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Molecular and Cellular Pediatrics
Published in: Molecular and Cellular Pediatrics 1/2020

Open Access 01-12-2020 | Research

Nup133 and ERα mediate the differential effects of hyperoxia-induced damage in male and female OPCs

Authors: Donna Elizabeth Sunny, Elke Hammer, Sebastian Strempel, Christy Joseph, Himanshu Manchanda, Till Ittermann, Stephanie Hübner, Frank Ulrich Weiss, Uwe Völker, Matthias Heckmann

Published in: Molecular and Cellular Pediatrics | Issue 1/2020

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Abstract

Background

Hyperoxia is a well-known cause of cerebral white matter injury in preterm infants with male sex being an independent and critical risk factor for poor neurodevelopmental outcome. Sex is therefore being widely considered as one of the major decisive factors for prognosis and treatment of these infants. But unfortunately, we still lack a clear view of the molecular mechanisms that lead to such a profound difference. Hence, using mouse-derived primary oligodendrocyte progenitor cells (OPCs), we investigated the molecular factors and underlying mechanisms behind the differential response of male and female cells towards oxidative stress.

Results

We demonstrate that oxidative stress severely affects cellular functions related to energy metabolism, stress response, and maturation in the male-derived OPCs, whereas the female cells remain largely unaffected. CNPase protein level was found to decline following hyperoxia in male but not in female cells. This impairment of maturation was accompanied by the downregulation of nucleoporin and nuclear lamina proteins in the male cells. We identify Nup133 as a novel target protein affected by hyperoxia, whose inverse regulation may mediate this differential response in the male and female cells. Nup133 protein level declined following hyperoxia in male but not in female cells. We show that nuclear respiratory factor 1 (Nrf1) is a direct downstream target of Nup133 and that Nrf1 mRNA declines following hyperoxia in male but not in female cells. The female cells may be rendered resistant due to synergistic protection via the estrogen receptor alpha (ERα) which was upregulated following hyperoxia in female but not in male cells. Both Nup133 and ERα regulate mitochondrial function and oxidative stress response by transcriptional regulation of Nrf1.

Conclusions

These findings from a basic cell culture model establish prominent sex-based differences and suggest a novel mechanism involved in the differential response of OPCs towards oxidative stress. It conveys a strong message supporting the need to study how complex cellular processes are regulated differently in male and female brains during development and for a better understanding of how the brain copes up with different forms of stress after preterm birth.
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Metadata
Title
Nup133 and ERα mediate the differential effects of hyperoxia-induced damage in male and female OPCs
Authors
Donna Elizabeth Sunny
Elke Hammer
Sebastian Strempel
Christy Joseph
Himanshu Manchanda
Till Ittermann
Stephanie Hübner
Frank Ulrich Weiss
Uwe Völker
Matthias Heckmann
Publication date
01-12-2020
Publisher
Springer Berlin Heidelberg
Published in
Molecular and Cellular Pediatrics / Issue 1/2020
Electronic ISSN: 2194-7791
DOI
https://doi.org/10.1186/s40348-020-00102-8

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