FR58P1a; a new uncoupler of OXPHOS that inhibits migration in triple-negative breast cancer cells via Sirt1/AMPK/β1-integrin pathway

被引：0

作者：

Félix A. Urra

Felipe Muñoz

Miguel Córdova-Delgado

María Paz Ramírez

Bárbara Peña-Ahumada

Melany Rios

Pablo Cruz

Ulises Ahumada-Castro

Galdo Bustos

Eduardo Silva-Pavez

Rodrigo Pulgar

Danna Morales

Diego Varela

Juan Pablo Millas-Vargas

Evelyn Retamal

Oney Ramírez-Rodríguez

Hernán Pessoa-Mahana

Mario Pavani

Jorge Ferreira

César Cárdenas

Ramiro Araya-Maturana

机构：

[1] Institute of Biomedical Sciences,Anatomy and Developmental Biology Program

[2] University of Chile,Departamento de Química Orgánica y Físico

[3] Geroscience Center for Brain Health and Metabolism,Química, Facultad de Ciencias Químicas y Farmacéuticas

[4] Universidad de Chile,Laboratorio de Bioinformática y Expresión Génica

[5] Casilla 233,Programa de Fisiología y Biofísica, Instituto de Ciencias Biomédicas, Facultad de Medicina

[6] INTA-Universidad de Chile,Millennium Nucleus of Ion Channels

[7] El Líbano,Associated Diseases (MiNICAD)

[8] Universidad de Chile,Campus Río Simpson

[9] Universidad de Chile,Programa de Farmacología Molecular y Clínica, Instituto de Ciencias Biomédicas (ICBM), Facultad de Medicina

[10] University of Aysén,Department of Chemistry and Biochemistry

[11] Obispo Vielmo 62,Instituto de Química de Recursos Naturales and Programa de Investigación Asociativa en Cáncer Gástrico

[12] Coyhaique,undefined

[13] Universidad de Chile,undefined

[14] Independencia 1027,undefined

[15] Casilla 7,undefined

[16] University of California,undefined

[17] Santa Barbara,undefined

[18] The Buck Institute for Research on Aging,undefined

[19] Universidad de Talca,undefined

[20] casilla 747,undefined

来源：

Scientific Reports | / 8卷

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摘要：

Highly malignant triple-negative breast cancer (TNBC) cells rely mostly on glycolysis to maintain cellular homeostasis; however, mitochondria are still required for migration and metastasis. Taking advantage of the metabolic flexibility of TNBC MDA-MB-231 cells to generate subpopulations with glycolytic or oxidative phenotypes, we screened phenolic compounds containing an ortho-carbonyl group with mitochondrial activity and identified a bromoalkyl-ester of hydroquinone named FR58P1a, as a mitochondrial metabolism-affecting compound that uncouples OXPHOS through a protonophoric mechanism. In contrast to well-known protonophore uncoupler FCCP, FR58P1a does not depolarize the plasma membrane and its effect on the mitochondrial membrane potential and bioenergetics is moderate suggesting a mild uncoupling of OXPHOS. FR58P1a activates AMPK in a Sirt1-dependent fashion. Although the activation of Sirt1/AMPK axis by FR58P1a has a cyto-protective role, selectively inhibits fibronectin-dependent adhesion and migration in TNBC cells but not in non-tumoral MCF10A cells by decreasing β1-integrin at the cell surface. Prolonged exposure to FR58P1a triggers a metabolic reprograming in TNBC cells characterized by down-regulation of OXPHOS-related genes that promote cell survival but comprise their ability to migrate. Taken together, our results show that TNBC cell migration is susceptible to mitochondrial alterations induced by small molecules as FR58P1a, which may have therapeutic implications.

引用

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