AI Article Synopsis
- Human reproductive disorders, particularly recurrent pregnancy loss (RPL), preeclampsia (PE), and intra-uterine growth restriction (IUGR), are linked to FOXD1 gene mutations, impacting fertility and women's health.
- Research involved screening for FOXD1 mutations in 158 patients, identifying nine sequence variants that affect crucial gene regulation related to pregnancy.
- Findings suggest that FOXD1 mutations play a significant role in the development of RPL, RIF, IUGR, and PE, highlighting its potential as a molecular biomarker for clinical use.
Article Abstract
Background: Human reproductive disorders consist of frequently occurring dysfunctions including a broad range of phenotypes affecting fertility and women's health during pregnancy. Several female-related diseases have been associated with hypofertility/infertility phenotypes, such as recurrent pregnancy loss (RPL). Other occurring diseases may be life-threatening for the mother and foetus, such as preeclampsia (PE) and intra-uterine growth restriction (IUGR). FOXD1 was defined as a major molecule involved in embryo implantation in mice and humans by regulating endometrial/placental genes. FOXD1 mutations in human species have been functionally linked to RPL's origin.
Methods: FOXD1 gene mutation screening, in 158 patients affected by PE, IUGR, RPL and repeated implantation failure (RIF), by direct sequencing and bioinformatics analysis. Plasmid constructs including FOXD1 mutations were used to perform in vitro gene reporter assays.
Results: Nine non-synonymous sequence variants were identified. Functional experiments revealed that p.His267Tyr and p.Arg57del led to disturbances of promoter transcriptional activity (C3 and PlGF genes). The FOXD1 p.Ala356Gly and p.Ile364Met deleterious mutations (previously found in RPL patients) have been identified in the present work in women suffering PE and IUGR.
Conclusions: Our results argue in favour of FOXD1 mutations' central role in RPL, RIF, IUGR and PE pathogenesis via C3 and PlGF regulation and they describe, for the first time, a functional link between FOXD1 and implantation/placental diseases. FOXD1 could therefore be used in clinical environments as a molecular biomarker for these diseases in the near future.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6688323 | PMC |
| http://dx.doi.org/10.1186/s10020-019-0104-3 | DOI Listing |
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