Repurposing the Antidepressant Sertraline as SHMT Inhibitor to Suppress Serine/Glycine Synthesis-Addicted Breast Tumor Growth

Metabolic rewiring is a hallmark of cancer that supports tumor growth, survival, and chemotherapy resistance. Although normal cells often rely on extracellular serine and glycine supply, a significant subset of cancers becomes addicted to intracellular serine/glycine synthesis, offering an attractiv...

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Veröffentlicht in:	Molecular cancer therapeutics 2021-01, Vol.20 (1), p.50-63
Hauptverfasser:	Geeraerts, Shauni Lien, Kampen, Kim Rosalie, Rinaldi, Gianmarco, Gupta, Purvi, Planque, Mélanie, Louros, Nikolaos, Heylen, Elien, De Cremer, Kaat, De Brucker, Katrijn, Vereecke, Stijn, Verbelen, Benno, Vermeersch, Pieter, Schymkowitz, Joost, Rousseau, Frederic, Cassiman, David, Fendt, Sarah-Maria, Voet, Arnout, Cammue, Bruno P A, Thevissen, Karin, De Keersmaecker, Kim
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Antidepressive Agents - pharmacology Antineoplastic Combined Chemotherapy Protocols - pharmacology Antineoplastic Combined Chemotherapy Protocols - therapeutic use Breast Neoplasms - drug therapy Breast Neoplasms - pathology Cell Line, Tumor Cell Proliferation - drug effects Drug Repositioning Female Glycine - biosynthesis Glycine Hydroxymethyltransferase - antagonists & inhibitors Glycine Hydroxymethyltransferase - metabolism Humans Mice Mice, Inbred NOD Mice, SCID Molecular Docking Simulation Phosphoglycerate Dehydrogenase - metabolism Serine - blood Sertraline - pharmacology Thimerosal - pharmacology
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container_title	Molecular cancer therapeutics
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creator	Geeraerts, Shauni Lien Kampen, Kim Rosalie Rinaldi, Gianmarco Gupta, Purvi Planque, Mélanie Louros, Nikolaos Heylen, Elien De Cremer, Kaat De Brucker, Katrijn Vereecke, Stijn Verbelen, Benno Vermeersch, Pieter Schymkowitz, Joost Rousseau, Frederic Cassiman, David Fendt, Sarah-Maria Voet, Arnout Cammue, Bruno P A Thevissen, Karin De Keersmaecker, Kim
description	Metabolic rewiring is a hallmark of cancer that supports tumor growth, survival, and chemotherapy resistance. Although normal cells often rely on extracellular serine and glycine supply, a significant subset of cancers becomes addicted to intracellular serine/glycine synthesis, offering an attractive drug target. Previously developed inhibitors of serine/glycine synthesis enzymes did not reach clinical trials due to unfavorable pharmacokinetic profiles, implying that further efforts to identify clinically applicable drugs targeting this pathway are required. In this study, we aimed to develop therapies that can rapidly enter the clinical practice by focusing on drug repurposing, as their safety and cost-effectiveness have been optimized before. Using a yeast model system, we repurposed two compounds, sertraline and thimerosal, for their selective toxicity against serine/glycine synthesis-addicted breast cancer and T-cell acute lymphoblastic leukemia cell lines. Isotope tracer metabolomics, computational docking, enzymatic assays, and drug-target interaction studies revealed that sertraline and thimerosal inhibit serine/glycine synthesis enzymes serine hydroxymethyltransferase and phosphoglycerate dehydrogenase, respectively. In addition, we demonstrated that sertraline's antiproliferative activity was further aggravated by mitochondrial inhibitors, such as the antimalarial artemether, by causing G -S cell-cycle arrest. Most notably, this combination also resulted in serine-selective antitumor activity in breast cancer mouse xenografts. Collectively, this study provides molecular insights into the repurposed mode-of-action of the antidepressant sertraline and allows to delineate a hitherto unidentified group of cancers being particularly sensitive to treatment with sertraline. Furthermore, we highlight the simultaneous inhibition of serine/glycine synthesis and mitochondrial metabolism as a novel treatment strategy for serine/glycine synthesis-addicted cancers.
doi_str_mv	10.1158/1535-7163.MCT-20-0480
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Although normal cells often rely on extracellular serine and glycine supply, a significant subset of cancers becomes addicted to intracellular serine/glycine synthesis, offering an attractive drug target. Previously developed inhibitors of serine/glycine synthesis enzymes did not reach clinical trials due to unfavorable pharmacokinetic profiles, implying that further efforts to identify clinically applicable drugs targeting this pathway are required. In this study, we aimed to develop therapies that can rapidly enter the clinical practice by focusing on drug repurposing, as their safety and cost-effectiveness have been optimized before. Using a yeast model system, we repurposed two compounds, sertraline and thimerosal, for their selective toxicity against serine/glycine synthesis-addicted breast cancer and T-cell acute lymphoblastic leukemia cell lines. Isotope tracer metabolomics, computational docking, enzymatic assays, and drug-target interaction studies revealed that sertraline and thimerosal inhibit serine/glycine synthesis enzymes serine hydroxymethyltransferase and phosphoglycerate dehydrogenase, respectively. In addition, we demonstrated that sertraline's antiproliferative activity was further aggravated by mitochondrial inhibitors, such as the antimalarial artemether, by causing G -S cell-cycle arrest. Most notably, this combination also resulted in serine-selective antitumor activity in breast cancer mouse xenografts. Collectively, this study provides molecular insights into the repurposed mode-of-action of the antidepressant sertraline and allows to delineate a hitherto unidentified group of cancers being particularly sensitive to treatment with sertraline. 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Although normal cells often rely on extracellular serine and glycine supply, a significant subset of cancers becomes addicted to intracellular serine/glycine synthesis, offering an attractive drug target. Previously developed inhibitors of serine/glycine synthesis enzymes did not reach clinical trials due to unfavorable pharmacokinetic profiles, implying that further efforts to identify clinically applicable drugs targeting this pathway are required. In this study, we aimed to develop therapies that can rapidly enter the clinical practice by focusing on drug repurposing, as their safety and cost-effectiveness have been optimized before. Using a yeast model system, we repurposed two compounds, sertraline and thimerosal, for their selective toxicity against serine/glycine synthesis-addicted breast cancer and T-cell acute lymphoblastic leukemia cell lines. Isotope tracer metabolomics, computational docking, enzymatic assays, and drug-target interaction studies revealed that sertraline and thimerosal inhibit serine/glycine synthesis enzymes serine hydroxymethyltransferase and phosphoglycerate dehydrogenase, respectively. In addition, we demonstrated that sertraline's antiproliferative activity was further aggravated by mitochondrial inhibitors, such as the antimalarial artemether, by causing G -S cell-cycle arrest. Most notably, this combination also resulted in serine-selective antitumor activity in breast cancer mouse xenografts. Collectively, this study provides molecular insights into the repurposed mode-of-action of the antidepressant sertraline and allows to delineate a hitherto unidentified group of cancers being particularly sensitive to treatment with sertraline. 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source	MEDLINE; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; American Association for Cancer Research
subjects	Animals Antidepressive Agents - pharmacology Antineoplastic Combined Chemotherapy Protocols - pharmacology Antineoplastic Combined Chemotherapy Protocols - therapeutic use Breast Neoplasms - drug therapy Breast Neoplasms - pathology Cell Line, Tumor Cell Proliferation - drug effects Drug Repositioning Female Glycine - biosynthesis Glycine Hydroxymethyltransferase - antagonists & inhibitors Glycine Hydroxymethyltransferase - metabolism Humans Mice Mice, Inbred NOD Mice, SCID Molecular Docking Simulation Phosphoglycerate Dehydrogenase - metabolism Serine - blood Sertraline - pharmacology Thimerosal - pharmacology
title	Repurposing the Antidepressant Sertraline as SHMT Inhibitor to Suppress Serine/Glycine Synthesis-Addicted Breast Tumor Growth
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