TY - JOUR
T1 - Adaptation to constant light requires Fic-mediated AMPylation of BiP to protect against reversible photoreceptor degeneration
AU - Moehlman, Andrew T.
AU - Casey, Amanda K.
AU - Servage, Kelly
AU - Orth, Kim
AU - Krämer, Helmut
N1 - Funding Information:
We thank Drs. Eric Olson and Joe Takahashi and the members of the Krämer and Orth labs for discussion and technical assistance. We thank the Bloomington Stock Center (NIH P40OD018537) and the Vienna Drosophila Resource Center (VDRC, www.vdrc.at) for flies and the Molecular and Cellular Imaging Facility at the University of Texas Southwestern Medical center for help with electron microscopy (NIH S10 OD020103-01). KO is a Burroughs Welcome Investigator in Pathogenesis of Infectious Disease, a Beckman Young Investigator, and a W W Caruth, Jr., Biomedical Scholar and has an Earl A Forsythe Chair in Biomedical Science. National Institute of General Medical Sciences R01GM120196 Helmut Krämer National Eye Institute RO1EY010199 Helmut Krämer Howard Hughes Medical Institute Kim Orth Welch Foundation I-1561 Kim Orth Once Upon A Time Foundation Kim Orth National Science Foundation 1000176311 Andrew T Moehlman National Institute of General Medical Sciences RO1GM115188 Kim Orth.
Publisher Copyright:
© Moehlman et al.
PY - 2018/7/17
Y1 - 2018/7/17
N2 - In response to environmental, developmental, and pathological stressors, cells engage homeostatic pathways to maintain their function. Among these pathways, the Unfolded Protein Response protects cells from the accumulation of misfolded proteins in the ER. Depending on ER stress levels, the ER-resident Fic protein catalyzes AMPylation or de-AMPylation of BiP, the major ER chaperone and regulator of the Unfolded Protein Response. This work elucidates the importance of the reversible AMPylation of BiP in maintaining the Drosophila visual system in response to stress. After 72 hr of constant light, photoreceptors of fic-null and AMPylation-resistant BiP T366A mutants, but not wild-type flies, display loss of synaptic function, disintegration of rhabdomeres, and excessive activation of ER stress reporters. Strikingly, this phenotype is reversible: photoreceptors regain their structure and function within 72 hr once returned to a standard light:dark cycle. These findings show that Fic-mediated AMPylation of BiP is required for neurons to adapt to transient stress demands.
AB - In response to environmental, developmental, and pathological stressors, cells engage homeostatic pathways to maintain their function. Among these pathways, the Unfolded Protein Response protects cells from the accumulation of misfolded proteins in the ER. Depending on ER stress levels, the ER-resident Fic protein catalyzes AMPylation or de-AMPylation of BiP, the major ER chaperone and regulator of the Unfolded Protein Response. This work elucidates the importance of the reversible AMPylation of BiP in maintaining the Drosophila visual system in response to stress. After 72 hr of constant light, photoreceptors of fic-null and AMPylation-resistant BiP T366A mutants, but not wild-type flies, display loss of synaptic function, disintegration of rhabdomeres, and excessive activation of ER stress reporters. Strikingly, this phenotype is reversible: photoreceptors regain their structure and function within 72 hr once returned to a standard light:dark cycle. These findings show that Fic-mediated AMPylation of BiP is required for neurons to adapt to transient stress demands.
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U2 - 10.7554/eLife.38752
DO - 10.7554/eLife.38752
M3 - Article
C2 - 30015618
AN - SCOPUS:85052086862
SN - 2050-084X
VL - 7
JO - eLife
JF - eLife
M1 - e38752
ER -