Frontiers in Molecular Neuroscience (Apr 2018)

ATF3 Regulates the Expression of AChE During Stress

  • Ronit Heinrich,
  • Rivka Hertz,
  • Esther Zemel,
  • Irit Mann,
  • Liat Brenner,
  • Amir Massarweh,
  • Shai Berlin,
  • Ido Perlman

DOI
https://doi.org/10.3389/fnmol.2018.00088
Journal volume & issue
Vol. 11

Abstract

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Acetylcholinesterase (AChE) expresses in non-cholinergic cells, but its role(s) there remain unknown. We have previously attributed a pro-apoptotic role for AChE in stressed retinal photoreceptors, though by unknown mechanism. Here, we examined its promoter only to find that it includes a binding sequence for the activating transcription factor 3 (ATF3); a prototypical mediator of apoptosis. This suggests that expression of AChE could be regulated by ATF3 in the retina. Indeed, ATF3 binds the AChE-promoter to down-regulate its expressions in vitro. Strikingly, retinas of “blinded” mice display hallmarks of apoptosis, almost exclusively in the outer nuclear layer (ONL); coinciding with elevated levels of AChE and absence of ATF3. A mirror image is observed in the inner nuclear layer (INL), namely prominent levels of ATF3 and lack of AChE as well as lack of apoptosis. We conclude that segregated patterns of expressions of ATF3 reflect its ability to repress apoptosis in different layers of the retina—a novel mechanism behind apoptosis.

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