Enabling tumor-specific drug delivery by targeting the Warburg effect of cancer

Jian Zhang; Tony Pan; Jimmy Lee; Sanja Goldberg; Sarah Ann King; Erting Tang; Yifei Hu; Lifeng Chen; Alex Hoover; Linyong Zhu; Oliver S. Eng; Benjamin Dekel; Jun Huang; Xiaoyang Wu

doi:10.1016/j.xcrm.2024.101920

Enabling tumor-specific drug delivery by targeting the Warburg effect of cancer

Jian Zhang, Tony Pan, Jimmy Lee, Sanja Goldberg, Sarah Ann King, Erting Tang, Yifei Hu, Lifeng Chen, Alex Hoover, Linyong Zhu, Oliver S. Eng, Benjamin Dekel, Jun Huang^*, Xiaoyang Wu^*

^*Corresponding author for this work

Medicine Dean & Assoc. Deans

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

Abstract

Metabolic reprogramming of tumor cells is an emerging hallmark of cancer. Among all the changes in cancer metabolism, increased glucose uptake and the accumulation of lactate under normoxic conditions (the “Warburg effect”) is a common feature of cancer cells. In this study, we develop a lactate-responsive drug delivery platform by targeting the Warburg effect. We design and test a gold/mesoporous silica Janus nanoparticle system as a gated drug carrier, in which the gold particles are functionalized with lactate oxidase and the silica particles are capped with α-cyclodextrin through surface arylboronate modification. In the presence of lactate, the lactate oxidase generates hydrogen peroxide, which induces the self-immolation reaction of arylboronate, leading to uncapping and drug release. Our results demonstrate greatly improved drug delivery specificity and therapeutic efficacy with this platform for the treatment of different cancers. Our findings present an effective approach for drug delivery by metabolic targeting of tumors.

Original language	English
Article number	101920
Journal	Cell Reports Medicine
Volume	6
Issue number	1
DOIs	https://doi.org/10.1016/j.xcrm.2024.101920
State	Published - 21 Jan 2025

Funding

Funders	Funder number
Alan B. Slifka Foundation
Cancer Research Institute
Samuel Waxman Cancer Research Foundation
Comprehensive Cancer Center, University of Chicago Medical Center
Israel Cancer Fund for Pediatric Sarcoma Grant
Rally Foundation
Ullman Family Team Science Award	1DP2AI144245
National Institutes of Health	R01DA047785, R01AR78555, R01OD023700, R21AR080761

Keywords

Warburg effect
chemotherapy
drug delivery
immunotherapy
lactate
nanoparticle
tumor metabolism

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.xcrm.2024.101920

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title = "Enabling tumor-specific drug delivery by targeting the Warburg effect of cancer",

abstract = "Metabolic reprogramming of tumor cells is an emerging hallmark of cancer. Among all the changes in cancer metabolism, increased glucose uptake and the accumulation of lactate under normoxic conditions (the “Warburg effect”) is a common feature of cancer cells. In this study, we develop a lactate-responsive drug delivery platform by targeting the Warburg effect. We design and test a gold/mesoporous silica Janus nanoparticle system as a gated drug carrier, in which the gold particles are functionalized with lactate oxidase and the silica particles are capped with α-cyclodextrin through surface arylboronate modification. In the presence of lactate, the lactate oxidase generates hydrogen peroxide, which induces the self-immolation reaction of arylboronate, leading to uncapping and drug release. Our results demonstrate greatly improved drug delivery specificity and therapeutic efficacy with this platform for the treatment of different cancers. Our findings present an effective approach for drug delivery by metabolic targeting of tumors.",

keywords = "Warburg effect, chemotherapy, drug delivery, immunotherapy, lactate, nanoparticle, tumor metabolism",

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doi = "10.1016/j.xcrm.2024.101920",

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AU - Zhang, Jian

AU - Pan, Tony

AU - Lee, Jimmy

AU - Goldberg, Sanja

AU - King, Sarah Ann

AU - Tang, Erting

AU - Hu, Yifei

AU - Chen, Lifeng

AU - Hoover, Alex

AU - Zhu, Linyong

AU - Eng, Oliver S.

AU - Dekel, Benjamin

AU - Huang, Jun

AU - Wu, Xiaoyang

PY - 2025/1/21

Y1 - 2025/1/21

N2 - Metabolic reprogramming of tumor cells is an emerging hallmark of cancer. Among all the changes in cancer metabolism, increased glucose uptake and the accumulation of lactate under normoxic conditions (the “Warburg effect”) is a common feature of cancer cells. In this study, we develop a lactate-responsive drug delivery platform by targeting the Warburg effect. We design and test a gold/mesoporous silica Janus nanoparticle system as a gated drug carrier, in which the gold particles are functionalized with lactate oxidase and the silica particles are capped with α-cyclodextrin through surface arylboronate modification. In the presence of lactate, the lactate oxidase generates hydrogen peroxide, which induces the self-immolation reaction of arylboronate, leading to uncapping and drug release. Our results demonstrate greatly improved drug delivery specificity and therapeutic efficacy with this platform for the treatment of different cancers. Our findings present an effective approach for drug delivery by metabolic targeting of tumors.

AB - Metabolic reprogramming of tumor cells is an emerging hallmark of cancer. Among all the changes in cancer metabolism, increased glucose uptake and the accumulation of lactate under normoxic conditions (the “Warburg effect”) is a common feature of cancer cells. In this study, we develop a lactate-responsive drug delivery platform by targeting the Warburg effect. We design and test a gold/mesoporous silica Janus nanoparticle system as a gated drug carrier, in which the gold particles are functionalized with lactate oxidase and the silica particles are capped with α-cyclodextrin through surface arylboronate modification. In the presence of lactate, the lactate oxidase generates hydrogen peroxide, which induces the self-immolation reaction of arylboronate, leading to uncapping and drug release. Our results demonstrate greatly improved drug delivery specificity and therapeutic efficacy with this platform for the treatment of different cancers. Our findings present an effective approach for drug delivery by metabolic targeting of tumors.

KW - Warburg effect

KW - chemotherapy

KW - drug delivery

KW - immunotherapy

KW - lactate

KW - nanoparticle

KW - tumor metabolism

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Enabling tumor-specific drug delivery by targeting the Warburg effect of cancer

Abstract

Funding

Keywords

UN SDGs

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