1 Department of Gynaecology and Obstetrics and 2 Department of Gynaecologic Endocrinology and Reproductive Medicine, University of Vienna School of Medicine, Waehringer Guertel 1820, A-1090 Vienna, Austria
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Abstract |
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Key words: endothelial nitric oxide synthase/idiopathic recurrent miscarriage/nitric oxide/polymorphism/risk factor
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Introduction |
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Association studies have been used to help understand the contribution of single genes towards the development of recurrent miscarriage. A role for the HLA system (Takakuwa et al.1999), the pathway of folic acid metabolism (Ray and Laskin, 1999
), and the blood clotting cascade have been described (Souza et al., 1999
). Targeted mutations in mice have also been used to define the contribution of specific genes to the pathophysiology of miscarriage. This technology has affirmed a potential role for the gene encoding angiotensinogen in the aetiology of miscarriage (Tempfer et al.2000a
).
Nitric oxide (NO), released during the conversion of L-arginine to L-citrulline by nitric oxide synthase (NOS), is known to mediate vascular smooth muscle relaxation. NO has been implicated in the development of endothelial damage, hypertension, coronary spasm, and myocardial infarction (Nakayama et al.1999; Brscic et al.2000
; Orange et al.2000
). We recently identified a genetic association between the gene encoding endothelial NOS (eNOS) and pre-eclampsia in an animal model (Gregg et al.1999
). In humans, NO has been considered a candidate molecule in the development of pre-eclampsia (Arngrimsson et al., 1987).
Endothelial NO synthase (eNOS) is expressed in terminal villous vessels and in the syncytiotrophoblast of pregnant women (Rossmanith et al.1999). During the first trimester, placental production of HCG is modulated by eNOS expression and subsequent NO release of cyto- and syncytiotrophoblast cells (Sanyal et al.2000
). In mice, lipopolysaccharide (LPS)-induced abortion is mediated by placental NO production (Haddad et al.1995
) and pharmacologic inhibition of NO release by aminoguanidine successfully rescues LPS-induced abortion (Athanassakis et al.1999
).
Recently, a polymorphism in intron 4 of the gene encoding eNOS (NOS3) was shown to segregate with lower plasma NO metabolites in a nonpregnant Japanese population (Tsukada et al.1998). The aim of our study was to determine if this polymorphism is associated with idiopathic recurrent miscarriage.
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Materials and methods |
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Genotyping
DNA was obtained from blood using the QIAGEN System (QIAmp DANN Blood Midi Kit; Hilden, Germany). The extracted DNA was stored at 4°C until analysed. A genomic DNA fragment was amplified by the polymerase chain reaction (PCR) to determine the NOS3 genotype. Oligonucleotide primers flanking the 27-base pair repeat region in intron 4 of NOS3 were used. The sequence of the forward primer was 5'-AGGCCCTATGGTAGTGCCTTT-3'. This primer was located at position 51115130 base pairs of the genomic sequence of NOS3. The reverse primer sequence was 5'-TCTCTTAGTGCTGTGGTCAC-3' and its position within the genomic sequence of NOS3 was 55305511 base pairs. Using this PCR strategy, the wild type allele (allele B) generated a 420 base pair band (including five copies of a 27 base pair repeat). The polymorphic allele (allele A) generated a 393 base pair band (four copies of the same repeat). PCR products were resolved on a 1.5% agarose gel and stained with SYBR Green I (FMC Bio Products Europe, Denmark; Figure 1).
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Results |
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The distribution of genotype frequencies was significantly different between the study and control groups for allele A/B heterozygotes (NOS3A/B) (36.7 versus 23.8%, P = 0.03, OR 1.6, 95% CI 1.13.8). Only one individual was homozygous for the A allele (NOS3A/A). She was in the study group.
The allele frequencies of NOS3 in the study and control groups and the associated ORs are shown in Table II.
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Discussion |
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NO is known to play a functional role in ovulation. Inhibition of NO synthesis has been demonstrated to alter regional ovarian blood flow, inhibit follicle atresia, and reduce ovulatory efficiency and oocyte maturation (Jablonka-Shariff, 1999). Expression of eNOS has also been demonstrated in the placenta (Rossmanith et al.1999) and is believed to modulate placental hormone production (Sanyal et al.2000
). Recently, we demonstrated that a lack of the gene encoding eNOS negatively impacts early embryonic development and survival in a mouse model (Tempfer et al.2000b
). The association between a NOS3 polymorphism and recurrent miscarriage, as demonstrated by the present study, further supports a functional role for NO in early embryonic development.
The data presented in this study provide evidence for a relationship between idiopathic recurrent miscarriage and a gene whose gene product is known to influence vascular smooth muscle reactivity. Given the aetiological role of NO deficiency in hypertension, vasospasm, haemorrhage, and infarction, it is reasonable to speculate that carriers of a NOS3 polymorphism and subsequently reduced NO serum levels are at increased risk for impaired placental perfusion and infarction. Impaired oxygen and nutrient supply might compromise the development of the embryo/fetus and its ability to resist maternal alloimmune rejection mechanisms.
Our data indicate that the investigated NOS3 polymorphism confers a small but significantly increased risk of developing idiopathic recurrent miscarriage. However, this polymorphism is neither necessary nor sufficient for the development of this condition. With respect to different genotype-phenotype correlations, others have reported similar results (Williams et al. 1994).
We describe an association between an intron polymorphism and recurrent miscarriage. Mechanisms which might explain the relationship between an intron polymorphism and a variation in the phenotype include: (i) linkage disequilibrium with a mutation within the coding region or promoter region of NOS3, (ii) the possibility of a neighbouring gene, that contributes to the development of preeclampsia, (iii) alteration of an as yet undescribed enhancer/suppressor element, and (iv) altered splicing or processing of the primary transcript. Although a series of genotypephenotype relationships have been described for the NOS3 intron 4 polymorphism, the exact mechanism remains unknown.
Ethnic variation needs to be considered in an evaluation of the genetic background of IRM. The manner in which ethnic variation can influence the interpretation of association studies has been clearly demonstrated (Hartl and Clark, 1997). Thus, we made efforts to reduce error in the interpretation of our results by only considering white Caucasian women. In addition, genetic admixture may be a confounding factor in allele association studies (Knowler et al. 1988). Thus, only women whose parents were of the same ethnicity were included in the study and control groups. Another concern relates to the selection of a proper control group. Various other studies investigating women with recurrent miscarriage used age-matched controls to compare genotype frequencies. This strategy does not rule out future abortions among control women (Foka et al.2000). To avoid this possible bias, all control patients in our series were postmenopausal at the time of blood sampling.
It is a limitation of our study that we cannot specify at what level a lack of eNOS derived NO affects the risk of developing recurrent miscarriage. Impaired NO production may affect early pregnancy at the gonadal level, placental level, or at the level of the systemic vasculature. Further studies are necessary to clarify the pathophysiological consequences of a lack of endothelium-derived NO for embryonic development.
In summary, the data presented in this study add further evidence to the concept of endothelium-derived NO as a physiological mediator of early pregnancy. Identification of a link between idiopathic recurrent miscarriage and a specific variant of a gene involved in the regulation of placental function and vascular homeostasis allows further insight into the natural history of this syndrome and allows further characterization of susceptible women.
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Notes |
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References |
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Submitted on August 24, 2000; accepted on April 5, 2001.