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  • Instability in NAD+ metabolism leads to impaired cardiac mitochondrial function and communication.

Instability in NAD+ metabolism leads to impaired cardiac mitochondrial function and communication.

eLife (2021-08-04)
Knut H Lauritzen, Maria Belland Olsen, Mohammed Shakil Ahmed, Kuan Yang, Johanne Egge Rinholm, Linda H Bergersen, Qin Ying Esbensen, Lars Jansen Sverkeli, Mathias Ziegler, Håvard Attramadal, Bente Halvorsen, Pål Aukrust, Arne Yndestad
ABSTRACT

Poly(ADP-ribose) polymerase (PARP) enzymes initiate (mt)DNA repair mechanisms and use nicotinamide adenine dinucleotide (NAD+) as energy source. Prolonged PARP activity can drain cellular NAD+ reserves, leading to de-regulation of important molecular processes. Here, we provide evidence of a pathophysiological mechanism that connects mtDNA damage to cardiac dysfunction via reduced NAD+ levels and loss of mitochondrial function and communication. Using a transgenic model, we demonstrate that high levels of mice cardiomyocyte mtDNA damage cause a reduction in NAD+ levels due to extreme DNA repair activity, causing impaired activation of NAD+-dependent SIRT3. In addition, we show that myocardial mtDNA damage in combination with high dosages of nicotinamideriboside (NR) causes an inhibition of sirtuin activity due to accumulation of nicotinamide (NAM), in addition to irregular cardiac mitochondrial morphology. Consequently, high doses of NR should be used with caution, especially when cardiomyopathic symptoms are caused by mitochondrial dysfunction and instability of mtDNA.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Monoclonal Anti-β-Actin antibody produced in mouse, clone AC-15, ascites fluid
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Trypsin-EDTA solution, 0.25%, sterile-filtered, BioReagent, suitable for cell culture, 2.5 g porcine trypsin and 0.2 g EDTA, 4Na per liter of Hanks′ Balanced Salt Solution with phenol red
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Sodium succinate dibasic hexahydrate, ReagentPlus®, ≥99%
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AZD2461, ≥98% (HPLC)
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Cytochrome c from equine heart, ≥95% based on Mol. Wt. 12,384 basis