Prdx6 Prevents Diabetic Myopathy by Improving Skeletal Muscle Cell Differentiation

Pacifici, Francesca; Capuani, Barbara; Piermarini, Francesca; Pastore, Donatella; Arriga, Roberto; Coppola, Andrea; Rea, Silvia; Donadel, Giulia; Bellia, Alfonso; Della-Morte, David; Lauro, Davide

doi:10.2337/db18-1929-p

Cited by 1 publication

(2 citation statements)

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“…A recent report seems to point to a role for Prdx6 in glucose homeostasis, primarily via its antioxidant role [69]. Reports elsewhere indicate that the pathophysiological impairments associated with diabetes, such as sarcopenia (loss of muscle mass), muscle atrophy, and diabetic myopathy can potentially be rescued by Prdx6 [76]. Gene expression of MyoD and myogenin, that participate in the differentiation of muscle cells, was observed to be significantly lower in Prdx6-null mice as compared to wild type controls [76].…”

Section: Prdx6 In the Pathogenesis Of Diabetesmentioning

confidence: 99%

“…Reports elsewhere indicate that the pathophysiological impairments associated with diabetes, such as sarcopenia (loss of muscle mass), muscle atrophy, and diabetic myopathy can potentially be rescued by Prdx6 [76]. Gene expression of MyoD and myogenin, that participate in the differentiation of muscle cells, was observed to be significantly lower in Prdx6-null mice as compared to wild type controls [76]. This points to a role for Prdx6 in the maintenance of muscle mass and points to a possible use of this enzyme for therapy in diabetic myopathy and sarcopenia.…”

Section: Prdx6 In the Pathogenesis Of Diabetesmentioning

confidence: 99%

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Peroxiredoxin6 in Endothelial Signaling

Patel

Chatterjee

2019

Antioxidants

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Peroxiredoxins (Prdx) are a ubiquitous family of highly conserved antioxidant enzymes with a cysteine residue that participate in the reduction of peroxides. This family comprises members Prdx1–6, of which Peroxiredoxin 6 (Prdx6) is unique in that it is multifunctional with the ability to neutralize peroxides (peroxidase activity) and to produce reactive oxygen species (ROS) via its phospholipase (PLA2) activity that drives assembly of NADPH oxidase (NOX2). From the crystal structure, a C47 residue is responsible for peroxidase activity while a catalytic triad (S32, H26, and D140) has been identified as the active site for its PLA2 activity. This paradox of being an antioxidant as well as an oxidant generator implies that Prdx6 is a regulator of cellular redox equilibrium (graphical abstract). It also indicates that a fine-tuned regulation of Prdx6 expression and activity is crucial to cellular homeostasis. This is specifically important in the endothelium, where ROS production and signaling are critical players in inflammation, injury, and repair, that collectively signal the onset of vascular diseases. Here we review the role of Prdx6 as a regulator of redox signaling, specifically in the endothelium and in mediating various pathologies.

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Section: Prdx6 In the Pathogenesis Of Diabetesmentioning

confidence: 99%

Section: Prdx6 In the Pathogenesis Of Diabetesmentioning

confidence: 99%