Author
Listed:
- Johannes Meiser
(Cancer Research UK Beatson Institute)
- Anne Schuster
(Luxembourg Institute of Health)
- Matthias Pietzke
(Cancer Research UK Beatson Institute)
- Johan Vande Voorde
(Cancer Research UK Beatson Institute)
- Dimitris Athineos
(Cancer Research UK Beatson Institute)
- Kristell Oizel
(Cancer Research UK Beatson Institute)
- Guillermo Burgos-Barragan
(MRC Laboratory of Molecular Biology)
- Niek Wit
(MRC Laboratory of Molecular Biology)
- Sandeep Dhayade
(Cancer Research UK Beatson Institute)
- Jennifer P. Morton
(Cancer Research UK Beatson Institute
University of Glasgow)
- Emmanuel Dornier
(Cancer Research UK Beatson Institute)
- David Sumpton
(Cancer Research UK Beatson Institute)
- Gillian M. Mackay
(Cancer Research UK Beatson Institute)
- Karen Blyth
(Cancer Research UK Beatson Institute)
- Ketan J. Patel
(MRC Laboratory of Molecular Biology
University of Cambridge)
- Simone P. Niclou
(Luxembourg Institute of Health
University of Bergen)
- Alexei Vazquez
(Cancer Research UK Beatson Institute
University of Glasgow)
Abstract
Formate overflow coupled to mitochondrial oxidative metabolism\ has been observed in cancer cell lines, but whether that takes place in the tumor microenvironment is not known. Here we report the observation of serine catabolism to formate in normal murine tissues, with a relative rate correlating with serine levels and the tissue oxidative state. Yet, serine catabolism to formate is increased in the transformed tissue of in vivo models of intestinal adenomas and mammary carcinomas. The increased serine catabolism to formate is associated with increased serum formate levels. Finally, we show that inhibition of formate production by genetic interference reduces cancer cell invasion and this phenotype can be rescued by exogenous formate. We conclude that increased formate overflow is a hallmark of oxidative cancers and that high formate levels promote invasion via a yet unknown mechanism.
Suggested Citation
Johannes Meiser & Anne Schuster & Matthias Pietzke & Johan Vande Voorde & Dimitris Athineos & Kristell Oizel & Guillermo Burgos-Barragan & Niek Wit & Sandeep Dhayade & Jennifer P. Morton & Emmanuel Do, 2018.
"Increased formate overflow is a hallmark of oxidative cancer,"
Nature Communications, Nature, vol. 9(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-03777-w
DOI: 10.1038/s41467-018-03777-w
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