Adrian Barker scite author profile

Summary We report an unexpected role for protease signaling in neural tube closure and formation of the central nervous system. Mouse embryos lacking protease-activated receptor 1 and 2 showed defective hindbrain and posterior neuropore closure and developed exencephaly and spina bifida, important human congenital anomalies. Par1 and Par2 were expressed in surface ectoderm, Par2 selectively along the line of closure. Ablation of Gi/z and Rac1 function in these Par2-expressing cells disrupted neural tube closure, further implicating G protein-coupled receptors and identifying a likely effector pathway. Cluster analysis of protease and Par2 expression patterns revealed a group of membrane-tethered proteases often co-expressed with Par2. Among these, matriptase activated Par2 with picomolar potency, and hepsin and prostasin activated matriptase. Together, our results suggest a role for protease-activated receptor signaling in neural tube closure and identify a local protease network that may trigger Par2 signaling and monitor and regulate epithelial integrity in this context.

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Protease signaling regulates apical cell extrusion, cell contacts, and proliferation in epithelia

Schepis

Barker

Srinivasan

et al. 2018

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Adrian Barker

Local Protease Signaling Contributes to Neural Tube Closure in the Mouse Embryo

Protease signaling regulates apical cell extrusion, cell contacts, and proliferation in epithelia

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