Facilitated Anion Transport Induces Hyperpolarization of the Cell Membrane That Triggers Differentiation and Cell Death in Cancer Stem Cells

Vanessa Soto-Cerrato; Pilar Manuel-Manresa; Elsa Hernando; Silvia Calabuig-Fariñas; Alicia Martínez-Romero; Víctor Fernández-Dueñas; Kristoffer Sahlholm; Thomas Knöpfel; María García-Valverde; Ananda M. Rodilla; Eloisa Jantus-Lewintre; Rosa Farràs; Francisco Ciruela; Ricardo Pérez-Tomás; Roberto Quesada

doi:10.1021/jacs.5b09970

Facilitated Anion Transport Induces Hyperpolarization of the Cell Membrane That Triggers Differentiation and Cell Death in Cancer Stem Cells

Vanessa Soto-Cerrato, Pilar Manuel-Manresa, Elsa Hernando, Silvia Calabuig-Fariñas, Alicia Martínez-Romero, Víctor Fernández-Dueñas, Kristoffer Sahlholm, Thomas Knöpfel, María García-Valverde, Ananda M. Rodilla, Eloisa Jantus-Lewintre, Rosa Farràs, Francisco Ciruela, Ricardo Pérez-Tomás^*, Roberto Quesada^*

^*Corresponding author for this work

Department of Physics

Research output: Contribution to journal › Journal article › peer-review

110 Citations (Scopus)

Abstract

Facilitated anion transport potentially represents a powerful tool to modulate various cellular functions. However, research into the biological effects of small molecule anionophores is still at an early stage. Here we have used two potent anionophore molecules inspired in the structure of marine metabolites tambjamines to gain insight into the effect induced by these compounds at the cellular level. We show how active anionophores, capable of facilitating the transmembrane transport of chloride and bicarbonate in model phospholipid liposomes, induce acidification of the cytosol and hyperpolarization of plasma cell membranes. We demonstrate how this combined effect can be used against cancer stem cells (CSCs). Hyperpolarization of cell membrane induces cell differentiation and loss of stemness of CSCs leading to effective elimination of this cancer cell subpopulation.

Original language	English
Pages (from-to)	15892-15898
Number of pages	7
Journal	Journal of the American Chemical Society
Volume	137
Issue number	50
Early online date	3 Dec 2015
DOIs	https://doi.org/10.1021/jacs.5b09970
Publication status	Published - 23 Dec 2015

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Soto-Cerrato, V., Manuel-Manresa, P., Hernando, E., Calabuig-Fariñas, S., Martínez-Romero, A., Fernández-Dueñas, V., Sahlholm, K., Knöpfel, T., García-Valverde, M., Rodilla, A. M., Jantus-Lewintre, E., Farràs, R., Ciruela, F., Pérez-Tomás, R., & Quesada, R. (2015). Facilitated Anion Transport Induces Hyperpolarization of the Cell Membrane That Triggers Differentiation and Cell Death in Cancer Stem Cells. Journal of the American Chemical Society, 137(50), 15892-15898. https://doi.org/10.1021/jacs.5b09970

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title = "Facilitated Anion Transport Induces Hyperpolarization of the Cell Membrane That Triggers Differentiation and Cell Death in Cancer Stem Cells",

abstract = "Facilitated anion transport potentially represents a powerful tool to modulate various cellular functions. However, research into the biological effects of small molecule anionophores is still at an early stage. Here we have used two potent anionophore molecules inspired in the structure of marine metabolites tambjamines to gain insight into the effect induced by these compounds at the cellular level. We show how active anionophores, capable of facilitating the transmembrane transport of chloride and bicarbonate in model phospholipid liposomes, induce acidification of the cytosol and hyperpolarization of plasma cell membranes. We demonstrate how this combined effect can be used against cancer stem cells (CSCs). Hyperpolarization of cell membrane induces cell differentiation and loss of stemness of CSCs leading to effective elimination of this cancer cell subpopulation.",

author = "Vanessa Soto-Cerrato and Pilar Manuel-Manresa and Elsa Hernando and Silvia Calabuig-Fari{\~n}as and Alicia Mart{\'i}nez-Romero and V{\'i}ctor Fern{\'a}ndez-Due{\~n}as and Kristoffer Sahlholm and Thomas Kn{\"o}pfel and Mar{\'i}a Garc{\'i}a-Valverde and Rodilla, {Ananda M.} and Eloisa Jantus-Lewintre and Rosa Farr{\`a}s and Francisco Ciruela and Ricardo P{\'e}rez-Tom{\'a}s and Roberto Quesada",

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day = "23",

doi = "10.1021/jacs.5b09970",

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Soto-Cerrato, V, Manuel-Manresa, P, Hernando, E, Calabuig-Fariñas, S, Martínez-Romero, A, Fernández-Dueñas, V, Sahlholm, K, Knöpfel, T, García-Valverde, M, Rodilla, AM, Jantus-Lewintre, E, Farràs, R, Ciruela, F, Pérez-Tomás, R & Quesada, R 2015, 'Facilitated Anion Transport Induces Hyperpolarization of the Cell Membrane That Triggers Differentiation and Cell Death in Cancer Stem Cells', Journal of the American Chemical Society, vol. 137, no. 50, pp. 15892-15898. https://doi.org/10.1021/jacs.5b09970

Facilitated Anion Transport Induces Hyperpolarization of the Cell Membrane That Triggers Differentiation and Cell Death in Cancer Stem Cells. / Soto-Cerrato, Vanessa; Manuel-Manresa, Pilar; Hernando, Elsa et al.
In: Journal of the American Chemical Society, Vol. 137, No. 50, 23.12.2015, p. 15892-15898.

Research output: Contribution to journal › Journal article › peer-review

TY - JOUR

T1 - Facilitated Anion Transport Induces Hyperpolarization of the Cell Membrane That Triggers Differentiation and Cell Death in Cancer Stem Cells

AU - Soto-Cerrato, Vanessa

AU - Manuel-Manresa, Pilar

AU - Hernando, Elsa

AU - Calabuig-Fariñas, Silvia

AU - Martínez-Romero, Alicia

AU - Fernández-Dueñas, Víctor

AU - Sahlholm, Kristoffer

AU - Knöpfel, Thomas

AU - García-Valverde, María

AU - Rodilla, Ananda M.

AU - Jantus-Lewintre, Eloisa

AU - Farràs, Rosa

AU - Ciruela, Francisco

AU - Pérez-Tomás, Ricardo

AU - Quesada, Roberto

PY - 2015/12/23

Y1 - 2015/12/23

N2 - Facilitated anion transport potentially represents a powerful tool to modulate various cellular functions. However, research into the biological effects of small molecule anionophores is still at an early stage. Here we have used two potent anionophore molecules inspired in the structure of marine metabolites tambjamines to gain insight into the effect induced by these compounds at the cellular level. We show how active anionophores, capable of facilitating the transmembrane transport of chloride and bicarbonate in model phospholipid liposomes, induce acidification of the cytosol and hyperpolarization of plasma cell membranes. We demonstrate how this combined effect can be used against cancer stem cells (CSCs). Hyperpolarization of cell membrane induces cell differentiation and loss of stemness of CSCs leading to effective elimination of this cancer cell subpopulation.

AB - Facilitated anion transport potentially represents a powerful tool to modulate various cellular functions. However, research into the biological effects of small molecule anionophores is still at an early stage. Here we have used two potent anionophore molecules inspired in the structure of marine metabolites tambjamines to gain insight into the effect induced by these compounds at the cellular level. We show how active anionophores, capable of facilitating the transmembrane transport of chloride and bicarbonate in model phospholipid liposomes, induce acidification of the cytosol and hyperpolarization of plasma cell membranes. We demonstrate how this combined effect can be used against cancer stem cells (CSCs). Hyperpolarization of cell membrane induces cell differentiation and loss of stemness of CSCs leading to effective elimination of this cancer cell subpopulation.

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M3 - Journal article

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AN - SCOPUS:84952803376

SN - 0002-7863

VL - 137

SP - 15892

EP - 15898

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 50

ER -

Soto-Cerrato V, Manuel-Manresa P, Hernando E, Calabuig-Fariñas S, Martínez-Romero A, Fernández-Dueñas V et al. Facilitated Anion Transport Induces Hyperpolarization of the Cell Membrane That Triggers Differentiation and Cell Death in Cancer Stem Cells. Journal of the American Chemical Society. 2015 Dec 23;137(50):15892-15898. Epub 2015 Dec 3. doi: 10.1021/jacs.5b09970

Facilitated Anion Transport Induces Hyperpolarization of the Cell Membrane That Triggers Differentiation and Cell Death in Cancer Stem Cells

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