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Prdx4 is a compartment-specific H2O2 sensor that regulates neurogenesis by controlling surface expression of GDE2

Ye Yan, Cynthia Wladyka, Junichi Fujii and Shanthini Sockanathan ()
Additional contact information
Ye Yan: The Johns Hopkins University School of Medicine
Cynthia Wladyka: The Johns Hopkins University School of Medicine
Junichi Fujii: Yamagata University
Shanthini Sockanathan: The Johns Hopkins University School of Medicine

Nature Communications, 2015, vol. 6, issue 1, 1-12

Abstract: Abstract Neural progenitors and terminally differentiated neurons show distinct redox profiles, suggesting that coupled-redox cascades regulate the initiation and progression of neuronal differentiation. Discrete cellular compartments have different redox environments and how they contribute to differentiation is unclear. Here we show that Prdx4, an endoplasmic reticulum (ER) enzyme that metabolizes H2O2, acts as a tunable regulator of neurogenesis via its compartmentalized thiol-oxidative function. Prdx4 ablation causes premature motor neuron differentiation and progenitor depletion, leading to imbalances in subtype-specific motor neurons. GDE2, a six-transmembrane protein that induces differentiation by downregulating Notch signalling through surface cleavage of GPI-anchored proteins, is targeted by Prdx4 oxidative activity. Prdx4 dimers generated by H2O2 metabolism oxidize two cysteine residues within the GDE2 enzymatic domain, which blocks GDE2 trafficking to the plasma membrane and prevents GDE2 neurogeneic function. Thus, Prdx4 oxidative activity acts as a sensor to directly couple neuronal differentiation with redox environments in the ER.

Date: 2015
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DOI: 10.1038/ncomms8006

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