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  • Inverted formin 2 regulates intracellular trafficking, placentation, and pregnancy outcome.

Inverted formin 2 regulates intracellular trafficking, placentation, and pregnancy outcome.

eLife (2018-01-09)
Katherine Young Bezold Lamm, Maddison L Johnson, Julie Baker Phillips, Michael B Muntifering, Jeanne M James, Helen N Jones, Raymond W Redline, Antonis Rokas, Louis J Muglia
ABSTRACT

Healthy pregnancy depends on proper placentation-including proliferation, differentiation, and invasion of trophoblast cells-which, if impaired, causes placental ischemia resulting in intrauterine growth restriction and preeclampsia. Mechanisms regulating trophoblast invasion, however, are unknown. We report that reduction of Inverted formin 2 (INF2) alters intracellular trafficking and significantly impairs invasion in a model of human extravillous trophoblasts. Furthermore, global loss of Inf2 in mice recapitulates maternal and fetal phenotypes of placental insufficiency. Inf2-/- dams have reduced spiral artery numbers and late gestational hypertension with resolution following delivery. Inf2-/- fetuses are growth restricted and demonstrate changes in umbilical artery Doppler consistent with poor placental perfusion and fetal distress. Loss of Inf2 increases fetal vascular density in the placenta and dysregulates trophoblast expression of angiogenic factors. Our data support a critical regulatory role for INF2 in trophoblast invasion-a necessary process for placentation-representing a possible future target for improving placentation and fetal outcomes.

MATERIALS
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Product Description

Millipore
MILLIPLEX® Mouse Angiogenesis/Growth Factor Magnetic Bead Panel - Cancer Multiplex Assay, for the simultaneous quantification of multiple analytes