Readthrough acetylcholinesterase (AChE-R) and regulated necrosis: pharmacological targets for the regulation of ovarian functions?
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Blohberger, J.
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Readthrough acetylcholinesterase (AChE-R) and regulated necrosis: pharmacological targets for the regulation of ovarian functions?
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Abstract
Proliferation, differentiation and death of ovarian cells ensure orderly functioning of the female gonad during the reproductive
phase, which ultimately ends with menopause in women. These processes are regulated by several mechanisms, including local
signaling via neurotransmitters. Previous studies showed that ovarian non-neuronal endocrine cells produce acetylcholine (ACh),
which likely acts as a trophic factor within the ovarian follicle and the corpus luteum via muscarinic ACh receptors. How its actions
are restricted was unknown. We identified enzymatically active acetylcholinesterase (AChE) in human ovarian follicular fluid as a
product of human granulosa cells. AChE breaks down ACh and thereby attenuates its trophic functions. Blockage of AChE by
huperzine A increased the trophic actions as seen in granulosa cells studies. Among ovarian AChE variants, the readthrough
isoform AChE-R was identified, which has further, non-enzymatic roles. AChE-R was found in follicular fluid, granulosa and theca
cells, as well as luteal cells, implying that such functions occur in vivo. A synthetic AChE-R peptide (ARP) was used to explore such
actions and induced in primary, cultured human granulosa cells a caspase-independent form of cell death with a distinct balloonlike
morphology and the release of lactate dehydrogenase. The RIPK1 inhibitor necrostatin-1 and the MLKL-blocker
necrosulfonamide significantly reduced this form of cell death. Thus a novel non-enzymatic function of AChE-R is to stimulate
RIPK1/MLKL-dependent regulated necrosis (necroptosis). The latter complements a cholinergic system in the ovary, which
determines life and death of ovarian cells. Necroptosis likely occurs in the primate ovary, as granulosa and luteal cells were
immunopositive for phospho-MLKL, and hence necroptosis may contribute to follicular atresia and luteolysis. The results suggest
that interference with the enzymatic activities of AChE and/or interference with necroptosis may be novel approaches to influence
ovarian functions.
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Cell Death and Disease (2015) 6
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