Iryna Mohylyak scite author profile

Various neurodegenerative disorders are associated with human NTE/PNPLA6 dysfunction. Mechanisms of neuropathogenesis in these diseases are far from clearly elucidated. Hereditary spastic paraplegia belongs to a type of neurodegeneration associated with NTE/PNLPLA6 and is implicated in neuron death. In this study, we used Drosophila melanogaster to investigate the consequences of neuronal knockdown of swiss cheese (sws)—the evolutionarily conserved ortholog of human NTE/PNPLA6—in vivo. Adult flies with the knockdown show longevity decline, locomotor and memory deficits, severe neurodegeneration progression in the brain, reactive oxygen species level acceleration, mitochondria abnormalities and lipid droplet accumulation. Our results suggest that SWS/NTE/PNPLA6 dysfunction in neurons induces oxidative stress and lipid metabolism alterations, involving mitochondria dynamics and lipid droplet turnover in neurodegeneration pathogenesis. We propose that there is a complex mechanism in neurological diseases such as hereditary spastic paraplegia, which includes a stress reaction, engaging mitochondria, lipid droplets and endoplasmic reticulum interplay.

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Swiss Cheese, Drosophila Ortholog of Hereditary Spastic Paraplegia Gene NTE, Maintains Neuromuscular Junction Development and Microtubule Network

Ryabova¹,

Matiytsiv²,

Trush³

et al. 2018

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Neuropathy target esterase (NTE) is a molecular target for the organophosphorus compound-induced delayed neuropathy (OPIDN) and also one of the genetic factors responsible for the development of the hereditary spastic paraplegia (HSP), characterized by axon degeneration of motoneurons causing progressive lower-limb spastic paralysis. Both HSP and OPIDN are characterized by the distal axonopathy. The molecular mechanisms underlying the axonopathy involved in HSP and OPIDN are poorly understood. In order to have a beter understanding of the mechanisms that NTE is involved in, we used one of the homologs, human NTE. Swiss cheese (sws) is a Drosophila melanogaster ortholog of NTE with 39% homology. Mutations in sws as it was shown before lead to age-dependent neurodegeneration, structure alteration of glia cells, and reduced insect life span. To study SWS functions, we used the system of the third-instar larval neuromuscular junctions of D. melanogaster. In this study, we show that mutations in sws (sws 1 and sws 76−1) and SWS knockdown alter neuromuscular junction's morphology and synaptic microtubules organization.

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Functioning of glia and neurodegeneration in Drosophila melanogaster

Mohylyak

Chernyk

2017

Cytol. Genet.

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Sensitivity of neurodegenerative mutants of Drosophila melanogaster from Swiss cheese group to the oxidative stress conditions

et al. 2011

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Aim. To investigate sensitivity of the D. melanogaster neurodegenerative mutants from Swiss cheese group to oxidative stress (OS). Methods. Measuring the life-span, OS resistance, level of lipid peroxidation products, and the number of dophaminergic neurons. Results. We have found decreased life-span, increased sensitivity to OS, increased formation of LPP and degeneration of dophaminergic neurons in brain tissue. Conclusions. Neurodegeneration is associated with the free radical oxidation and is accompanied by accumulation of LPP and increased sensitivity to O

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Iryna Mohylyak

Loss of swiss cheese in Neurons Contributes to Neurodegeneration with Mitochondria Abnormalities, Reactive Oxygen Species Acceleration and Accumulation of Lipid Droplets in Drosophila Brain

Swiss Cheese, Drosophila Ortholog of Hereditary Spastic Paraplegia Gene NTE, Maintains Neuromuscular Junction Development and Microtubule Network

Functioning of glia and neurodegeneration in Drosophila melanogaster

Sensitivity of neurodegenerative mutants of Drosophila melanogaster from Swiss cheese group to the oxidative stress conditions

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