Hypoxia regulates glutamate receptor trafficking through an HIF-independent mechanism.

Eun Chan Park, Piya Ghose, Zhiyong Shao, Qi Ye, Lijun Kang, X Z Shawn Xu, Jo Anne Powell-Coffman, Christopher Rongo

Department of Genetics, The Waksman Institute, Rutgers The State University of New Jersey, Piscataway, NJ, USA.

The EMBO journal 2012 Mar 21

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Oxygen influences behaviour in many organisms, with low levels (hypoxia) having devastating consequences for neuron survival. How neurons respond physiologically to counter the effects of hypoxia is not fully understood. Here, we show that hypoxia regulates the trafficking of the glutamate receptor GLR-1 in C. elegans neurons. Either hypoxia or mutations in egl-9, a prolyl hydroxylase cellular oxygen sensor, result in the internalization of GLR-1, the reduction of glutamate-activated currents, and the depression of GLR-1-mediated behaviours. Surprisingly, hypoxia-inducible factor (HIF)-1, the canonical substrate of EGL-9, is not required for this effect. Instead, EGL-9 interacts with the Mint orthologue LIN-10, a mediator of GLR-1 membrane recycling, to promote LIN-10 subcellular localization in an oxygen-dependent manner. The observed effects of hypoxia and egl-9 mutations require the activity of the proline-directed CDK-5 kinase and the CDK-5 phosphorylation sites on LIN-10, suggesting that EGL-9 and CDK-5 compete in an oxygen-dependent manner to regulate LIN-10 activity and thus GLR-1 trafficking. Our findings demonstrate a novel mechanism by which neurons sense and respond to hypoxia.

Citation

Eun Chan Park, Piya Ghose, Zhiyong Shao, Qi Ye, Lijun Kang, X Z Shawn Xu, Jo Anne Powell-Coffman, Christopher Rongo. Hypoxia regulates glutamate receptor trafficking through an HIF-independent mechanism. The EMBO journal. 2012 Mar 21;31(6):1379-93