Protection of insect neurons by erythropoietin/CRLF3-mediated regulation of pro-apoptotic acetylcholinesterase

Knorr, Debbra Y.; Schneider, Kristin; Büschgens, Luca; Förster, Jan; Georges, Nadine S.; Geurten, Bart R. H.; Heinrich, Ralf

doi:10.1038/s41598-022-22035-0

Cited by 2 publications

(3 citation statements)

References 80 publications

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“…Current knowledge suggests that complex regulation of apoptosis including mitochondrial cytochrome c release and apoptosomemediated activation of caspases evolved in early metazoans (Zmasek and Godzik, 2013;Chai and Shi, 2014;Green and Fitzgerald, 2016). Elevated levels of AChE expression induced by apoptogenic stressors and apoptosis inhibition by experimental reduction of AChE presence and/or catalytical activity have also been detected in insects (Knorr et al, 2020;Knorr et al, 2022) paralleling previous reports from studies with vertebrate cells. The molecular mechanisms underlying AChE's pro-apoptotic functions have not been revealed in any invertebrate species.…”

Section: Ache In Invertebrate Apoptosissupporting

confidence: 73%

“…Elevated AChE levels may also result from reduced degradation, as has been demonstrated in amyloid beta-stimulated murine neuroblastoma cells (Hu et al, 2003). While presence of AChE per se does not initiate apoptosis, elevated levels sensitize the induction of apoptosis under pathogenic or physiologically challenging conditions (Jin et al, 2004;Knorr et al, 2022). Some studies indicated that only particular splice variants of mammalian AChE induce apoptosis in the investigated cell types, such as N-AChE-S in cholinergic cortex neurons and glioblastoma cells (Toiber et al, 2008).…”

Section: Ache Promotes Apoptosismentioning

confidence: 99%

“…The molecular mechanisms underlying AChE's pro-apoptotic functions have not been revealed in any invertebrate species. Pro-apoptotic elevation of AChE expression in locust and beetle neurons is suppressed by activation of CRLF3 (cytokine receptor-like factor 3) stimulation with various cytokine ligands (Knorr et al, 2022). CRLF3 represents a phylogenetically (from cnidarian to mammals) conserved cytokine receptor that initiates anti-apoptotic processes via activation of intracellular JAK/STAT signaling (Hahn et al 2017;Hahn et al 2019).…”

Section: Ache In Invertebrate Apoptosismentioning

confidence: 99%

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Multifaceted promotion of apoptosis by acetylcholinesterase

2023

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Elevated expression of acetylcholinesterase (AChE) is a common characteristic of apoptotic cells in both invertebrate and vertebrate species. While increased levels of acetylcholinesterase sensitize cells to apoptogenic stimuli, its absence or pharmacological inactivation interferes with apoptotic cell death. acetylcholinesterase may exert its pro-apoptotic function directly as an integral component of the apoptotic molecular machinery or indirectly by limiting the availability of receptor ligands and structural binding partners that promote cell survival under non-apoptogenic conditions. acetylcholinesterase promotes formation of the apoptosome and degrades DNA after nuclear accumulation. Its esterase activity limits the availability of acetylcholine as ligand for cell membrane-located nicotinic and muscarinic ACh-receptors and mitochondrial nicotinic ACh-receptors that normally support vital physiological states. Studies on insects suggest, that cytokine-activated cell-protective pathways may suppress acetylcholinesterase overexpression under apoptogenic conditions to prevent apoptotic cell death. We provide an overview of studies on various organisms and cell types that summarizes the contribution of acetylcholinesterase to the progress of apoptosis via multiple mechanisms.

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Section: Ache In Invertebrate Apoptosissupporting

confidence: 73%

Section: Ache Promotes Apoptosismentioning

confidence: 99%

Section: Ache In Invertebrate Apoptosismentioning

confidence: 99%

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Multifaceted promotion of apoptosis by acetylcholinesterase

2023

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A common single nucleotide variant in the cytokine receptor-like factor-3 (CRLF3) gene causes neuronal deficits in human and mouse cells

Wilson,

Barakat,

et al. 2023

Human Molecular Genetics

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Single nucleotide variants in the general population are common genomic alterations, where the majority are presumed to be silent polymorphisms without known clinical significance. Using human induced pluripotent stem cell (hiPSC) cerebral organoid modeling of the 1.4 megabase Neurofibromatosis type 1 (NF1) deletion syndrome, we previously discovered that the cytokine receptor-like factor-3 (CRLF3) gene, which is co-deleted with the NF1 gene, functions as a major regulator of neuronal maturation. Moreover, children with NF1 and the CRLF3L389P variant have greater autism burden, suggesting that this gene might be important for neurologic function. To explore the functional consequences of this variant, we generated CRLF3L389P-mutant hiPSC lines and Crlf3L389P-mutant genetically engineered mice. While this variant does not impair protein expression, brain structure, or mouse behavior, CRLF3L389P-mutant human cerebral organoids and mouse brains exhibit impaired neuronal maturation and dendrite formation. In addition, Crlf3L389P-mutant mouse neurons have reduced dendrite lengths and branching, without any axonal deficits. Moreover, Crlf3L389P-mutant mouse hippocampal neurons have decreased firing rates and synaptic current amplitudes relative to wild type controls. Taken together, these findings establish the CRLF3L389P variant as functionally deleterious and suggest that it may be a neurodevelopmental disease modifier.

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Protection of insect neurons by erythropoietin/CRLF3-mediated regulation of pro-apoptotic acetylcholinesterase

Cited by 2 publications

References 80 publications

Multifaceted promotion of apoptosis by acetylcholinesterase

Multifaceted promotion of apoptosis by acetylcholinesterase

A common single nucleotide variant in the cytokine receptor-like factor-3 (CRLF3) gene causes neuronal deficits in human and mouse cells

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