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Preneoplastic cells switch to Warburg metabolism from their inception exposing multiple vulnerabilities for targeted elimination
Preneoplastic cells switch to Warburg metabolism from their inception exposing multiple vulnerabilities for targeted elimination
by Feng, Yi , Johansson, Jeanette Astorga , Chang, Kai Yee , Morton, Nicholas M , Elliot, Abigail M , Myllymäki, Henna , Kelly, Lisa , Carter, Roderick N , Cholewa-Waclaw, Justyna
in Apoptosis / Cell activation / Electron transport chain / Energy metabolism / Glycolysis / Metabolism / Metformin / Oxidative phosphorylation / Somatic cells / Tumors
2024
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Preneoplastic cells switch to Warburg metabolism from their inception exposing multiple vulnerabilities for targeted elimination
by Feng, Yi , Johansson, Jeanette Astorga , Chang, Kai Yee , Morton, Nicholas M , Elliot, Abigail M , Myllymäki, Henna , Kelly, Lisa , Carter, Roderick N , Cholewa-Waclaw, Justyna
in Apoptosis / Cell activation / Electron transport chain / Energy metabolism / Glycolysis / Metabolism / Metformin / Oxidative phosphorylation / Somatic cells / Tumors
2024
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Preneoplastic cells switch to Warburg metabolism from their inception exposing multiple vulnerabilities for targeted elimination
Preneoplastic cells switch to Warburg metabolism from their inception exposing multiple vulnerabilities for targeted elimination
by Feng, Yi , Johansson, Jeanette Astorga , Chang, Kai Yee , Morton, Nicholas M , Elliot, Abigail M , Myllymäki, Henna , Kelly, Lisa , Carter, Roderick N , Cholewa-Waclaw, Justyna
in Apoptosis / Cell activation / Electron transport chain / Energy metabolism / Glycolysis / Metabolism / Metformin / Oxidative phosphorylation / Somatic cells / Tumors
2024

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Preneoplastic cells switch to Warburg metabolism from their inception exposing multiple vulnerabilities for targeted elimination
Preneoplastic cells switch to Warburg metabolism from their inception exposing multiple vulnerabilities for targeted elimination
Journal Article

Preneoplastic cells switch to Warburg metabolism from their inception exposing multiple vulnerabilities for targeted elimination

Feng, Yi,
Johansson, Jeanette Astorga,
Chang, Kai Yee,
Morton, Nicholas M,
Elliot, Abigail M,
Myllymäki, Henna,
Kelly, Lisa,
Carter, Roderick N,
Cholewa-Waclaw, Justyna
2024
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Overview
Otto Warburg described tumour cells as displaying enhanced aerobic glycolysis whilst maintaining defective oxidative phosphorylation (OXPHOS) for energy production almost 100 years ago [1, 2]. Since then, the ‘Warburg effect’ has been widely accepted as a key feature of rapidly proliferating cancer cells [3–5]. What is not clear is how early “Warburg metabolism” initiates in cancer and whether changes in energy metabolism might influence tumour progression ab initio. We set out to investigate energy metabolism in the HRASG12V driven preneoplastic cell (PNC) at inception, in a zebrafish skin PNC model. We find that, within 24 h of HRASG12V induction, PNCs upregulate glycolysis and blocking glycolysis reduces PNC proliferation, whilst increasing available glucose enhances PNC proliferation and reduces apoptosis. Impaired OXPHOS accompanies enhanced glycolysis in PNCs, and a mild complex I inhibitor, metformin, selectively suppresses expansion of PNCs. Enhanced mitochondrial fragmentation might be underlining impaired OXPHOS and blocking mitochondrial fragmentation triggers PNC apoptosis. Our data indicate that altered energy metabolism is one of the earliest events upon oncogene activation in somatic cells, which allows a targeted and effective PNC elimination.
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Publisher
Nature Publishing Group
Subject

Apoptosis

/ Cell activation

/ Electron transport chain

/ Energy metabolism

/ Glycolysis

/ Metabolism

/ Metformin

/ Oxidative phosphorylation

/ Somatic cells

/ Tumors

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