Open AccessSelective Vulnerability of Cancer Cells by Inhibition of Ca2+ Transfer from Endoplasmic Reticulum to Mitochondria
Author(s) -
César Cárdenas,
Marioly Müller,
Andrew S. McNeal,
Alenka Lovy,
Fabián Jaña,
Galdo Bustos,
Félix A. Urra,
Natalia SmithCortinez,
Jordi Molgó,
J. Alan Diehl,
Todd W. Ridky,
J. Kevin Foskett
Publication year - 2016
Publication title -
cell reports
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 6.264
H-Index - 154
eISSN - 2639-1856
pISSN - 2211-1247
DOI - 10.1016/j.celrep.2016.02.030
Subject(s) - endoplasmic reticulum , mitochondrion , microbiology and biotechnology , vulnerability (computing) , chemistry , biology , computer science , computer security
In the absence of low-level ER-to-mitochondrial Ca(2+) transfer, ATP levels fall, and AMPK-dependent, mTOR-independent autophagy is induced as an essential survival mechanism in many cell types. Here, we demonstrate that tumorigenic cancer cell lines, transformed primary human fibroblasts, and tumors in vivo respond similarly but that autophagy is insufficient for survival, and cancer cells die while their normal counterparts are spared. Cancer cell death is due to compromised bioenergetics that can be rescued with metabolic substrates or nucleotides and caused by necrosis associated with mitotic catastrophe during their proliferation. Our findings reveal an unexpected dependency on constitutive Ca(2+) transfer to mitochondria for viability of tumorigenic cells and suggest that mitochondrial Ca(2+) addiction is a feature of cancer cells.
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