Obstetrics and Gynaecology - Theses
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ItemCharacterisation of maternal pre-eclampsia susceptibility genes( 2015)Introduction: Pre-eclampsia (PE) has affected pregnant women throughout human history and remains a leading cause of maternal and fetal mortality and morbidity worldwide today. PE is clinically characterised by de novo hypertension and proteinuria developing after 20 weeks’ gestation that resolves with delivery of the fetus and placenta. Up to 8% of all pregnant women are afflicted with the disorder, which may necessitate premature delivery of the fetus in severe cases. The aetiology of the disorder remains unknown, although the placenta is widely accepted to be central to the pathogenesis of PE, as PE can occur in women with molar pregnancies, where there is no viable fetus. A family history of PE is a major risk factor, with heritability estimates of up to 54%. Genetic linkage and association studies in the Australian/New Zealand population previously identified susceptibility loci on chromosomes 2, 5 and 13 for PE. Bioinformatic analyses of these loci yielded the following candidate maternal PE susceptibility genes from various functional groups: ACVR1, ACVR1C, ACVR2A, INHA and INHBB from the activin/inhibin signalling group; ERAP1, ERAP2 and LNPEP from the M1 aminopeptidase family; and COL4A1 and COL4A2 from the connective tissue components group. The main aim of this thesis was to characterise the expression and determine the functional significance of these genes in the development of PE. Main findings: The bulk of the findings of this thesis has been published or is accepted for publication in multiple international peer-reviewed journals. The first Placenta paper in Chapter 3, demonstrated significantly increased mRNA expression of the candidate genes – ACVR1, INHBB, ERAP1, ERAP2, LNPEP, COL4A1 and COL4A2, in the pre-eclamptic maternal decidual tissue, which correlated with greater clinical severity of PE. The second Placenta paper in Chapter 4, examined the levels of arresten and canstatin fragments, which are derived from the COL4A1 and COL4A2 genes respectively, in the plasma from pre-eclamptic women and gestational age matched normotensive controls. Arresten levels were significantly increased as early as 16 weeks’ gestation in pre-eclamptic plasma. The subsequent two results chapters examined the functional roles of the activin A receptor, ACVR2A, in decidual stromal cells and endothelial cells. In Chapter 5, modelling the decreased expression observed in pre-eclamptic decidua, using an in vitro cell culture model, showed that decidual stromal cells had an impaired ability to decidualise and caused abnormal regulation of multiple extravillous trophoblast functions. Chapter 6, which forms the basis of the Pregnancy Hypertension paper, revealed that the higher baseline concentrations of activin A observed in PE resulted in vascular endothelial dysfunction, which was further exacerbated by a reduction in ACVR2A expression. Finally in Chapter 7, which was published in PLoS One, shared biological pathways of the susceptibility genes from the different functional group were identified through bioinformatics analyses. These shared pathways provide an insight as to the cumulative contribution of the different genes in the development of PE. Conclusions: The overall findings of the thesis provide evidence to support a causative, functional role of these maternal susceptibility genes in the pathogenesis of PE. The altered expression of genes, which are detectable before the onset of clinical disease, suggests the potential for the development of novel predictive biomarkers. Given how a single gene can affect the functions of multiple cell types present at the maternal-fetal interface, it is likely that the multiple gene alterations would have cumulative functional effects that ultimately influence the onset and severity of PE.