Functional Whole-genome Analysis Identifies Polo-like Kinase 2 and Poliovirus Receptor as Essential for Neuronal Differentiation Upstream of the Negative Regulator αB-crystallin

Functional Whole-genome Analysis Identifies Polo-like Kinase 2 and Poliovirus Receptor as Essential for Neuronal Differentiation Upstream of the Negative Regulator αB-crystallin

This study aimed at identifying transcriptional changes associated to neuronal differentiation induced by six distinct stimuli using whole-genome microarray hybridization analysis. Bioinformatics analyses revealed the clustering of these six stimuli into two categories, suggesting separate gene/path...

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Veröffentlicht in:The Journal of biological chemistry 2009-11, Vol.284 (46), p.32053-32065
Hauptverfasser: Draghetti, Cristina, Salvat, Catherine, Zanoguera, Francisca, Curchod, Marie-Laure, Vignaud, Chloé, Peixoto, Helene, Di Cara, Alessandro, Fischer, David, Dhanabal, Mohanraj, Andreas, Goutopoulos, Abderrahim, Hadi, Rommel, Christian, Camps, Montserrat
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Genomics, Proteomics, and Bioinformatics
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container_end_page 32065
container_issue 46
container_start_page 32053
container_title The Journal of biological chemistry
container_volume 284
creator Draghetti, Cristina
Salvat, Catherine
Zanoguera, Francisca
Curchod, Marie-Laure
Vignaud, Chloé
Peixoto, Helene
Di Cara, Alessandro
Fischer, David
Dhanabal, Mohanraj
Andreas, Goutopoulos
Abderrahim, Hadi
Rommel, Christian
Camps, Montserrat
description This study aimed at identifying transcriptional changes associated to neuronal differentiation induced by six distinct stimuli using whole-genome microarray hybridization analysis. Bioinformatics analyses revealed the clustering of these six stimuli into two categories, suggesting separate gene/pathway dependence. Treatment with specific inhibitors demonstrated the requirement of both Janus kinase and microtubule-associated protein kinase activation to trigger differentiation with nerve growth factor (NGF) and dibutyryl cAMP. Conversely, activation of protein kinase A, phosphatidylinositol-3-kinase α, and mammalian target of rapamycin, although required for dibutyryl cAMP-induced differentiation, exerted a negative feedback on NGF-induced differentiation. We identified Polo-like kinase 2 (Plk2) and poliovirus receptor (PVR) as indispensable for NGF-driven neuronal differentiation and αB-crystallin (Cryab) as an inhibitor of this process. Silencing of Plk2 or PVR blocked NGF-triggered differentiation and Cryab down-regulation, while silencing of Cryab enhanced NGF-induced differentiation. Our results position both Plk2 and PVR upstream of the negative regulator Cryab in the pathway(s) leading to neuronal differentiation triggered by NGF.
doi_str_mv 10.1074/jbc.M109.009324
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subjects Genomics, Proteomics, and Bioinformatics
title Functional Whole-genome Analysis Identifies Polo-like Kinase 2 and Poliovirus Receptor as Essential for Neuronal Differentiation Upstream of the Negative Regulator αB-crystallin
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