TY - JOUR
T1 - Stress-induced Cdk5 activity enhances cytoprotective basal autophagy in Drosophila melanogaster by phosphorylating acinus at serine437
AU - Nandi, Nilay
AU - Tyra, Lauren K.
AU - Stenesen, Drew
AU - Krämer, Helmut
N1 - Funding Information:
We thank Drs. Karine Pozo and Qing Zhong for helpful comments to the manuscript and members of the Kramer lab for discussion and technical assistance. We thank Charles Tracy for performing the RT-qPCR assays. We thank Drs. Thomas Neufeld, Robin Hiesinger, Edward Giniger, Alysia Vrailas-Mortimer, Vienna Drosophila Resource Center, and the Bloomington Stock Center (NIH P40OD018537) for flies, Gàbor Juhàsz and the Developmental Studies Hybridoma Bank at The University of Iowa for antibodies and the Molecular and Cellular Imaging Facility at UT Southwestern Medical Center for help with electron microscopy. This work was funded by NIH grant EY010199 to HK and NSF Graduate Research Fellowship (4900835401–36068) to LKT.
Publisher Copyright:
© Nandi et al.
PY - 2017/12/11
Y1 - 2017/12/11
N2 - Cdk5 is a post-mitotic kinase with complex roles in maintaining neuronal health. The various mechanisms by which Cdk5 inhibits and promotes neurodegeneration are still poorly understood. Here, we show that in Drosophila melanogaster Cdk5 regulates basal autophagy, a key mechanism suppressing neurodegeneration. In a targeted screen, Cdk5 genetically interacted with Acinus (Acn), a primarily nuclear protein, which promotes starvation-independent, basal autophagy. Loss of Cdk5, or its required cofactor p35, reduces S437-Acn phosphorylation, whereas Cdk5 gain-of-function increases pS437-Acn levels. The phospho-mimetic S437D mutation stabilizes Acn and promotes basal autophagy. In p35 mutants, basal autophagy and lifespan are reduced, but restored to near wild-type levels in the presence of stabilized AcnS437D. Expression of aggregation- prone polyQ-containing proteins or the Amyloid-β42 peptide, but not alpha-Synuclein, enhances Cdk5-dependent phosphorylation of S437-Acn. Our data indicate that Cdk5 is required to maintain the protective role of basal autophagy in the initial responses to a subset of neurodegenerative challenges.
AB - Cdk5 is a post-mitotic kinase with complex roles in maintaining neuronal health. The various mechanisms by which Cdk5 inhibits and promotes neurodegeneration are still poorly understood. Here, we show that in Drosophila melanogaster Cdk5 regulates basal autophagy, a key mechanism suppressing neurodegeneration. In a targeted screen, Cdk5 genetically interacted with Acinus (Acn), a primarily nuclear protein, which promotes starvation-independent, basal autophagy. Loss of Cdk5, or its required cofactor p35, reduces S437-Acn phosphorylation, whereas Cdk5 gain-of-function increases pS437-Acn levels. The phospho-mimetic S437D mutation stabilizes Acn and promotes basal autophagy. In p35 mutants, basal autophagy and lifespan are reduced, but restored to near wild-type levels in the presence of stabilized AcnS437D. Expression of aggregation- prone polyQ-containing proteins or the Amyloid-β42 peptide, but not alpha-Synuclein, enhances Cdk5-dependent phosphorylation of S437-Acn. Our data indicate that Cdk5 is required to maintain the protective role of basal autophagy in the initial responses to a subset of neurodegenerative challenges.
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U2 - 10.7554/eLife.30760
DO - 10.7554/eLife.30760
M3 - Article
C2 - 29227247
AN - SCOPUS:85042660816
SN - 2050-084X
VL - 6
JO - eLife
JF - eLife
M1 - e30760
ER -