p53 Orchestrates the PGC-1α-Mediated Antioxidant Response Upon Mild Redox and Metabolic Imbalance

Aquilano, Katia; Baldelli, Sara; Pagliei, Beatrice; Cannata, Stefano; Rotilio, Giuseppe; Ciriolo, Maria Rosa

doi:10.1089/ars.2012.4615

Cited by 173 publications

(193 citation statements)

References 49 publications

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“…In particular, caloric restriction increases both eNOS and nNOS activity (Nisoli et al, 2005;Fusco et al, 2012). In our laboratory, we have shown that, in skeletal muscle, caloric restriction also increases NO bioavailability independently of NOS upregulation (Aquilano et al, 2013a). In particular, caloric restriction reduces the level of GSH, the main intracellular NO buffer (Aquilano et al, 2011a;Aquilano et al, 2011b;Baldelli et al, 2008).…”

Section: Pgc-1a and No In The Regulation Of Oxidative Stressmentioning

confidence: 84%

“…In particular, caloric restriction reduces the level of GSH, the main intracellular NO buffer (Aquilano et al, 2011a;Aquilano et al, 2011b;Baldelli et al, 2008). The resulting increased NO bioavailability is the genuine mediator of the upregulation of PGC-1a, which, in turn, favours the expression of antioxidant proteins SOD2 and c-GCS (also known as glutamate cysteine ligase) (Aquilano et al, 2013a).…”

Section: Pgc-1a and No In The Regulation Of Oxidative Stressmentioning

confidence: 99%

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The role of nNOS and PGC-1α in skeletal muscle cells

Baldelli

Barbato

Tatulli

et al. 2014

Journal of Cell Science

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Neuronal nitric oxide synthase (nNOS) and peroxisome proliferator activated receptor c co-activator 1a (PGC-1a) are two fundamental factors involved in the regulation of skeletal muscle cell metabolism. nNOS exists as several alternatively spliced variants, each having a specific pattern of subcellular localisation. Nitric oxide (NO) functions as a second messenger in signal transduction pathways that lead to the expression of metabolic genes involved in oxidative metabolism, vasodilatation and skeletal muscle contraction. PGC1a is a transcriptional coactivator and represents a master regulator of mitochondrial biogenesis by promoting the transcription of mitochondrial genes. PGC-1a can be induced during physical exercise, and it plays a key role in coordinating the oxidation of intracellular fatty acids with mitochondrial remodelling. Several lines of evidence demonstrate that NO could act as a key regulator of PGC-1a expression; however, the link between nNOS and PGC-1a in skeletal muscle remains only poorly understood. In this Commentary, we review important metabolic pathways that are governed by nNOS and PGC-1a, and aim to highlight how they might intersect and cooperatively regulate skeletal muscle mitochondrial and lipid energetic metabolism and contraction.

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Section: Pgc-1a and No In The Regulation Of Oxidative Stressmentioning

confidence: 84%

Section: Pgc-1a and No In The Regulation Of Oxidative Stressmentioning

confidence: 99%

The role of nNOS and PGC-1α in skeletal muscle cells

Baldelli

Barbato

Tatulli

et al. 2014

Journal of Cell Science

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“…p53 has been reported to be the modulator of oxidative stress-it downregulates low oxidative stress and exacerbates higher levels of stresses (22). For example, at low levels of oxidative stress, p53 activates antioxidant genes such as sestrin and glutathione peroxidase (1,6,16). Additionally, p53 induces the expression of TP53-induced glycolysis and apoptosis regulator, which slows glycolysis and promotes the production of NADPH to decrease ROS levels (50).…”

Section: Discussionmentioning

confidence: 99%

mTOR plays a critical role in p53-induced oxidative kidney cell injury in HIVAN

Rai

Plagov

Lan

et al. 2013

American Journal of Physiology-Renal Physiology

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“…After treatment, oligonucleotide pulldown assay was carried out as described previously (40) by using the cAMP response element sequence on the mouse PGC-1␣ gene (ppargc1a) promoter (supplemental Table S1). Oligonucleotide pulldown specificity was demonstrated with mutant oligonucleotides used as negative controls (data not shown).…”

Section: Methodsmentioning

confidence: 99%

Nuclear Recruitment of Neuronal Nitric-oxide Synthase by α-Syntrophin Is Crucial for the Induction of Mitochondrial Biogenesis

Aquilano

Baldelli

Ciriolo

2014

Journal of Biological Chemistry

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Background: NO is involved in the induction of mitochondrial biogenesis. Results: Mitochondrial biogenesis is induced only when neuronal NO synthase (nNOS) is recruited to nuclei, an event that is mediated by ␣-Syntrophin. Conclusion: Nuclear NO production is crucial for the induction of mitochondrial biogenesis. Significance: Impairment of nuclear nNOS localization could be the cause of myopathies associated with mitochondrial dysfunction.

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p53 Orchestrates the PGC-1α-Mediated Antioxidant Response Upon Mild Redox and Metabolic Imbalance

Cited by 173 publications

References 49 publications

The role of nNOS and PGC-1α in skeletal muscle cells

The role of nNOS and PGC-1α in skeletal muscle cells

mTOR plays a critical role in p53-induced oxidative kidney cell injury in HIVAN

Nuclear Recruitment of Neuronal Nitric-oxide Synthase by α-Syntrophin Is Crucial for the Induction of Mitochondrial Biogenesis

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