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Literature DB >> 27457582

The anticancer agent 3-bromopyruvate: a simple but powerful molecule taken from the lab to the bedside.

J Azevedo-Silva¹, O Queirós^2,3, F Baltazar^4,5, S Ułaszewski⁶, A Goffeau⁷, Y H Ko⁸, P L Pedersen⁹, A Preto², M Casal¹⁰.

Abstract

At the beginning of the twenty-first century, 3-bromopyruvate (3BP), a simple alkylating chemical compound was presented to the scientific community as a potent anticancer agent, able to cause rapid toxicity to cancer cells without bystander effects on normal tissues. The altered metabolism of cancers, an essential hallmark for their progression, also became their Achilles heel by facilitating 3BP's selective entry and specific targeting. Treatment with 3BP has been administered in several cancer type models both in vitro and in vivo, either alone or in combination with other anticancer therapeutic approaches. These studies clearly demonstrate 3BP's broad action against multiple cancer types. Clinical trials using 3BP are needed to further support its anticancer efficacy against multiple cancer types thus making it available to more than 30 million patients living with cancer worldwide. This review discusses current knowledge about 3BP related to cancer and discusses also the possibility of its use in future clinical applications as it relates to safety and treatment issues.

Entities: Chemical Disease Species

Keywords: 3-bromopyruvate; Cancer metabolism; Cancer therapy; Clinical studies; Monocarboxylate transporter; Tumor microenvironment

Mesh：

Substances：

Year: 2016 PMID： 27457582 DOI： 10.1007/s10863-016-9670-z

Source DB: PubMed Journal: J Bioenerg Biomembr ISSN： 0145-479X Impact factor: 2.945

119 in total

1. On respiratory impairment in cancer cells.

Authors: O WARBURG
Journal: Science Date: 1956-08-10 Impact factor: 47.728

2. The antitumor agent 3-bromopyruvate has a short half-life at physiological conditions.

Authors: Matthew Glick; Perry Biddle; Josh Jantzi; Samantha Weaver; Doug Schirch
Journal: Biochem Biophys Res Commun Date: 2014-08-21 Impact factor: 3.575

3. The cytotoxicity of 3-bromopyruvate in breast cancer cells depends on extracellular pH.

Authors: João Azevedo-Silva; Odília Queirós; Ana Ribeiro; Fátima Baltazar; Ko H Young; Peter L Pedersen; Ana Preto; Margarida Casal
Journal: Biochem J Date: 2015-04-15 Impact factor: 3.857

4. Bromopyruvate inactivation of 2-keto-3-deoxy-6-phosphogluconic aldolase. I. Kinetic evidence for active site specificity.

Authors: H P Meloche
Journal: Biochemistry Date: 1967-08 Impact factor: 3.162

5. Glycolysis inhibitors as a potential therapeutic option to treat aggressive neuroblastoma expressing GLUT1.

Authors: Kohei Matsushita; Keiichi Uchida; Susumu Saigusa; Shozo Ide; Kiyoshi Hashimoto; Yuki Koike; Kohei Otake; Mikihiro Inoue; Koji Tanaka; Masato Kusunoki
Journal: J Pediatr Surg Date: 2012-07 Impact factor: 2.545

6. Functional organization of mammalian hexokinases: both N- and C-terminal halves of the rat type II isozyme possess catalytic sites.

Authors: H J Tsai; J E Wilson
Journal: Arch Biochem Biophys Date: 1996-05-01 Impact factor: 4.013

Review 7. 3-bromopyruvate: a new targeted antiglycolytic agent and a promise for cancer therapy.

Authors: S Ganapathy-Kanniappan; M Vali; R Kunjithapatham; M Buijs; L H Syed; P P Rao; S Ota; B K Kwak; R Loffroy; J F Geschwind
Journal: Curr Pharm Biotechnol Date: 2010-08 Impact factor: 2.837

8. Systemic administration of 3-bromopyruvate in treating disseminated aggressive lymphoma.

Authors: Niklaus G Schaefer; Jean F Geschwind; James Engles; Julia W Buchanan; Richard L Wahl
Journal: Transl Res Date: 2011-09-22 Impact factor: 7.012

9. The energy blockers bromopyruvate and lonidamine lead GL15 glioblastoma cells to death by different p53-dependent routes.

Authors: Magdalena Davidescu; Lara Macchioni; Gaetano Scaramozzino; Maria Cristina Marchetti; Graziella Migliorati; Rita Vitale; Angela Corcelli; Rita Roberti; Emilia Castigli; Lanfranco Corazzi
Journal: Sci Rep Date: 2015-09-21 Impact factor: 4.379

10. Hexokinase II inhibitor, 3-BrPA induced autophagy by stimulating ROS formation in human breast cancer cells.

Authors: Qianwen Zhang; Yuanyuan Zhang; Pei Zhang; Zhenhua Chao; Fei Xia; Chenchen Jiang; Xudong Zhang; Zhiwen Jiang; Hao Liu
Journal: Genes Cancer Date: 2014-03

18 in total

1. Cytoskeleton disruption by the metabolic inhibitor 3-bromopyruvate: implications in cancer therapy.

Authors: A Preto; M Casal; J Azevedo-Silva; D Tavares-Valente; A Almeida; O Queirós; F Baltazar; Y H Ko; P L Pedersen
Journal: Med Oncol Date: 2022-06-18 Impact factor: 3.064

Review 2. Competitive glucose metabolism as a target to boost bladder cancer immunotherapy.

Authors: Julieta Afonso; Lúcio L Santos; Adhemar Longatto-Filho; Fátima Baltazar
Journal: Nat Rev Urol Date: 2020-01-17 Impact factor: 14.432

3. Analysis of natural compounds against the activity of SARS-CoV-2 NSP15 protein towards an effective treatment against COVID-19: a theoretical and computational biology approach.

Authors: Olaa Motwalli; Meshari Alazmi
Journal: J Mol Model Date: 2021-05-08 Impact factor: 1.810

4. Molecular docking studies of 3-bromopyruvate and its derivatives to metabolic regulatory enzymes: Implication in designing of novel anticancer therapeutic strategies.

Authors: Saveg Yadav; Shrish Kumar Pandey; Vinay Kumar Singh; Yugal Goel; Ajay Kumar; Sukh Mahendra Singh
Journal: PLoS One Date: 2017-05-02 Impact factor: 3.240

10. The Anticancer Drug 3-Bromopyruvate Induces DNA Damage Potentially Through Reactive Oxygen Species in Yeast and in Human Cancer Cells.

Authors: Magdalena Cal; Irwin Matyjaszczyk; Ireneusz Litwin; Daria Augustyniak; Rafał Ogórek; Young Ko; Stanisław Ułaszewski
Journal: Cells Date: 2020-05-08 Impact factor: 6.600