Literature DB >> 19995573

Small mitochondria-targeting molecules as anti-cancer agents.

Feng Wang1, Marcia A Ogasawara, Peng Huang.   

Abstract

Alterations in mitochondrial structure and functions have long been observed in cancer cells. Targeting mitochondria as a cancer therapeutic strategy has gained momentum in the recent years. The signaling pathways that govern mitochondrial function, apoptosis and molecules that affect mitochondrial integrity and cell viability have been important topics of the recent review in the literature. In this article, we first briefly summarize the rationale and biological basis for developing mitochondrial-targeted compounds as potential anti-cancer agents, and then provide key examples of small molecules that either directly impact mitochondria or functionally affect the metabolic alterations in cancer cells with mitochondrial dysfunction. The main focus is on the small molecular weight compounds with potential applications in cancer treatment. We also summarize information on the drug developmental stages of the key mitochondria-targeted compounds and their clinical trial status. The advantages and potential shortcomings of targeting the mitochondria for cancer treatment are also discussed. 2009 Elsevier Ltd. All rights reserved.

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Year:  2009        PMID: 19995573      PMCID: PMC2836415          DOI: 10.1016/j.mam.2009.12.003

Source DB:  PubMed          Journal:  Mol Aspects Med        ISSN: 0098-2997


  158 in total

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5.  Oral gossypol in the treatment of patients with refractory metastatic breast cancer: a phase I/II clinical trial.

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Journal:  Anticancer Drugs       Date:  1999-03       Impact factor: 2.248

7.  MKT-077, a novel rhodacyanine dye in clinical trials, exhibits anticarcinoma activity in preclinical studies based on selective mitochondrial accumulation.

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8.  Hypoxia enhances LPA-induced HIF-1alpha and VEGF expression: their inhibition by resveratrol.

Authors:  Soon Young Park; Kang Jin Jeong; Jangsoon Lee; Dae Sung Yoon; Wahn Soo Choi; Yong Kee Kim; Jeung Whan Han; Yoon Mee Kim; Bum Kyeong Kim; Hoi Young Lee
Journal:  Cancer Lett       Date:  2007-10-04       Impact factor: 8.679

Review 9.  Future use of mitocans against tumour-initiating cells?

Authors:  Brian J Morrison; Ladislav Andera; Brent A Reynolds; Stephen J Ralph; Jiri Neuzil
Journal:  Mol Nutr Food Res       Date:  2009-01       Impact factor: 5.914

10.  Apoptosis of human melanoma cells by a combination of lonidamine and radiation.

Authors:  Yasuyuki Miyato; Koichi Ando
Journal:  J Radiat Res       Date:  2004-06       Impact factor: 2.724
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  27 in total

Review 1.  Mitochondria-targeting drug conjugates for cytotoxic, anti-oxidizing and sensing purposes: current strategies and future perspectives.

Authors:  Gantumur Battogtokh; Yeon Su Choi; Dong Seop Kang; Sang Jun Park; Min Suk Shim; Kang Moo Huh; Yong-Yeon Cho; Joo Young Lee; Hye Suk Lee; Han Chang Kang
Journal:  Acta Pharm Sin B       Date:  2018-05-18       Impact factor: 11.413

Review 2.  Targeted nanoparticles in mitochondrial medicine.

Authors:  Rakesh K Pathak; Nagesh Kolishetti; Shanta Dhar
Journal:  Wiley Interdiscip Rev Nanomed Nanobiotechnol       Date:  2014-10-27

3.  Engineering of blended nanoparticle platform for delivery of mitochondria-acting therapeutics.

Authors:  Sean Marrache; Shanta Dhar
Journal:  Proc Natl Acad Sci U S A       Date:  2012-09-18       Impact factor: 11.205

Review 4.  Mitochondria-Targeted Triphenylphosphonium-Based Compounds: Syntheses, Mechanisms of Action, and Therapeutic and Diagnostic Applications.

Authors:  Jacek Zielonka; Joy Joseph; Adam Sikora; Micael Hardy; Olivier Ouari; Jeannette Vasquez-Vivar; Gang Cheng; Marcos Lopez; Balaraman Kalyanaraman
Journal:  Chem Rev       Date:  2017-06-27       Impact factor: 60.622

Review 5.  Preferential killing of cancer cells with mitochondrial dysfunction by natural compounds.

Authors:  Gang Chen; Feng Wang; Dunyaporn Trachootham; Peng Huang
Journal:  Mitochondrion       Date:  2010-08-14       Impact factor: 4.160

Review 6.  Targeting cancer cell mitochondria as a therapeutic approach.

Authors:  Shijun Wen; Daqian Zhu; Peng Huang
Journal:  Future Med Chem       Date:  2013-01       Impact factor: 3.808

7.  SR4 Uncouples Mitochondrial Oxidative Phosphorylation, Modulates AMP-dependent Kinase (AMPK)-Mammalian Target of Rapamycin (mTOR) Signaling, and Inhibits Proliferation of HepG2 Hepatocarcinoma Cells.

Authors:  James L Figarola; Jyotsana Singhal; Joshua D Tompkins; George W Rogers; Charles Warden; David Horne; Arthur D Riggs; Sanjay Awasthi; Sharad S Singhal
Journal:  J Biol Chem       Date:  2015-11-03       Impact factor: 5.157

Review 8.  Conjugation of Natural Triterpenic Acids with Delocalized Lipophilic Cations: Selective Targeting Cancer Cell Mitochondria.

Authors:  Anna Yu Spivak; Darya A Nedopekina; Rinat R Gubaidullin; Mikhail V Dubinin; Konstantin N Belosludtsev
Journal:  J Pers Med       Date:  2021-05-25

9.  Mitochondria-targeted vitamin E analogs inhibit breast cancer cell energy metabolism and promote cell death.

Authors:  Gang Cheng; Jacek Zielonka; Donna M McAllister; A Craig Mackinnon; Joy Joseph; Michael B Dwinell; Balaraman Kalyanaraman
Journal:  BMC Cancer       Date:  2013-06-13       Impact factor: 4.430

Review 10.  Mitochondria-targeting particles.

Authors:  Amaraporn Wongrakpanich; Sean M Geary; Mei-ling A Joiner; Mark E Anderson; Aliasger K Salem
Journal:  Nanomedicine (Lond)       Date:  2014-11       Impact factor: 6.096
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