasis mouse models, we examined the molecular mechanisms of combining ER targeting with a ketogenic diet. We found that Fulv treatment downregulates the ketogenesis pathway enzyme OXCT1, leading to β-hydroxybutyrate accumulation and decreased tumor cell viability. We also explored interactions between glucose, palmitic acid, and β-hydroxybutyric acid. These findings establish the molecular basis and clinical potential of a ketogenic diet to enhance Fulv efficacy in patients with ER+ liver metastatic breast cancer, potentially improving survival outcomes and quality of life in this population.",

author = "Qianying Zuo and Yoo, {Jin Young} and Nelson, {Erik R.} and Sikora, {Matthew J.} and Riggins, {Rebecca B.} and Zeynep Madak-Erdogan",

note = "The funding for the studies in this manuscript are provided by The University of Illinois, Office of the Vice Chancellor for Research, Future Interdisciplinary Research Endeavors grant from College of ACES (to Z.M.E.), Faculty Leadership Development Program from Cancer Center at Illinois (to Z.M.E.), Prairie Dragon Paddlers Fund (to Z.M.E.), Sylvia D Stroup Scholarship (to Z.M.E.), National Institute of Food and Agriculture, U.S. Department of Agriculture, award ILLU-698-924 and ILLU-698-331 (to Z.M.E.), Department of Defense Era of Hope Scholar Award BC200206/W81XWH-20-BCRP-EOHS (E.R.N.), and National Institutes of Health grant R01 CA234025 (E.R.N.).",

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doi = "10.1038/s41523-024-00715-6",

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AU - Zuo, Qianying

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AU - Sikora, Matthew J.

AU - Riggins, Rebecca B.

AU - Madak-Erdogan, Zeynep

N1 - The funding for the studies in this manuscript are provided by The University of Illinois, Office of the Vice Chancellor for Research, Future Interdisciplinary Research Endeavors grant from College of ACES (to Z.M.E.), Faculty Leadership Development Program from Cancer Center at Illinois (to Z.M.E.), Prairie Dragon Paddlers Fund (to Z.M.E.), Sylvia D Stroup Scholarship (to Z.M.E.), National Institute of Food and Agriculture, U.S. Department of Agriculture, award ILLU-698-924 and ILLU-698-331 (to Z.M.E.), Department of Defense Era of Hope Scholar Award BC200206/W81XWH-20-BCRP-EOHS (E.R.N.), and National Institutes of Health grant R01 CA234025 (E.R.N.).

PY - 2025/1/14

Y1 - 2025/1/14

N2 - Patients with metastatic breast cancer face reduced quality of life and increased mortality rates, necessitating more effective anti-cancer strategies. Building on previous research that identified metastatic-niche-specific metabolic vulnerabilities, we investigated how a ketogenic diet enhances estrogen receptor (ER)-positive liver metastatic breast cancer’s response to Fulvestrant (Fulv) treatment. Using in vitro cell lines and in vivo xenograft metastasis mouse models, we examined the molecular mechanisms of combining ER targeting with a ketogenic diet. We found that Fulv treatment downregulates the ketogenesis pathway enzyme OXCT1, leading to β-hydroxybutyrate accumulation and decreased tumor cell viability. We also explored interactions between glucose, palmitic acid, and β-hydroxybutyric acid. These findings establish the molecular basis and clinical potential of a ketogenic diet to enhance Fulv efficacy in patients with ER+ liver metastatic breast cancer, potentially improving survival outcomes and quality of life in this population.

AB - Patients with metastatic breast cancer face reduced quality of life and increased mortality rates, necessitating more effective anti-cancer strategies. Building on previous research that identified metastatic-niche-specific metabolic vulnerabilities, we investigated how a ketogenic diet enhances estrogen receptor (ER)-positive liver metastatic breast cancer’s response to Fulvestrant (Fulv) treatment. Using in vitro cell lines and in vivo xenograft metastasis mouse models, we examined the molecular mechanisms of combining ER targeting with a ketogenic diet. We found that Fulv treatment downregulates the ketogenesis pathway enzyme OXCT1, leading to β-hydroxybutyrate accumulation and decreased tumor cell viability. We also explored interactions between glucose, palmitic acid, and β-hydroxybutyric acid. These findings establish the molecular basis and clinical potential of a ketogenic diet to enhance Fulv efficacy in patients with ER+ liver metastatic breast cancer, potentially improving survival outcomes and quality of life in this population.

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Co-targeting of metabolism using dietary and pharmacologic approaches reduces breast cancer metastatic burden

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