GLI1-Inducible Glucuronidation Targets a Broad Spectrum of Drugs

Hiba Ahmad Zahreddine; Biljana Culjkovic-Kraljacic; Jadwiga Gasiorek; Jean Duchaine; Katherine L.B. Borden

doi:10.1021/acschembio.8b01118

GLI1-Inducible Glucuronidation Targets a Broad Spectrum of Drugs

Hiba Ahmad Zahreddine, Biljana Culjkovic-Kraljacic, Jadwiga Gasiorek, Jean Duchaine, Katherine L.B. Borden^*

^*Corresponding author for this work

Pharmacology

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

13 Scopus citations

Abstract

Cancer therapies are plagued by resistance. Previously, we discovered a novel form of cancer drug resistance where the Glioma-associated protein 1 (GLI1) elevates UGT1A glucuronidation enzymes, thereby glucuronidating cytarabine and ribavirin, leading to resistance in leukemia patients. Here, we demonstrate that GLI1 imparts resistance to ∼40 compounds, including FDA-approved drugs with disparate chemotypes (e.g., methotrexate and venetoclax). GLI1 indirectly elevates UGT1As via the chaperone calreticulin, which is required for resistance. Further, we demonstrate that resistant cells are more sensitive to ATP inhibitors, suggesting an Achilles' heel, which could be exploited in the future. In all, we identify GLI1-inducible glucuronidation as a broad-spectrum multidrug resistance pathway.

Original language	English (US)
Pages (from-to)	348-355
Number of pages	8
Journal	ACS chemical biology
Volume	14
Issue number	3
DOIs	https://doi.org/10.1021/acschembio.8b01118
State	Published - Mar 15 2019

ASJC Scopus subject areas

Biochemistry
Molecular Medicine

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

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10.1021/acschembio.8b01118

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title = "GLI1-Inducible Glucuronidation Targets a Broad Spectrum of Drugs",

abstract = "Cancer therapies are plagued by resistance. Previously, we discovered a novel form of cancer drug resistance where the Glioma-associated protein 1 (GLI1) elevates UGT1A glucuronidation enzymes, thereby glucuronidating cytarabine and ribavirin, leading to resistance in leukemia patients. Here, we demonstrate that GLI1 imparts resistance to ∼40 compounds, including FDA-approved drugs with disparate chemotypes (e.g., methotrexate and venetoclax). GLI1 indirectly elevates UGT1As via the chaperone calreticulin, which is required for resistance. Further, we demonstrate that resistant cells are more sensitive to ATP inhibitors, suggesting an Achilles' heel, which could be exploited in the future. In all, we identify GLI1-inducible glucuronidation as a broad-spectrum multidrug resistance pathway.",

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AU - Zahreddine, Hiba Ahmad

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AU - Gasiorek, Jadwiga

AU - Duchaine, Jean

AU - Borden, Katherine L.B.

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N2 - Cancer therapies are plagued by resistance. Previously, we discovered a novel form of cancer drug resistance where the Glioma-associated protein 1 (GLI1) elevates UGT1A glucuronidation enzymes, thereby glucuronidating cytarabine and ribavirin, leading to resistance in leukemia patients. Here, we demonstrate that GLI1 imparts resistance to ∼40 compounds, including FDA-approved drugs with disparate chemotypes (e.g., methotrexate and venetoclax). GLI1 indirectly elevates UGT1As via the chaperone calreticulin, which is required for resistance. Further, we demonstrate that resistant cells are more sensitive to ATP inhibitors, suggesting an Achilles' heel, which could be exploited in the future. In all, we identify GLI1-inducible glucuronidation as a broad-spectrum multidrug resistance pathway.

AB - Cancer therapies are plagued by resistance. Previously, we discovered a novel form of cancer drug resistance where the Glioma-associated protein 1 (GLI1) elevates UGT1A glucuronidation enzymes, thereby glucuronidating cytarabine and ribavirin, leading to resistance in leukemia patients. Here, we demonstrate that GLI1 imparts resistance to ∼40 compounds, including FDA-approved drugs with disparate chemotypes (e.g., methotrexate and venetoclax). GLI1 indirectly elevates UGT1As via the chaperone calreticulin, which is required for resistance. Further, we demonstrate that resistant cells are more sensitive to ATP inhibitors, suggesting an Achilles' heel, which could be exploited in the future. In all, we identify GLI1-inducible glucuronidation as a broad-spectrum multidrug resistance pathway.

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GLI1-Inducible Glucuronidation Targets a Broad Spectrum of Drugs

Abstract

ASJC Scopus subject areas

UN SDGs

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