Redox state and altered pyruvate metabolism contribute to a dose-dependent metformin-induced lactate production of human myotubes

Jennifer Maurer, Xinjie Zhao, Martin Irmler, Anders Gudiksen, Nanna S Pilmark, Qi Li, Thomas Goj, Johannes Beckers, Martin Hrabě de Angelis, Andreas Birkenfeld, Andreas Peter, Rainer Lehmann, Henriette Pilegaard, Kristian Karstoft, Guowang Xu, Cora Weigert*

*Corresponding author for this work

Abstract

Metformin-induced glycolysis and lactate production can lead to acidosis as a life-threatening side effect, but slight increases in blood lactate levels in a physiological range were also reported in metformin-treated patients. However, how metformin increases systemic lactate concentrations is only partly understood. Because human skeletal muscle has a high capacity to produce lactate, the aim was to elucidate the dose-dependent regulation of metformin-induced lactate production and the potential contribution of skeletal muscle to blood lactate levels under metformin treatment. This was examined by using metformin treatment (16-776 μM) of primary human myotubes and by 17 days of metformin treatment in humans. As from 78 µM, metformin induced lactate production and secretion and glucose consumption. Investigating the cellular redox state by mitochondrial respirometry, we found metformin to inhibit the respiratory chain complex I (776 µM, p < 0.01) along with decreasing the [NAD+]:[NADH] ratio (776 µM, p < 0.001). RNA sequencing and phospho-immunoblot data indicate inhibition of pyruvate oxidation mediated through phosphorylation of the pyruvate dehydrogenase (PDH) complex (39 µM, p < 0.01). On the other hand, in human skeletal muscle, phosphorylation of PDH was not altered by metformin. Nonetheless, blood lactate levels were increased under metformin treatment (p < 0.05). In conclusion, the findings suggest that metformin-induced inhibition of pyruvate oxidation combined with altered cellular redox state, shifts the equilibrium of the lactate dehydrogenase (LDH) reaction leading to a dose-dependent lactate production in primary human myotubes.

Original languageEnglish
JournalAmerican Journal of Physiology: Cell Physiology
Volume325
Issue number4
Pages (from-to)C1131-C1143
ISSN0363-6143
DOIs
Publication statusPublished - 1 Oct 2023

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