Journal
ANALYTICAL CHEMISTRY
Volume 93, Issue 33, Pages 11592-11600Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.analchem.1c02249
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Funding
- National Institutes of Health [R01AR06660]
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BRCA1 gene mutations impact skeletal muscle functions, resulting in loss of muscle quality. Electrochemical and LC-MS/MS analysis of mtDNA and nDNA extracted directly from mouse skeletal muscles revealed reduced guanine content and elevated oxidative damage in KO mice.
Breast cancer 1 gene (BRCA1) DNA mutations impact skeletal muscle functions. Inducible skeletal muscle specific Brca1 homozygote knockout (Brca1KO(smi), KO) mice accumulate mitochondrial DNA (mtDNA) mutations resulting in loss of muscle quality.(1) Complementary electrochemical andmass spectrometry analyses were utilized to rapidly assess mtDNA or nuclear DNA (nDNA) extracted directly from mouse skeletal muscles. Oxidative peak currents (I-p) from DNA immobilized layer by layer (LbL) were monitored using square-wave voltammetry (SWV) via Ru(bpy)(3)(2+) electrocatalysis. I-p significantly decreased (p < 0.05) for KO mtDNA compared to heterozygous KO (Het) or wild type (WT), indicative of decreases in the guanine content. nDNA I-p significantly increased in KO compared to WT (p < 0.05), suggesting an accumulation of damaged nDNA. Guanine or oxidatively damaged guanine content was monitored via appropriate m/z mass transitions using liquid chromatography-tandem mass spectroscopy (LC-MS/MS). Guanine in both KO mtDNA and nDNA was significantly lower, while oxidatively damaged guanine in KO nDNA was significantly elevated versus WT. These data demonstrate a loss of guanine content consistent with mtDNA mutation accumulation. Oxidative damage in KO nDNA suggests that repair processes associated with Brca1 are impacted. Overall, electrochemical and LC-MS/MS analysis can provide chemical-level answers to biological model phenotypic responses as a rapid and cost-effective analysis alternative to established assays.
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