Alternative RNA splicing adds diverse variations to gene function, and its abnormalities are occasionally associated with the etiology of disease. We examined this possibility in pre-eclampsia. We per Show more
Alternative RNA splicing adds diverse variations to gene function, and its abnormalities are occasionally associated with the etiology of disease. We examined this possibility in pre-eclampsia. We performed transcriptome analysis of placentas from pre-eclamptic and normotensive pregnancies and screened for disease-specific aberrant splicing. We identified aberrant splicing at exon 14 in the ZC3H4 gene. This in-frame exon is generally skipped in placentas from normal pregnancies but often observed in those from pre-eclampsia patients. The level of exon inclusion did not correlate with disease severity, such as blood pressure or fetal weight, but showed an association with the decrease in placental weight. Significantly, placental blood flow resistance measured by Doppler ultrasound correlated with the level of ZC3H4 exon 14 inclusion, suggesting that this retention leads to the onset and/or symptoms of pre-eclampsia. ZC3H4 is known to act on transcriptional regulation via suppression of lncRNA expression. Moreover, the SOD1 gene, encoding superoxide dismutase that eliminates toxic free superoxide radicals, was identified in the downstream gene group for ZC3H4. Indeed, the expression of SOD1 was found in this current study to be decreased in the pre-eclamptic placenta in correlation with the levels of ZC3H4 exon 14 retention. Aberrant splicing of ZC3H4 gene may induce excessive oxidative stress in the placenta via the downregulation of downstream SOD1 expression thereby leading to the onset and development of pre-eclampsia. Show less
Hypospadias is a common congenital anomaly caused by incomplete fusion of urethral folds. Development of the urethra and external genital system in the male fetus is an androgen-dependent process. In Show more
Hypospadias is a common congenital anomaly caused by incomplete fusion of urethral folds. Development of the urethra and external genital system in the male fetus is an androgen-dependent process. In this regard, enzymes 17 β-hydroxysteroid dehydrogenase type 3 (17 β HSD3, encoded by HSD17B3) and steroid 5 α-reductase type 2 (encoded by SRD5A2) play crucial roles. To investigate the possible associations between common polymorphisms in HSD17B3 as well as well-known V89L polymorphism in SRD5A2 and risk of hypospadias. A case-control study was performed between 1999 and 2005. There were 89 Japanese boys with hypospadias and 291 newborn controls. We genotyped HSD17B3-1999T>C, +10A>G, +20A>G, +139G>A (V31I), +913G>A (G289S), and SRD5A2+336G>C (V89L) polymorphisms by allelic discrimination assay. We measured mRNA expression of the wildtype G289 allele and the mutant S289 allele of the HSD17B3 gene in the transfected human fetal kidney HEK293 cells. Assessment of hypospadias including its severity and HSD17B3 and SRD5A2 genes using DNA blood samples: allele and genotype distribution of single nucleotide polymorphisms in these two genes in cases and controls. In our study, the risk of hypospadias was significantly higher in subjects carrying homozygous HSD17B3+913A (289S) alleles (odds ratio [OR]: 3.06; 95% confidence interval [CI]: 1.38-6.76). The risk of severe hypospadias was much higher in these subjects (OR: 3.93; 95% CI: 1.34-11.49). The mRNA expression levels of HSD17B3 G289 were higher than those of HSD17B3 S289 mutant (P < 0.001). In addition, the risk of severe hypospadias increased in boys carrying the SRD5A2+336C (89L) allele (OR: 3.19; 95% CI: 1.09-9.36). These results suggest that the HSD17B3 G289S polymorphism may be a potential risk modifier for hypospadias. Our findings provide evidence that a certain genotype related to androgen production may potentiate risk of hypospadias. Show less