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Protein & Peptide Letters

Editor-in-Chief

ISSN (Print): 0929-8665
ISSN (Online): 1875-5305

Hypoxia Upregulates MAPKp38/MAPKERK Phosphorylation In Vitro: Neuroimmunological Differential Time-Dependent Expression of MAPKs

Author(s): John J. Haddad and Lama B. Hanbali

Volume 21, Issue 5, 2014

Page: [444 - 451] Pages: 8

DOI: 10.2174/092986652105140218112521

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Abstract

In mammalian cells, responses to hypoxia at the molecular transduction level are hallmarks of adaptation and survival under oxygen deprivation conditions. In this study, the protein expression patterns of mitogen-activated protein kinases (MAPKs) are investigated under hypoxia in primary cortical neurons and in a model of organotypic hippocampal slices in neonatal Sprague-Dawley rats. Abrupt fluctuations in MAPK expression can occur during anoxia, hypoxia, and relative hyperoxic shifts (e.g., reoxygenation); therefore, phosphorylation and dephosphorylation states could be crucial factors in metabolic reorganization for withstanding anaerobiosis. Whole cellular protein extracts were analyzed for the phosphorylation of MAPKpp38 and MAPKERK-1/2 (p44/p42) at threonine and tyrosine residues (Thr180/Tyr182) at different time periods of hypoxic exposure relative to a fixed normoxia control. The phospho-MAPKp38 (p-MAPKp38) to MAPKp38 relative unit ratio revealed that MAPKp38 expression increased in cortical neurons after 5 and 10 min, but decreased abruptly afterwards (20 – 120 min). The expression of phospho-MAPKERK-1 (p-MAPKERK-1/p44), however, decreased whereas that of p-MAPKERK-2/p42 increased compared to normoxia. In rat hippocampal slices (RHS), the expression of p-MAPKp38 was slightly but significantly higher in hypoxia, whereas the expression of p-MAPKERK-2/p42 increased and that of p-MAPKERK-1/p44 was intangible. This indicates that in cortical neurons hypoxia differentially upregulated the phosphorylation activation states of MAPKp38 and MAPKERK-1/2 (p44/p42), whereas in the RHS model MAPKp38 and MAPKERK-2/p42, but not MAPKERK-1/p44, phosphorylation states were upregulated in response to hypoxia. The neuroimmunological molecular patterns of the differential MAPK phosphorylation in vitro and ex vivo in response to hypoxic shift indicated a significant role for these kinases in cellular adaptation to oxygen deprivation, and thereby may identify physiologic and neuroprotective responsive signaling cofactors and pathways in cortical and hippocampal neurons during hypoxia.

Keywords: Anaerobiosis, anoxia, cortical neurons, hippocampal slices, hypoxia, MAPKs, neuroprotection, phosphorylation.


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