Abstract
BackgroundMitochondria (mt) are highly susceptible to reactive oxygen species (ROS). In this study, we investigated the association between a region within the displacement loop (D-loop) in mtDNA that is highly susceptible to ROS and oxidative stress markers in chronic dialysis patients. We enrolled 184 chronic dialysis patients and 213 age-matched healthy subjects for comparison. Blood levels of oxidative stress markers, such as thiobarbituric acid reactive substances (TBARS) and free thiol, and the mtDNA copy number were determined. A mononucleotide repeat sequence (CCCC...CCCTCCCCCC) between nucleotides 303 and 316-318 (D310) was identified in mtDNA.ResultsDepending on alterations in the D310 mononucleotide repeat, subjects were categorized into 4 subgroups: 7-C, 8-C, 9 or 10-C, and T-to-C transition. Oxidative stress was higher in chronic dialysis patients, evidenced by higher levels of TBARS and mtDNA copy number, and a lower level of free thiol. The distribution of 7-C, 8-C, and 9-10C in dialysis and control subjects was as follows: 7-C (38% vs. 31.5%), 8-C (35.3% vs. 43.2%), and 9-10C (24.5% vs. 22.1%). Although there were significant differences in levels of TBARS, free thiol, and the mtDNA copy number in the D310 repeat subgroups (except T-to-C transition) between dialysis patients and control subjects, post hoc analyses within the same study cohort revealed no significant differences.ConclusionAlthough oxidative stress was elevated in chronic dialysis patients and resulted in a compensatory increase in the mtDNA copy number, homopolymeric C repeats in the mtDNA region (D310), susceptible to ROS, were not associated with oxidative stress markers in these patients.
Highlights
IntroductionWe investigated the association between a region within the displacement loop (D-loop) in mtDNA that is highly susceptible to reactive oxygen species (ROS) and oxidative stress markers in chronic dialysis patients
Mitochondria are highly susceptible to reactive oxygen species (ROS)
Levels of oxidative stress variable markers and levels of blood thiobarbituric acid reactive substances (TBARS) and mtDNA copy number were higher in dialysis patients than in control subjects, while blood free thiol levels were lower in dialysis patients than in control subjects (Table 1)
Summary
We investigated the association between a region within the displacement loop (D-loop) in mtDNA that is highly susceptible to ROS and oxidative stress markers in chronic dialysis patients. Chronic kidney disease (CKD) is characterized by a state of increased oxidative stress [1] This has been evidenced by changes in oxidative stress biomarkers in the blood and in tissue DNA. We demonstrated that, in continuous ambulatory peritoneal dialysis (CAPD) patients, the level of oxidative stress biomarkers in the blood was elevated, with an accompanying increase in the copy number of mitochondrial (mt) DNA [2]. A mononucleotide repeat sequence (CCCC...CCCTCCCCCC) between nucleotides 303 and 316-318 of mtDNA has been reported to be a hotspot of deletion or insertion mutation in primary tumors [3,4,5]. The D310 repeat is a part of conserved sequence block II (CSBII), located 92 bp from the heavy-strand replication region, and mtDNA replication is initiated when CSBII forms a persistent RNA-DNA hybrid with CSBI and CSBIII regions [7]
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