| Resumo: |
The effects of DNA repair and transcription genes in human prenatal life have never been studied. Trichothiodystrophy (TTD) is a rare (affected frequency of 10^-6^) recessive disorder caused by mutations in genes involved in the nucleotide excision repair (NER) pathway and in transcription. Based on our clinical observations, we conducted a genetic epidemiologic study to investigate gestational outcomes associated with TTD. We compared pregnancies resulting in TTD-affected offspring (N=24) with respect to abnormalities in their antenatal and neonatal periods to pregnancies resulting in their unaffected siblings (N=18), accounting for correlation, and to population reference values. Significantly higher incidence of several severe gestational complications was noted in TTD-affected pregnancies. Gestational complications were noted in nearly all pregnancies resulting in TTD-affected offspring with _XPD_ and _TTDN1_, but not _TTD-A_, gene mutations. Abnormal placental development may explain the constellation of observed complications; therefore, we hypothesize that some TTD genes play an important role in normal placental and fetal development. We investigated this hypothesis by analyzing the expression patterns of TTD genes. Expression of _TTDA_ was strongly negatively correlated (r=-0.7,P<0.0001) with gestational age, while _XPD, XPB_ and _TTDN1_ were consistently expressed from 14 to 40 weeks gestation. *Conclusion:* Our results indicate an important role for _XPD, XPB_ and _TTDN1_ gene products during normal human placental and fetal development.
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