Prorenin, despite being inactive, is the major form of renin found in amniotic fluid and reproductive tissues. Prorenin becomes active if it binds to the novel prorenin receptor (ATP6AP2). The prorenin-ATP6AP2 complex has been found to stimulate translocation of Promyelocytic Zinc Finger (PLZF) protein to the nucleus where it increases expression of the p85α subunit of PI3 kinase (PI3K-p85α) and represses the expression of ATP6AP21. Progesterone and glucocorticoids have also been shown to stimulate PLZF2, 3. We aimed to find out if PLZF and the prorenin-ATP6AP2 pathway interact in human reproductive tissues. Human amnion was cultured for 24 h in media containing vehicle, dexamethasone, amniotic fluid or recombinant human (rh) prorenin. Total RNA was extracted using TRIZol® and converted to cDNA for quantitative real-time PCR using SuperScript III and random hexamers. mRNA abundances for PLZF, PI3K-p85α and ATP6AP2 were calculated relative to Alien RNA using the ΔΔCT method. Our preliminary data show that exposure of amnion explants to dexamethasone upregulates PLZF and PI3K-p85α mRNA but has no effect on ATP6AP2. Culture of amnion explants with amniotic fluid also increases PLZF but does not change PI3K or ATP6AP2. In contrast, culture of amnion explants with (rh) prorenin increases PI3K mRNA but not PLZF or ATP6AP2. As expected, dexamethasone affects PLZF expression, however in amnion there is no interaction with the ATP6AP2 pathway. In addition, we believe we have identified a novel prorenin/ATP6AP2 signalling pathway which acts on PI3K-p85α independent of PLZF. In contrast to these data, amniotic fluid increases PLZF but not PI3K-p85α mRNA levels suggesting that amniotic fluid contains other factors that oppose prorenin and glucocorticoid effects on PI3K-p85α.
(1) Schefe, J.H., et al. Circ Res, 2006. 99(12): 1355–1366.(2) Fahnenstich, J., et al. Mol. Hum. Reprod., 2003. 9(10): 611–623.(3) Conquest, A. et al. Fetal and Neonatal Physiology Workshop, 2010. Wellington, New Zealand.
The Expression of miRNAs in Human Ovaries, Oocytes, Extracellular Vesicles, and Early Embryos: A Systematic Review
