JNK3 perpetuates metabolic stress induced by Abeta peptides

Although Aβ peptides are causative agents in Alzheimer's disease (AD), the underlying mechanisms are still elusive. We report that Aβ42 induces a translational block by activating AMPK, thereby inhibiting the mTOR pathway. This translational block leads to widespread ER stress, which activates...

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Veröffentlicht in:	Neuron (Cambridge, Mass.) Mass.), 2012-09, Vol.75 (5), p.824-837
Hauptverfasser:	Yoon, Sung Ok, Park, Dong Ju, Ryu, Jae Cheon, Ozer, Hatice Gulcin, Tep, Chhavy, Shin, Yong Jae, Lim, Tae Hee, Pastorino, Lucia, Kunwar, Ajaya J., Walton, James C., Nagahara, Alan H., Lu, Kun Ping, Nelson, Randy J., Tuszynski, Mark H., Huang, Kun
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container_title	Neuron (Cambridge, Mass.)
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creator	Yoon, Sung Ok Park, Dong Ju Ryu, Jae Cheon Ozer, Hatice Gulcin Tep, Chhavy Shin, Yong Jae Lim, Tae Hee Pastorino, Lucia Kunwar, Ajaya J. Walton, James C. Nagahara, Alan H. Lu, Kun Ping Nelson, Randy J. Tuszynski, Mark H. Huang, Kun
description	Although Aβ peptides are causative agents in Alzheimer's disease (AD), the underlying mechanisms are still elusive. We report that Aβ42 induces a translational block by activating AMPK, thereby inhibiting the mTOR pathway. This translational block leads to widespread ER stress, which activates JNK3. JNK3 in turn phosphorylates APP at T668, thereby facilitating its endocytosis and subsequent processing. In support, pharmacologically blocking translation results in a significant increase in Aβ42 in a JNK3-dependent manner. Thus, JNK3 activation, which is increased in human AD cases and a familial AD (FAD) mouse model, is integral to perpetuating Aβ42 production. Concomitantly, deletion of JNK3 from FAD mice results in a dramatic reduction in Aβ42 levels and overall plaque loads and increased neuronal number and improved cognition. This reveals AD as a metabolic disease that is under tight control by JNK3.
doi_str_mv	10.1016/j.neuron.2012.06.024
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title	JNK3 perpetuates metabolic stress induced by Abeta peptides
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