Laurent Bultot scite author profile

Adult skeletal muscle has the unique capacity to regenerate. Muscle regeneration is always associated with inflammation and notably macrophages (MPs), which play dual role. Soon after injury, inflammatory monocyte‐derived macrophages (M1 phenotype) stimulate myogenic cell proliferation. After phagocytosis of muscle debris, MPs switch their phenotype to acquire an anti‐inflammatory profile (M2) and stimulate myogenic cell differentiation and myofibre growth. Here, we explored the role of AMPK in the resolution of inflammation during muscle repair. AMPKα1 KO muscle shows both a delay and an impairment of post‐injury regeneration. These deficiencies are also observed in LysM‐CRE;AMPKfl/fl muscle, confirming the MP specificity of AMPK requirement. In vitro, AMPKα1 KO MPs hardly acquire a M2 profile upon cytokine stimulation. Their phagocytic activity is also altered. In vivo analysis of MP subpopulations (using the AMPKα1−/−;CX3CR1GFP/+ mouse) during muscle repair shows that the number of intramuscular MPs exhibiting the M2 phenotype is reduced in the AMPKα1 KO compared to the WT mouse. Accordingly, leukocytes from AMPKα1 KO muscle do not increase their expression of markers associated with the resolution of inflammation during muscle regeneration. These results strongly support that AMPKα1 is one key regulator of MP switch at time of resolution of inflammation and is essential for a proper muscle repair.

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AMPK activation counteracts cardiac hypertrophy by reducing O-GlcNAcylation

Gélinas

et al. 2018

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AMP-activated protein kinase (AMPK) has been shown to inhibit cardiac hypertrophy. Here, we show that submaximal AMPK activation blocks cardiomyocyte hypertrophy without affecting downstream targets previously suggested to be involved, such as p70 ribosomal S6 protein kinase, calcineurin/nuclear factor of activated T cells (NFAT) and extracellular signal-regulated kinases. Instead, cardiomyocyte hypertrophy is accompanied by increased protein O-GlcNAcylation, which is reversed by AMPK activation. Decreasing O-GlcNAcylation by inhibitors of the glutamine:fructose-6-phosphate aminotransferase (GFAT), blocks cardiomyocyte hypertrophy, mimicking AMPK activation. Conversely, O-GlcNAcylation-inducing agents counteract the anti-hypertrophic effect of AMPK. In vivo, AMPK activation prevents myocardial hypertrophy and the concomitant rise of O-GlcNAcylation in wild-type but not in AMPKα2-deficient mice. Treatment of wild-type mice with O-GlcNAcylation-inducing agents reverses AMPK action. Finally, we demonstrate that AMPK inhibits O-GlcNAcylation by mainly controlling GFAT phosphorylation, thereby reducing O-GlcNAcylation of proteins such as troponin T. We conclude that AMPK activation prevents cardiac hypertrophy predominantly by inhibiting O-GlcNAcylation.

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Medium‐chain fatty acids inhibit mitochondrial metabolism in astrocytes promoting astrocyte‐neuron lactate and ketone body shuttle systems

Thévenet¹,

Marchi²,

et al. 2016

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Medium-chain triglycerides have been used as part of a ketogenic diet effective in reducing epileptic episodes. The health benefits of the derived medium-chain fatty acids (MCFAs) are thought to result from the stimulation of liver ketogenesis providing fuel for the brain. We tested whether MCFAs have direct effects on energy metabolism in induced pluripotent stem cell-derived human astrocytes and neurons. Using single-cell imaging, we observed an acute pronounced reduction of the mitochondrial electrical potential and a concomitant drop of the NAD(P)H signal in astrocytes, but not in neurons. Despite the observed effects on mitochondrial function, MCFAs did not lower intracellular ATP levels or activate the energy sensor AMP-activated protein kinase. ATP concentrations in astrocytes were unaltered, even when blocking the respiratory chain, suggesting compensation through accelerated glycolysis. The MCFA decanoic acid (300 μM) promoted glycolysis and augmented lactate formation by 49.6%. The shorter fatty acid octanoic acid (300 μM) did not affect glycolysis but increased the rates of astrocyte ketogenesis 2.17-fold compared with that of control cells. MCFAs may have brain health benefits through the modulation of astrocyte metabolism leading to activation of shuttle systems that provide fuel to neighboring neurons in the form of lactate and ketone bodies.-Thevenet, J., De Marchi, U., Santo Domingo, J., Christinat, N., Bultot, L., Lefebvre, G., Sakamoto, K., Descombes, P., Masoodi, M., Wiederkehr, A. Medium-chain fatty acids inhibit mitochondrial metabolism in astrocytes promoting astrocyte-neuron lactate and ketone body shuttle systems.

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Mechanism of Action of Compound-13: An α1-Selective Small Molecule Activator of AMPK

Hunter

Foretz

Bultot

et al. 2014

Chemistry & Biology

108

106

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SummaryAMPK is a sensor of cellular energy status and a promising target for drugs aimed at metabolic disorders. We have studied the selectivity and mechanism of a recently described activator, C2, and its cell-permeable prodrug, C13. C2 was a potent allosteric activator of α1-complexes that, like AMP, also protected against Thr172 dephosphorylation. Compared with AMP, C2 caused only partial allosteric activation of α2-complexes and failed to protect them against dephosphorylation. We show that both effects could be fully restored by exchanging part of the linker between the autoinhibitory and C-terminal domains in α2, containing the equivalent region from α1 thought to interact with AMP bound in site 3 of the γ subunit. Consistent with our results in cell-free assays, C13 potently inhibited lipid synthesis in hepatocytes from wild-type and was largely ineffective in AMPK-knockout hepatocytes; its effects were more severely affected by knockout of α1 than of α2, β1, or β2.

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Laurent Bultot

AMPKα1 Regulates Macrophage Skewing at the Time of Resolution of Inflammation during Skeletal Muscle Regeneration

AMPK activation counteracts cardiac hypertrophy by reducing O-GlcNAcylation

Medium‐chain fatty acids inhibit mitochondrial metabolism in astrocytes promoting astrocyte‐neuron lactate and ketone body shuttle systems

Mechanism of Action of Compound-13: An α1-Selective Small Molecule Activator of AMPK

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