Abstract

Mitochondrial reactive oxygen species (ROS) production is a tightly regulated redox signal that transmits information from the organelle to the cell. Other mitochondrial signals, such as ATP, are sensed by enzymes, including the key metabolic sensor and regulator, AMP-activated protein kinase (AMPK). AMPK responds to the cellular ATP/AMP and ATP/ADP ratios by matching mitochondrial ATP production to demand. Previous reports proposed that AMPK activity also responds to ROS, by ROS acting on redox-sensitive cysteine residues (Cys-299/Cys-304) on the AMPK α subunit. This suggests an appealing model in which mitochondria fine-tune AMPK activity by both adenine nucleotide–dependent mechanisms and by redox signals. Here we assessed whether physiological levels of ROS directly alter AMPK activity. To this end we added exogenous hydrogen peroxide (H2O2) to cells and utilized the mitochondria-targeted redox cycler MitoParaquat to generate ROS within mitochondria without disrupting oxidative phosphorylation. Mitochondrial and cytosolic thiol oxidation was assessed by measuring peroxiredoxin dimerization and by redox-sensitive fluorescent proteins. Replacing the putative redox-active cysteine residues on AMPK α1 with alanines did not alter the response of AMPK to H2O2. In parallel with measurements of AMPK activity, we measured the cell ATP/ADP ratio. This allowed us to separate the effects on AMPK activity due to ROS production from those caused by changes in this ratio. We conclude that AMPK activity in response to redox changes is not due to direct action on AMPK itself, but is a secondary consequence of redox effects on other processes, such as mitochondrial ATP production.

Highlights

  • Mitochondrial reactive oxygen species (ROS) production is a tightly regulated redox signal that transmits information from the organelle to the cell

  • We first established how AMPK activity responded to the ATP/ADP ratio, which determines cellular AMP and accounts for AMPK regulation by adenine nucleotides [3, 4]

  • The appealing possibility that redox signaling from mitochondria can modulate the activity of the key energy regulator, AMPK, independently of the effects of adenine nucleotides offers possibilities of new modes of regulation of mitochondrial function

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Summary

Edited by Ursula Jakob

Mitochondrial reactive oxygen species (ROS) production is a tightly regulated redox signal that transmits information from the organelle to the cell. A scenario in which mitochondrial functional status and ROS production can alter AMPK activity by two parallel but independent pathways: through changes in adenine nucleotides and by redox signaling electron transport; Prx, peroxiredoxin; ACC, acetyl-CoA carboxylase; FBS, fetal bovine serum; SI, signal intensities; ANOVA, analysis of variance’ roGFP, reduction-oxidation sensitive green fluorescent protein.

ROS β AMPKα y
Results
AMPdependent control indirect AMPK activators ADaM site activator
Conclusions
Experimental procedures
MitoPQ MitoPQ
Cell culture
ST loop
Western blotting
AMPK SAMS kinase assay
Statistical analysis

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