1. Academic Validation
  2. Selective Disruption of Respiratory Supercomplexes as a New Strategy to Suppress Her2high Breast Cancer

Selective Disruption of Respiratory Supercomplexes as a New Strategy to Suppress Her2high Breast Cancer

  • Antioxid Redox Signal. 2017 Jan 10;26(2):84-103. doi: 10.1089/ars.2016.6677.
Katerina Rohlenova 1 Karishma Sachaphibulkij 2 Jan Stursa 2 3 4 Ayenachew Bezawork-Geleta 2 Jan Blecha 1 Berwini Endaya 2 Lukas Werner 4 Jiri Cerny 1 Renata Zobalova 1 2 Jacob Goodwin 2 Tomas Spacek 5 Elham Alizadeh Pesdar 2 Bing Yan 2 Maria Nga Nguyen 2 Magdalena Vondrusova 1 Margaryta Sobol 6 Petr Jezek 5 Pavel Hozak 6 Jaroslav Truksa 1 Jakub Rohlena 1 Lan-Feng Dong 2 Jiri Neuzil 1 2
Affiliations

Affiliations

  • 1 1 Institute of Biotechnology , Czech Academy of Sciences, BIOCEV, Vestec, Prague-West, Czech Republic .
  • 2 2 School of Medical Science, Griffith University , Southport, Australia .
  • 3 3 Prague Institute of Chemical Technology , Prague, Czech Republic .
  • 4 4 Biomedical Research Center, University Hospital , Hradec Kralove, Czech Republic .
  • 5 5 Institute of Physiology , Prague, Czech Republic .
  • 6 6 Institute of Molecular Genetics , Czech Academy of Sciences, Prague, Czech Republic .
Abstract

Aims: Expression of the HER2 oncogene in breast Cancer is associated with resistance to treatment, and Her2 may regulate bioenergetics. Therefore, we investigated whether disruption of the electron transport chain (ETC) is a viable strategy to eliminate Her2high disease.

Results: We demonstrate that Her2high cells and tumors have increased assembly of respiratory supercomplexes (SCs) and increased complex I-driven respiration in vitro and in vivo. They are also highly sensitive to MitoTam, a novel mitochondrial-targeted derivative of tamoxifen. Unlike tamoxifen, MitoTam efficiently suppresses experimental Her2high tumors without systemic toxicity. Mechanistically, MitoTam inhibits complex I-driven respiration and disrupts respiratory SCs in Her2high background in vitro and in vivo, leading to elevated Reactive Oxygen Species production and cell death. Intriguingly, higher sensitivity of Her2high cells to MitoTam is dependent on the mitochondrial fraction of Her2.

Innovation: Oncogenes such as HER2 can restructure ETC, creating a previously unrecognized therapeutic vulnerability exploitable by SC-disrupting agents such as MitoTam.

Conclusion: We propose that the ETC is a suitable therapeutic target in Her2high disease. Antioxid. Redox Signal. 26, 84-103.

Keywords

HER2; breast cancer; mitochondria; mitochondrially targeted tamoxifen; respirasome.

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