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Synthetic ion transporters can induce apoptosis by facilitating chloride anion transport into cells

Synthetic ion transporters can induce apoptosis by facilitating chloride anion transport into cells
Synthetic ion transporters can induce apoptosis by facilitating chloride anion transport into cells
Anion transporters based on small molecules have received attention as therapeutic agents because of their potential to disrupt cellular ion homeostasis. However, a direct correlation between a change in cellular chloride anion concentration and cytotoxicity has not been established for synthetic ion carriers. Here we show that two pyridine diamide-strapped calix[4]pyrroles induce coupled chloride anion and sodium cation transport in both liposomal models and cells, and promote cell death by increasing intracellular chloride and sodium ion concentrations. Removing either ion from the extracellular media or blocking natural sodium channels with amiloride prevents this effect. Cell experiments show that the ion transporters induce the sodium chloride influx, which leads to an increased concentration of reactive oxygen species, release of cytochrome c from the mitochondria and apoptosis via caspase activation. However, they do not activate the caspase-independent apoptotic pathway associated with the apoptosis-inducing factor. Ion transporters, therefore, represent an attractive approach for regulating cellular processes that are normally controlled tightly by homeostasis.
1755-4330
885-892
Ko, Sung-Kyun
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Kim, Sung Kuk
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Share, Andrew
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Lynch, Vincent M.
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Park, Jinhong
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Namkung, Wan
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Van Rossom, Wim
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Busschaert, Nathalie
bf307f09-0a86-4a03-afd8-4b0a59a8f72b
Gale, Philip A.
c840b7e9-6847-4843-91af-fa0f8563d943
Sessler, Jonathan L.
d793ea76-a3a2-4ce1-a8d5-aca7d3307fbe
Shin, Injae
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Ko, Sung-Kyun
ff07aa3b-51b1-430a-88c5-ab695c4423da
Kim, Sung Kuk
f23a719e-32d7-424e-92b3-aad01d17cef7
Share, Andrew
97d17394-dc6e-46d7-b7ad-4138713257e4
Lynch, Vincent M.
1ca6d39d-b02d-4141-ab55-f566f00a09b5
Park, Jinhong
45d2efaf-4e0f-4193-b732-43c77d68d193
Namkung, Wan
a20dc0ae-2647-4ee7-aee6-8e62e5a37ca2
Van Rossom, Wim
4a3f4484-88e4-4bf8-aa7e-e36b646386b5
Busschaert, Nathalie
bf307f09-0a86-4a03-afd8-4b0a59a8f72b
Gale, Philip A.
c840b7e9-6847-4843-91af-fa0f8563d943
Sessler, Jonathan L.
d793ea76-a3a2-4ce1-a8d5-aca7d3307fbe
Shin, Injae
486117e1-e1ed-4ef6-95c2-2f8dd45f1c23

Ko, Sung-Kyun, Kim, Sung Kuk, Share, Andrew, Lynch, Vincent M., Park, Jinhong, Namkung, Wan, Van Rossom, Wim, Busschaert, Nathalie, Gale, Philip A., Sessler, Jonathan L. and Shin, Injae (2014) Synthetic ion transporters can induce apoptosis by facilitating chloride anion transport into cells. Nature Chemistry, 6, 885-892. (doi:10.1038/NCHEM.2021).

Record type: Article

Abstract

Anion transporters based on small molecules have received attention as therapeutic agents because of their potential to disrupt cellular ion homeostasis. However, a direct correlation between a change in cellular chloride anion concentration and cytotoxicity has not been established for synthetic ion carriers. Here we show that two pyridine diamide-strapped calix[4]pyrroles induce coupled chloride anion and sodium cation transport in both liposomal models and cells, and promote cell death by increasing intracellular chloride and sodium ion concentrations. Removing either ion from the extracellular media or blocking natural sodium channels with amiloride prevents this effect. Cell experiments show that the ion transporters induce the sodium chloride influx, which leads to an increased concentration of reactive oxygen species, release of cytochrome c from the mitochondria and apoptosis via caspase activation. However, they do not activate the caspase-independent apoptotic pathway associated with the apoptosis-inducing factor. Ion transporters, therefore, represent an attractive approach for regulating cellular processes that are normally controlled tightly by homeostasis.

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2014 Nature Chem.doc - Accepted Manuscript
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Accepted/In Press date: 30 June 2014
e-pub ahead of print date: 11 August 2014
Published date: 11 August 2014
Organisations: Organic Chemistry: SCF

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Local EPrints ID: 367011
URI: http://eprints.soton.ac.uk/id/eprint/367011
DOI: doi:10.1038/NCHEM.2021
ISSN: 1755-4330
PURE UUID: 24a9001d-07d4-4c52-8846-24d4158175b7
ORCID for Philip A. Gale: ORCID iD orcid.org/0000-0001-9751-4910

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Date deposited: 21 Jul 2014 10:55
Last modified: 15 Mar 2024 03:06

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Contributors

Author: Sung-Kyun Ko
Author: Sung Kuk Kim
Author: Andrew Share
Author: Vincent M. Lynch
Author: Jinhong Park
Author: Wan Namkung
Author: Wim Van Rossom
Author: Nathalie Busschaert
Author: Philip A. Gale ORCID iD
Author: Jonathan L. Sessler
Author: Injae Shin

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