Reduced Maternal Circulating Cell-Free Mitochondrial DNA Is Associated With the Development of Preeclampsia.

Background Circulating cell-free mitochondrial DNA (ccf-mtDNA) is a damage-associated molecular pattern that reflects cell stress responses and tissue damage, but little is known about ccf-mtDNA in preeclampsia. The main objectives of this study were to determine (1) absolute concentrations of ccf-mtDNA in plasma and mitochondrial DNA content in peripheral blood mononuclear cells and (2) forms of ccf-mtDNA transport in blood from women with preeclampsia and healthy controls. In addition, we sought to establish the association between aberrance in circulating DNA-related metrics, including ccf-mtDNA and DNA clearance mechanisms, and the clinical diagnosis of preeclampsia using bootstrapped penalized logistic regression. Methods and Results Absolute concentrations of ccf-mtDNA were reduced in plasma from women with preeclampsia compared with healthy controls (P≤0.02), while mtDNA copy number in peripheral blood mononuclear cells did not differ between groups (P>0.05). While the pattern of reduced ccf-mtDNA in patients with preeclampsia remained, DNA isolation from plasma using membrane lysis buffer resulted in 1000-fold higher ccf-mtDNA concentrations in the preeclampsia group (P=0.0014) and 430-fold higher ccf-mtDNA concentrations in the control group (P<0.0001). Plasma from women with preeclampsia did not induce greater Toll-like receptor-9-induced nuclear factor kappa-light-chain enhancer of activated B cells-dependent responses in human embryonic kidney 293 cells overexpressing the human TLR-9 gene (P>0.05). Penalized regression analysis showed that women with preeclampsia were more likely to have lower concentrations of ccf-mtDNA as well as higher concentrations of nuclear DNA and DNase I compared with their matched controls. Conclusions Women with preeclampsia have aberrant circulating DNA dynamics, including reduced ccf-mtDNA concentrations and DNA clearance mechanisms, compared with gestational age-matched healthy pregnant women.

Cell-free mitochondrial DNA increases in maternal circulation during healthy pregnancy: a prospective, longitudinal study.

Mitochondrial DNA (mtDNA) exposed to the extracellular space due to cell death has immunostimulatory properties. Case-control studies reported a positive association between odds of developing preeclampsia and circulating mtDNA. These findings are based on relative quantification protocols that do not allow determination of absolute concentrations of mtDNA and are highly sensitive to nuclear DNA contamination. Furthermore, circulating mtDNA concentrations in response to normal pregnancy, which is an inflammatory state characterized by continuous placental cell apoptosis, have not been established. The main objective of this study was to determine longitudinal changes in circulating mtDNA from preconception to first trimester, third trimester, and postpartum in healthy pregnant women. Absolute real-time PCR quantification of mtDNA and nuclear DNA (nDNA) was performed on whole genomic extracts from serum using TaqMan probes and chemistry. Serum cell-free mtDNA and nDNA concentrations were greater in late pregnancy as compared with early pregnancy and postpartum. Pregnant women carrying neonates at the upper quartile of birth length distribution had higher concentrations of mtDNA in late pregnancy compared with pregnancies carrying neonates at the lower quartile. The correlation between circulating mtDNA and nDNA concentrations varied by sex (i.e., pregnancies carrying female vs. male fetuses). This study is the first to establish temporal patterns of circulating cell-free mtDNA concentrations in normal human pregnancy using absolute DNA quantification techniques. Concentrations of circulating mtDNA in normal pregnancy may be used as reference values for the development of clinical prognostic or diagnostic tests in pregnant women with, or at risk of developing, gestational complications.