[HTML][HTML] Yap is required for ependymal integrity and is suppressed in LPA-induced hydrocephalus

R Park, UY Moon, JY Park, LJ Hughes… - Nature …, 2016 - nature.com
R Park, UY Moon, JY Park, LJ Hughes, RL Johnson, SH Cho, S Kim
Nature communications, 2016nature.com
Timely generation and normal maturation of ependymal cells along the aqueduct are critical
for preventing physical blockage between the third and fourth ventricles and the
development of fetal non-communicating hydrocephalus. Our study identifies Yap, the
downstream effector of the evolutionarily conserved Hippo pathway, as a central regulator
for generating developmentally controlled ependymal cells along the ventricular lining of the
aqueduct. Yap function is necessary for proper proliferation of progenitors and apical …
Abstract
Timely generation and normal maturation of ependymal cells along the aqueduct are critical for preventing physical blockage between the third and fourth ventricles and the development of fetal non-communicating hydrocephalus. Our study identifies Yap, the downstream effector of the evolutionarily conserved Hippo pathway, as a central regulator for generating developmentally controlled ependymal cells along the ventricular lining of the aqueduct. Yap function is necessary for proper proliferation of progenitors and apical attachment of ependymal precursor cells. Importantly, an injury signal initiated by lysophosphatidic acid (LPA), an upstream regulator of Yap that can cause fetal haemorrhagic hydrocephalus, deregulates Yap in the developing aqueduct. LPA exposure leads to the loss of N-cadherin concentrations at the apical endfeet, which can be partially restored by forced Yap expression and more efficiently by phosphomimetic Yap. These results reveal a novel function of Yap in retaining tissue junctions during normal development and after fetal brain injury.
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