Abstract
AbstractOligohydramnios (decreased amniotic fluid volume for gestational age) is a severe condition associated with high morbidity and mortality mainly due to fetal pulmonary hypoplasia. Currently, there are limited treatment options to promote fetal lung development. Administration of stem cells and their derivates have shown promising regenerative properties for several fetal and neonatal diseases related to arrested lung development. Herein, we first characterized pulmonary hypoplasia secondary to oligohydramnios in a surgical rat model. Experimental induction of oligohydramnios led to impaired lung growth, branching morphogenesis (fewer airspaces with decreasedFgf10,Nrp1,Ctnnb1expression), proximal/distal progenitor cell patterning (decreased Sox2 and Sox9 expression), and TGF-β signaling. We then tested antenatal administration of extracellular vesicles derived from amniotic fluid stem cells (AFSC- EVs). In oligohydramnios lungs, AFSC-EV administration improved lung branching morphogenesis and airway progenitor cell patterning at least in part through the release of miR-93-5p. Our experiments suggest that AFSC-EV miR-93-5p blocked SMAD 7, resulting in upregulation of pSMAD2/3 and restoration of TGF-β signaling. Conversely, oligohydramnios lungs treated with antagomir 93-5p transfected AFSC- EVs had decreased branching morphogenesis and TGF-β signaling. This is the first study reporting that antenatal administration of stem cell derivatives could be a potential therapy to rescue lung development in fetuses with oligohydramnios.HighlightsPulmonary hypoplasia secondary to oligohydramnios in fetal rats is characterized by impaired TGF-β signaling.AFSC-EV administration improves fetal lung branching morphogenesis and airway progenitor cell patterning.AFSC-EV effects are mediated at least in part via modulation of TGF-β signaling by the release of miR-93-5p from AFSC-EVs.
Publisher
Cold Spring Harbor Laboratory