Markers of placental function correlate with prevalence and quantity of nucleated fetal cells in maternal circulation in normotensive term pregnancies
Abstract Introduction Transplacental fetal cell transfer results in the engraftment of fetal‐origin cells in the pregnant woman's body, a phenomenon termed fetal microchimerism. Increased fetal microchimerism measured decades postpartum is implicated in maternal inflammatory disease. Understand...
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| Main Authors: | , , , , , , , |
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| Format: | Article |
| Language: | English |
| Published: |
Wiley
2023-06-01
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| Series: | Acta Obstetricia et Gynecologica Scandinavica |
| Subjects: | |
| Online Access: | https://doi.org/10.1111/aogs.14547 |
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| Summary: | Abstract Introduction Transplacental fetal cell transfer results in the engraftment of fetal‐origin cells in the pregnant woman's body, a phenomenon termed fetal microchimerism. Increased fetal microchimerism measured decades postpartum is implicated in maternal inflammatory disease. Understanding which factors cause increased fetal microchimerism is therefore important. During pregnancy, circulating fetal microchimerism and placental dysfunction increase with increasing gestational age, particularly towards term. Placental dysfunction is reflected by changes in circulating placenta‐associated markers, specifically placental growth factor (PlGF), decreased by several 100 pg/mL, soluble fms‐like tyrosine kinase‐1 (sFlt‐1), increased by several 1000 pg/mL, and the sFlt‐1/PlGF ratio, increased by several 10 (pg/mL)/(pg/mL). We investigated whether such alterations in placenta‐associated markers correlate with an increase in circulating fetal‐origin cells. Material and methods We included 118 normotensive, clinically uncomplicated pregnancies (gestational age 37+1 up to 42+2 weeks‘ gestation) pre‐delivery. PlGF and sFlt‐1 (pg/mL) were measured by Elecsys® Immunoassays. We extracted DNA from maternal and fetal samples and genotyped four human leukocyte antigen loci and 17 other autosomal loci. Paternally inherited, unique fetal alleles served as polymerase chain reaction (PCR) targets for detecting fetal‐origin cells in maternal buffy coat. Fetal‐origin cell prevalence was assessed by logistic regression, and quantity by negative binomial regression. Statistical exposures included gestational age (weeks), PlGF (100 pg/mL), sFlt‐1 (1000 pg/mL) and the sFlt‐1/PlGF ratio (10 (pg/mL)/(pg/mL)). Regression models were adjusted for clinical confounders and PCR‐related competing exposures. Results Gestational age was positively correlated with fetal‐origin cell quantity (DRR = 2.2, P = 0.003) and PlGF was negatively correlated with fetal‐origin cell prevalence (odds ratio [OR]100 = 0.6, P = 0.003) and quantity (DRR100 = 0.7, P = 0.001). The sFlt‐1 and the sFlt‐1/PlGF ratios were positively correlated with fetal‐origin cell prevalence (OR1000 = 1.3, P = 0.014 and OR10 = 1.2, P = 0.038, respectively), but not quantity (DRR1000 = 1.1, P = 0.600; DRR10 = 1.1, P = 0.112, respectively). Conclusions Our results suggest that placental dysfunction as evidenced by placenta‐associated marker changes, may increase fetal cell transfer. The magnitudes of change tested were based on ranges in PlGF, sFlt‐1 and the sFlt‐1/PlGF ratio previously demonstrated in pregnancies near and post‐term, lending clinical significance to our findings. Our results were statistically significant after adjusting for confounders including gestational age, supporting our novel hypothesis that underlying placental dysfunction potentially is a driver of increased fetal microchimerism. |
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| ISSN: | 0001-6349 1600-0412 |