Squaramide-based synthetic chloride transporters activate TFEB but block autophagic flux
Access status:
Open Access
Type
ArticleAuthor/s
Zhang, ShaoyiWang, Yan
Xie, Wei
Howe, Ethan N.W.
Busschaert, Nathalie
Sauvat, Allan
Leduc, Marion
Gomes-da-Silva, Ligia C.
Chen, Guo
Martins, Isabelle
Deng, Xiaxing
Maiuri, Luigi
Kepp, Oliver
Soussi, Thierry
Gale, Philip A.
Zamzami, Naoufal
Kroemer, Guido
Abstract
Cystic fibrosis is a disease caused by defective function of a chloride channel coupled to a blockade of autophagic flux. It has been proposed to use synthetic chloride transporters as pharmacological agents to compensate insufficient chloride fluxes. Here, we report that such ...
See moreCystic fibrosis is a disease caused by defective function of a chloride channel coupled to a blockade of autophagic flux. It has been proposed to use synthetic chloride transporters as pharmacological agents to compensate insufficient chloride fluxes. Here, we report that such chloride anionophores block autophagic flux in spite of the fact that they activate the pro-autophagic transcription factor EB (TFEB) coupled to the inhibition of the autophagy-suppressive mTORC1 kinase activity. Two synthetic chloride transporters (SQ1 and SQ2) caused a partially TFEB-dependent relocation of the autophagic marker LC3 to the Golgi apparatus. Inhibition of TFEB activation using a calcium chelator or calcineurin inhibitors reduced the formation of LC3 puncta in cells, yet did not affect the cytotoxic action of SQ1 and SQ2 that could be observed after prolonged incubation. In conclusion, the squaramide-based synthetic chloride transporters studied in this work (which can also dissipate pH gradients) are probably not appropriate for the treatment of cystic fibrosis yet might be used for other indications such as cancer.
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See moreCystic fibrosis is a disease caused by defective function of a chloride channel coupled to a blockade of autophagic flux. It has been proposed to use synthetic chloride transporters as pharmacological agents to compensate insufficient chloride fluxes. Here, we report that such chloride anionophores block autophagic flux in spite of the fact that they activate the pro-autophagic transcription factor EB (TFEB) coupled to the inhibition of the autophagy-suppressive mTORC1 kinase activity. Two synthetic chloride transporters (SQ1 and SQ2) caused a partially TFEB-dependent relocation of the autophagic marker LC3 to the Golgi apparatus. Inhibition of TFEB activation using a calcium chelator or calcineurin inhibitors reduced the formation of LC3 puncta in cells, yet did not affect the cytotoxic action of SQ1 and SQ2 that could be observed after prolonged incubation. In conclusion, the squaramide-based synthetic chloride transporters studied in this work (which can also dissipate pH gradients) are probably not appropriate for the treatment of cystic fibrosis yet might be used for other indications such as cancer.
See less
Date
2019-02-01Publisher
Springer NatureLicence
CC-BY 4.0Citation
Cell Death and DiseaseZhang, S., Wang, Y., Xie, W., Howe, E. N. W., Busschaert, N., Sauvat, A., … Kroemer, G. (2019). Squaramide-based synthetic chloride transporters activate TFEB but block autophagic flux. Cell Death & Disease, 10(3). https://doi.org/10.1038/s41419-019-1474-8
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