Homeobox genes are differentially expressed in macrovascular human umbilical vein endothelial cells and microvascular placental endothelial cells.

Angiogenesis is fundamental to normal placental development. Aberrant angiogenesis within the placental terminal villi is a characteristic of significant placental pathologies and includes structural and vascular abnormalities as well as altered endothelial cell function, which substantially impacts on maternal-fetal exchange. Homeobox gene transcription factors regulate vascular development in embryonic and adult tissues, but their role in the placental microvasculature is not well known. In this study, we isolated and enriched human placental microvascular endothelial cells (PLEC) by a perfusion-based method and compared homeobox gene expression between PLEC and macrovascular human umbilical vein endothelial cells (HUVEC). Reverse transcriptase PCR detected mRNA expression of homeobox genes DLX3, DLX4, MSX2, GAX and HLX1 in both PLEC and HUVEC. DLX4 and HLX1 have not been previously detected in PLEC and with the exception of GAX, none of these homeobox genes have been previously identified in HUVEC. There was lower expression of HLX1 mRNA in HUVEC compared with PLEC. Using real-time PCR analysis PLEC HLX1 mRNA expression relative to housekeeping gene GAPDH was 0.9+/-0.06 fold of the calibrator (n=6) versus 0.2+/-0.06 (n=6) for HUVEC, p<0.001. These data provided evidence of heterogeneity in homeobox gene expression between microvascular PLEC and macrovascular HUVEC that most likely reflects significant differences in endothelial cell function in the two different cellular environments.

Homeobox gene DLX4 expression is increased in idiopathic human fetal growth restriction.

Idiopathic fetal growth restriction (FGR) is often associated with placental insufficiency. Previously, we isolated and characterized homeobox gene DLX4 from the placenta and provided evidence that DLX4 may regulate placental development. Here, we have investigated whether DLX4 expression levels were altered in idiopathic FGR. FGR-affected placentae were collected based on strict clinical criteria. DLX4 mRNA expression was analysed in placentae obtained from pregnancies complicated by idiopathic FGR and gestation-matched control pregnancies (n = 25 each). Initial RT-PCR results showed a qualitative increase in DLX4 mRNA in both FGR-affected placentae and gestation-matched controls. Real-time PCR showed a 3-fold increase in DLX4 mRNA levels in FGR-affected placentae compared with gestation-matched controls (P < 0.005). Western immunoblotting using a rabbit DLX4 polyclonal antibody revealed significantly increased levels of DLX4 protein in term FGR-affected placentae compared with term controls [5500.1 +/- 21.8 (n = 10) versus 3533.2 +/- 22.4 (n = 10); P < 0.001]. Qualitative immunohistochemical analyses of term placentae showed moderately increased immunoreactivity for DLX4 antigen in the FGR-affected placentae in syncytiotrophoblasts, residual cytotrophoblast cells and endothelial cells of the fetal capillaries compared with gestation-matched control term placentae. We conclude that the increased expression of homeobox gene DLX4 may be a contributing factor to the developmental abnormalities seen in the FGR-affected placentae.