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TMX1 determines cancer cell metabolism as a thiol-based modulator of ER-mitochondria Ca2+ flux. | LitMetric
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TMX1 determines cancer cell metabolism as a thiol-based modulator of ER-mitochondria Ca2+ flux.

Arun Raturi Tomás Gutiérrez Carolina Ortiz-Sandoval Araya Ruangkittisakul Maria Sol Herrera-Cruz Jeremy P Rockley Kevin Gesson Dimitar Ourdev Phing-How Lou Eliana Lucchinetti Nasser Tahbaz Michael Zaugg Shairaz Baksh Klaus Ballanyi Thomas Simmen

J Cell Biol

Department of Cell Biology, Faculty of Medicine and Dentistry, University of Alberta, Edmonton, Alberta T6G2H7, Canada

Published: August 2016

AI Article Synopsis

  • The movement of calcium ions (Ca(2+)) between the endoplasmic reticulum (ER) and mitochondria is crucial for maintaining cellular metabolism, especially in tumor cells where this process is often disrupted, contributing to chemotherapy resistance and tumor growth.
  • TMX1, a redox-sensitive protein located at the mitochondria-associated membrane (MAM), is linked to the regulation of this Ca(2+) flux; low levels of TMX1 result in altered calcium dynamics that favor cancer progression.
  • TMX1 functions as a tumor suppressor by enhancing mitochondrial ATP production and apoptosis, but it needs specific modifications to effectively target MAM and facilitate ER-mitochondria communication.

Article Abstract

The flux of Ca(2+) from the endoplasmic reticulum (ER) to mitochondria regulates mitochondria metabolism. Within tumor tissue, mitochondria metabolism is frequently repressed, leading to chemotherapy resistance and increased growth of the tumor mass. Therefore, altered ER-mitochondria Ca(2+) flux could be a cancer hallmark, but only a few regulatory proteins of this mechanism are currently known. One candidate is the redox-sensitive oxidoreductase TMX1 that is enriched on the mitochondria-associated membrane (MAM), the site of ER-mitochondria Ca(2+) flux. Our findings demonstrate that cancer cells with low TMX1 exhibit increased ER Ca(2+), accelerated cytosolic Ca(2+) clearance, and reduced Ca(2+) transfer to mitochondria. Thus, low levels of TMX1 reduce ER-mitochondria contacts, shift bioenergetics away from mitochondria, and accelerate tumor growth. For its role in intracellular ER-mitochondria Ca(2+) flux, TMX1 requires its thioredoxin motif and palmitoylation to target to the MAM. As a thiol-based tumor suppressor, TMX1 increases mitochondrial ATP production and apoptosis progression.

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 Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4987292PMC
http://dx.doi.org/10.1083/jcb.201512077DOI Listing

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