Mari Løset

A transcriptional profile of the decidua in preeclampsia

OBJECTIVE We sought to obtain insight into possible mechanisms underlying preeclampsia using genomewide transcriptional profiling in decidua basalis. STUDY DESIGN Genomewide transcriptional profiling was performed on decidua basalis tissue from preeclamptic (n = 37) and normal (n = 58) pregnancies. Differentially expressed genes were identified and merged into canonical pathways and networks. RESULTS Of the 26,504 expressed transcripts detected, 455 were differentially expressed (P < .05; false discovery rate, P < .1). Both novel (ARL5B, SLITRK4) and previously reported preeclampsia-associated (PLA2G7, HMOX1) genes were identified. Pathway analysis revealed that tryptophan metabolism, endoplasmic reticulum stress, linoleic acid metabolism, notch signaling, fatty acid metabolism, arachidonic acid metabolism, and NRF2-mediated oxidative stress response were overrepresented canonical pathways. CONCLUSION In the present study single genes, canonical pathways, and gene-gene networks that are likely to play an important role in the pathogenesis of preeclampsia have been identified. Future functional studies are needed to accomplish a greater understanding of the mechanisms involved.

Shared genetic origin of asthma, hay fever and eczema elucidates allergic disease biology.

Asthma, hay fever (or allergic rhinitis) and eczema (or atopic dermatitis) often coexist in the same individuals, partly because of a shared genetic origin. To identify shared risk variants, we performed a genome-wide association study (GWAS; n = 360,838) of a broad allergic disease phenotype that considers the presence of any one of these three diseases. We identified 136 independent risk variants (P < 3 × 10−8), including 73 not previously reported, which implicate 132 nearby genes in allergic disease pathophysiology. Disease-specific effects were detected for only six variants, confirming that most represent shared risk factors. Tissue-specific heritability and biological process enrichment analyses suggest that shared risk variants influence lymphocyte-mediated immunity. Six target genes provide an opportunity for drug repositioning, while for 36 genes CpG methylation was found to influence transcription independently of genetic effects. Asthma, hay fever and eczema partly coexist because they share many genetic risk variants that dysregulate the expression of immune-related genes.

STOX2 but not STOX1 is differentially expressed in decidua from pre-eclamptic women: data from the Second Nord-Trøndelag Health Study

Variation in the Storkhead box-1 (STOX1) gene has previously been associated with pre-eclampsia. In this study, we assess candidate single nucleotide polymorphisms (SNPs) in STOX1 in an independent population cohort of pre-eclamptic (n = 1.139) and non-pre-eclamptic (n = 2.269) women (the HUNT2 study). We also compare gene expression levels of STOX1 and its paralogue, Storkhead box-2 (STOX2) in decidual tissue from pregnancies complicated by pre-eclampsia and/or fetal growth restriction (FGR) (n = 40) to expression levels in decidual tissue from uncomplicated pregnancies (n = 59). We cannot confirm association of the candidate SNPs to pre-eclampsia (P > 0.05). For STOX1, no differential gene expression was observed in any of the case groups, whereas STOX2 showed significantly lower expression in deciduas from pregnancies complicated by both pre-eclampsia and FGR as compared with controls (P = 0.01). We further report a strong correlation between transcriptional alterations reported previously in choriocarcinoma cells over expressing STOX1A and alterations observed in decidual tissue of pre-eclamptic women with FGR.

STOX2 but not STOX1 is differentially expressed in decidua from preeclamptic women

Variation in the Storkhead box-1 (STOX1) gene has previously been associated with pre-eclampsia. In this study, we assess candidate single nucleotide polymorphisms (SNPs) in STOX1 in an independent population cohort of pre-eclamptic (n = 1.139) and non-pre-eclamptic (n = 2.269) women (the HUNT2 study). We also compare gene expression levels of STOX1 and its paralogue, Storkhead box-2 (STOX2) in decidual tissue from pregnancies complicated by pre-eclampsia and/or fetal growth restriction (FGR) (n = 40) to expression levels in decidual tissue from uncomplicated pregnancies (n = 59). We cannot confirm association of the candidate SNPs to pre-eclampsia (P > 0.05). For STOX1, no differential gene expression was observed in any of the case groups, whereas STOX2 showed significantly lower expression in deciduas from pregnancies complicated by both pre-eclampsia and FGR as compared with controls (P = 0.01). We further report a strong correlation between transcriptional alterations reported previously in choriocarcinoma cells over expressing STOX1A and alterations observed in decidual tissue of pre-eclamptic women with FGR.

Preeclampsia and cardiovascular disease share genetic risk factors on chromosome 2q22

OBJECTIVE Four putative single nucleotide polymorphism (SNP) risk variants at the preeclampsia susceptibility locus on chromosome 2q22; rs2322659 (LCT), rs35821928 (LRP1B), rs115015150 (RND3) and rs17783344 (GCA), were recently shown to associate with known cardiovascular risk factors in a Mexican American cohort. This study aimed to further evaluate the pleiotropic effects of these preeclampsia risk variants in an independent Australian population-based cohort. METHODS The four SNPs were genotyped in the Western Australian Pregnancy Cohort (Raine) Study that included DNA, clinical and biochemical data from 1246 mothers and 1404 of their now adolescent offspring. Genotype association analyses were undertaken using the SOLAR software. RESULTS Nominal associations (P<0.05) with cardiovascular risk factors were detected for all four SNPs. The LCT SNP was associated with decreased maternal height (P=0.005) and decreased blood glucose levels in adolescents (P=0.022). The LRP1B SNP was associated with increased maternal height (P=0.026) and decreased maternal weight (P=0.044). The RND3 SNP was associated with decreased triglycerides in adolescents (P=0.001). The GCA SNP was associated with lower risk in adolescents to be born of a preeclamptic pregnancy (P=0.003) and having a mother with prior preeclamptic pregnancy (P=0.033). CONCLUSIONS Our collective findings support the hypothesis that genetic mechanisms for preeclampsia and CVD are, at least in part, shared, but need to be interpreted with some caution as a Bonferroni correction for multiple testing adjusted the statistical significance threshold (adjusted P<0.001).

Evidence of a common causal relationship between body mass index and inflammatory skin disease: a Mendelian Randomization study

Objective Psoriasis and eczema are common inflammatory skin diseases that have been reported to be associated with obesity. However, causality has not yet been established. We aimed to investigate the possible causal relationship between body mass index (BMI) and psoriasis or eczema. Methods Following a review of published epidemiological evidence of the association between obesity and either psoriasis or eczema, Mendelian Randomization (MR) was used to test for a causal relationship between BMI and these inflammatory skin conditions. We used a genetic instrument comprising 97 single nucleotide polymorphisms (SNPs) associated with BMI. One-sample MR was conducted using individual-level data (401,508 individuals) from the UK Biobank and the Nord-Trøndelag Health Study (HUNT), Norway. Two-sample MR was performed with summary-level data (731,021 individuals) from published BMI, psoriasis and eczema GWAS. The one-sample and two-sample MR estimates were meta-analysed using a fixed effect model. To explore the reverse causal direction, MR analysis with genetic instruments comprising variants from recent genome-wide analyses for psoriasis and eczema were used to test if inflammatory skin disease has a causal effect on BMI. Results Published observational data show an association of greater BMI with both psoriasis and eczema case status. The observational associations were confirmed in UK Biobank and HUNT datasets. MR analyses provide evidence that higher BMI causally increases the odds of psoriasis (by 53% per 5 units higher BMI; OR= 1.09 (1.06 to 1.12) per 1 kg/m2; P=4.67×10-9) and eczema (by 8% per 5 units higher BMI; OR=1.02 (1.00 to 1.03) per 1 kg/m2; P=0.09). When investigating causality in the opposite direction, MR estimates provide little evidence for an effect of either psoriasis or eczema influencing BMI. Conclusion Our study, using genetic variants as instrumental variables for BMI, shows that higher BMI leads to a higher risk of inflammatory skin disease. The causal relationship was stronger for psoriasis than eczema. Therapies and life-style interventions aimed at controlling BMI or targeting the mechanisms linking obesity with skin inflammation may offer an opportunity for the prevention or treatment of these common skin diseases.

OP004. A SNP associated with susceptibility to preeclampsia near the inhibin, beta B gene, is also associated with cardiovascular disease risk traits

INTRODUCTION It is well established that preeclampsia (PE) increases later life cardiovascular disease (CVD) risk. Consequently, PE has started to gain a role as an early screening criterion for CVD. PE and CVD share several risk factors, pathological features and metabolic abnormalities. These common antecedents have drawn attention to the likelihood of shared genetic susceptibility. OBJECTIVES Results from our previous PE GWAS identified a significant association with the rs7579169 SNP and maternal PE susceptibility (odds ratio 1.57). This SNP resides near the Inhibin, beta B (INHBB) gene on chromosome 2q14. Therefore, this study sought to interrogate this PE susceptibility SNP against several CVD risk traits in an effort to highlight additional empirical evidence of likely shared PE/CVD genetic mechanisms. METHODS The rs7579169 SNP was genotyped in a large independent Australian cohort rich in quantitative CVD risk traits; The Western Australian Pregnancy Cohort (Raine) Study. This cohort comprises of fasting blood samples from 1246 mothers and 1461 adolescents (14- and 17-year-old) and clinical parameters pertaining, but not limited, to anthropometric measures of adiposity and lipid-related measures. Genetic association analyses of rs7579169 against the Raine CVD-related risk traits were performed using the software package R. All statistical analyses assumed an additive model of gene action. RESULTS Significant associations (p<0.05) for rs7579169 with CVD-related risk traits were detected, both for the mothers and the adolescents. Specifically, the minor rs7579169-T allele (MAF 0.400) was found to be significantly associated with elevated levels of triglycerides, total and LDL cholesterol, a greater average waist:hip circumference ratio and a greater average hip circumference. CONCLUSION We have previously identified rs7579169 located near the INHBB gene on chromosome 2q14 to significantly associate with maternal PE susceptibility. We have now demonstrated that this SNP is also significantly associated with several CVD-related risk traits in an independent Caucasian population. We hereby present additional empirical evidence of possible shared genetic risk factors underlying both PE and CVD related traits.

OS070. Shared genetic risk factors for preeclampsia and cardiovascular disease

INTRODUCTION There is compelling evidence to support the hypothesis that a maternal constitutional predisposition to cardiovascular disease (CVD) is a key component in development of preeclampsia. In particular, CVD and preeclampsia share pathological features such as endothelial dysfunction and inflammation, and have several metabolic abnormalities in common. In support of this hypothesis, our recent genetic dissection of the Australian preeclampsia susceptibility locus on chromosome 2q22 revealed shared novel genetic risk factors for preeclampsia and CVD-related traits. OBJECTIVES To replicate association between our recently reported 2q22 preeclampsia risk variants and CVD-related traits in an independent Australian population based cohort. METHODS Four independent SNPs from four genes, rs35821928 (LRP1B), rs17783344 (GCA), rs115015150 (RND3) and rs2322659 (LCT), were recently found to be significantly associated with preeclampsia susceptibility and CVD-related traits. These SNPs were genotyped in a large independent Australian cohort rich in quantitative CVD risk traits; The Western Australian Pregnancy Cohort (Raine) Study. This cohort comprises of blood samples from 1246 mothers and 1461 adolescents and clinical measures such as, but not limited to, anthropometric measures of adiposity and lipid-related measures. Genetic association analyses of these four potential preeclampsia susceptibility SNPs against the CVD-related risk traits were performed using the software package R. All statistical analyses assumed an additive model of gene action. RESULTS Several significant associations (p<0.05) for all four SNPs with a variety of CVD-related risk traits were detected, both for the mothers and the adolescents. The LRP1B SNP was associated with HDL/cholesterol ratio, LDL cholesterol, triglycerides, skinfold measures and weight. The GCA SNP was associated with total cholesterol, HDL cholesterol, serum insulin, hemoglobin, blood glucose, BMI and skinfold measures. The RND3 SNP was associated with triglycerides and waist-hip ratio. The LCT SNP was associated with hemoglobin, blood glucose and abdominal skinfold. CONCLUSION We have recently identified genetic variants within the LRP1B, GCA, RND3 and LCT genes to be significantly associated with preeclampsia susceptibility and CVD-related risk traits. We have now demonstrated thatthese specific genetic variants are associated with CVD-related risk traits in an independent population. Our collective findings provide substantial empirical data to support the hypothesis that genetic risk factors for preeclampsia and CVD are, at least in part, shared.

M9.4 Endoplasmatic reticulum stress in decidual tissue from pregnancies complicated by preeclampsia

Matthew Johnson1, John Blangero1, Christine East2, Rigmor Austgulen3, Shaun Brennecke2, Eric Moses1. 1Department of Genetics, Southwest Foundation for Biomedical Research, San Antonio, TX, USA; 2Department of Perinatal Medicine, Royal Women’s Hospital & Department of Obstetrics & Gynaecology, University of Melbourne, Melbourne, Australia; 3Department of Cancer Research and Molecular Medicine, Faculty of Medicine, Norwegian University of Science and Technology, Trondheim, Norway