Development of antitumor biguanides targeting energy metabolism and stress responses in the tumor microenvironment

Development of antitumor biguanides targeting energy metabolism and stress responses in the tumor microenvironment

Abstract To develop antitumor drugs capable of targeting energy metabolism in the tumor microenvironment, we produced a series of potent new biguanide derivatives via structural modification of the arylbiguanide scaffold. We then conducted biological screening using hypoxia inducible factor (HIF)-1-...

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Main Authors: Takayuki Sakai, Yoshiyuki Matsuo, Kensuke Okuda, Kiichi Hirota, Mieko Tsuji, Tasuku Hirayama, Hideko Nagasawa
Format: Article
Language:English
Published: Nature Publishing Group 2021-03-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-83708-w
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spelling doaj-6759b22745514a5c8c9a25f41acea83c2021-03-11T12:24:47ZengNature Publishing GroupScientific Reports2045-23222021-03-0111111510.1038/s41598-021-83708-wDevelopment of antitumor biguanides targeting energy metabolism and stress responses in the tumor microenvironmentTakayuki Sakai0Yoshiyuki Matsuo1Kensuke Okuda2Kiichi Hirota3Mieko Tsuji4Tasuku Hirayama5Hideko Nagasawa6Laboratory of Pharmaceutical and Medicinal Chemistry, Gifu Pharmaceutical UniversityDepartment of Human Stress Response Science, Institute of Biomedical Science, Kansai Medical UniversityLaboratory of Bioorganic and Natural Products Chemistry, Kobe Pharmaceutical UniversityDepartment of Human Stress Response Science, Institute of Biomedical Science, Kansai Medical UniversityLaboratory of Pharmaceutical and Medicinal Chemistry, Gifu Pharmaceutical UniversityLaboratory of Pharmaceutical and Medicinal Chemistry, Gifu Pharmaceutical UniversityLaboratory of Pharmaceutical and Medicinal Chemistry, Gifu Pharmaceutical UniversityAbstract To develop antitumor drugs capable of targeting energy metabolism in the tumor microenvironment, we produced a series of potent new biguanide derivatives via structural modification of the arylbiguanide scaffold. We then conducted biological screening using hypoxia inducible factor (HIF)-1- and unfolded protein response (UPR)-dependent reporter assays and selective cytotoxicity assay under low glucose conditions. Homologation studies of aryl-(CH2)n-biguanides (n = 0–6) yielded highly potent derivatives with an appropriate alkylene linker length (n = 5, 6). The o-chlorophenyl derivative 7l (n = 5) indicated the most potent inhibitory effects on HIF-1- and UPR-mediated transcriptional activation (IC50; 1.0 ± 0.1 μM, 7.5 ± 0.1 μM, respectively) and exhibited selective cytotoxicity toward HT29 cells under low glucose condition (IC50; 1.9 ± 0.1 μM). Additionally, the protein expression of HIF-1α induced by hypoxia and of GRP78 and GRP94 induced by glucose starvation was markedly suppressed by the biguanides, thereby inhibiting angiogenesis. Metabolic flux and fluorescence-activated cell sorting analyses of tumor cells revealed that the biguanides strongly inhibited oxidative phosphorylation and activated compensative glycolysis in the presence of glucose, whereas both were strongly suppressed in the absence of glucose, resulting in cellular energy depletion and apoptosis. These findings suggest that the pleiotropic effects of these biguanides may contribute to more selective and effective killing of cancer cells due to the suppression of various stress adaptation systems in the tumor microenvironment.https://doi.org/10.1038/s41598-021-83708-w
collection DOAJ
language English
format Article
sources DOAJ
author Takayuki Sakai
Yoshiyuki Matsuo
Kensuke Okuda
Kiichi Hirota
Mieko Tsuji
Tasuku Hirayama
Hideko Nagasawa
spellingShingle Takayuki Sakai
Yoshiyuki Matsuo
Kensuke Okuda
Kiichi Hirota
Mieko Tsuji
Tasuku Hirayama
Hideko Nagasawa
Development of antitumor biguanides targeting energy metabolism and stress responses in the tumor microenvironment
Scientific Reports
author_facet Takayuki Sakai
Yoshiyuki Matsuo
Kensuke Okuda
Kiichi Hirota
Mieko Tsuji
Tasuku Hirayama
Hideko Nagasawa
author_sort Takayuki Sakai
title Development of antitumor biguanides targeting energy metabolism and stress responses in the tumor microenvironment
title_short Development of antitumor biguanides targeting energy metabolism and stress responses in the tumor microenvironment
title_full Development of antitumor biguanides targeting energy metabolism and stress responses in the tumor microenvironment
title_fullStr Development of antitumor biguanides targeting energy metabolism and stress responses in the tumor microenvironment
title_full_unstemmed Development of antitumor biguanides targeting energy metabolism and stress responses in the tumor microenvironment
title_sort development of antitumor biguanides targeting energy metabolism and stress responses in the tumor microenvironment
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-03-01
description Abstract To develop antitumor drugs capable of targeting energy metabolism in the tumor microenvironment, we produced a series of potent new biguanide derivatives via structural modification of the arylbiguanide scaffold. We then conducted biological screening using hypoxia inducible factor (HIF)-1- and unfolded protein response (UPR)-dependent reporter assays and selective cytotoxicity assay under low glucose conditions. Homologation studies of aryl-(CH2)n-biguanides (n = 0–6) yielded highly potent derivatives with an appropriate alkylene linker length (n = 5, 6). The o-chlorophenyl derivative 7l (n = 5) indicated the most potent inhibitory effects on HIF-1- and UPR-mediated transcriptional activation (IC50; 1.0 ± 0.1 μM, 7.5 ± 0.1 μM, respectively) and exhibited selective cytotoxicity toward HT29 cells under low glucose condition (IC50; 1.9 ± 0.1 μM). Additionally, the protein expression of HIF-1α induced by hypoxia and of GRP78 and GRP94 induced by glucose starvation was markedly suppressed by the biguanides, thereby inhibiting angiogenesis. Metabolic flux and fluorescence-activated cell sorting analyses of tumor cells revealed that the biguanides strongly inhibited oxidative phosphorylation and activated compensative glycolysis in the presence of glucose, whereas both were strongly suppressed in the absence of glucose, resulting in cellular energy depletion and apoptosis. These findings suggest that the pleiotropic effects of these biguanides may contribute to more selective and effective killing of cancer cells due to the suppression of various stress adaptation systems in the tumor microenvironment.
url https://doi.org/10.1038/s41598-021-83708-w
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