Free Methylglyoxal and Lactate Produced and Released by Cultured Cancer and Non-Cancer Cells: Implications for Tumor Growth and Development

Free Methylglyoxal and Lactate Produced and Released by Cultured Cancer and Non-Cancer Cells: Implications for Tumor Growth and Development

We have previously shown that in cancer patients, free methylglyoxal (MG), a side-product of glycolysis, is recovered from tumors at significantly higher levels than from their corresponding non-cancerous tissues. We also recently confirmed our initial experimental finding that in these patients, fr...

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Bibliographic Details
Main Authors: Dominique Belpomme, Philippe Irigaray, Jean-Marc Alberto, Clément Poletti, Charlotte Hinault-Boyer, Stéphanie Lacomme
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Cells
Subjects:
methylglyoxal
lactate
Warburg effect
glycolysis
tumor growth
cancer cells
Online Access:https://www.mdpi.com/2073-4409/14/12/931
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Summary:We have previously shown that in cancer patients, free methylglyoxal (MG), a side-product of glycolysis, is recovered from tumors at significantly higher levels than from their corresponding non-cancerous tissues. We also recently confirmed our initial experimental finding that in these patients, free MG peripheral blood levels correlate positively with tumor growth, making free MG levels a new metabolic biomarker of tumor growth of interest to detect cancer and clinically follow cancer patients with no available biomarkers. Now we measure free MG and lactate produced by different cancer and normal cells cultured at low or high glucose concentration and in normoxic or hypoxic conditions to question whether cancer cells and non-cancer cells in tumors produce and release free MG and lactate. Surprisingly, we found that normal fibroblastic and endothelial cell lines grown in normoxic conditions produce and release high free MG levels, which we confirmed for non-transformed normal fibroblasts, albeit at significantly lower levels. Cancer cells generally significantly increased their free MG production and release when cultured in high glucose concentration, while normal cells generally did not. Furthermore, in normoxic conditions, normal fibroblastic cells, in addition to free MG, may produce and release lactate. From this data, we propose that in malignant tumors, both cancer and fibroblastic stromal cells may contribute to tumor growth and development by producing via glycolysis both free MG and D-lactate, which, in addition to L-lactate, may be part of the core hallmark of cell metabolic reprogramming in cancer.
ISSN:2073-4409

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