Paraoxonase 2 deficiency in mice alters motor behavior and causes region-specific transcript changes in the brain

Paraoxonase 2 (PON2) is an intracellular antioxidant enzyme shown to play an important role in mitigating oxidative stress in the brain. Oxidative stress is a common mechanism of toxicity for neurotoxicants and is increasingly implicated in the etiology of multiple neurological diseases. While PON2...

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Veröffentlicht in:Neurotoxicology and teratology 2021-09, Vol.87, p.107010-107010, Article 107010
Hauptverfasser: Garrick, Jacqueline M., Cole, Toby B., Bammler, Theo K., MacDonald, James W., Marsillach, Judit, Furlong, Clement E., Costa, Lucio G.
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container_end_page 107010
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container_start_page 107010
container_title Neurotoxicology and teratology
container_volume 87
creator Garrick, Jacqueline M.
Cole, Toby B.
Bammler, Theo K.
MacDonald, James W.
Marsillach, Judit
Furlong, Clement E.
Costa, Lucio G.
description Paraoxonase 2 (PON2) is an intracellular antioxidant enzyme shown to play an important role in mitigating oxidative stress in the brain. Oxidative stress is a common mechanism of toxicity for neurotoxicants and is increasingly implicated in the etiology of multiple neurological diseases. While PON2 deficiency increases oxidative stress in the brain in-vitro, little is known about its effects on behavior in-vivo and what global transcript changes occur from PON2 deficiency. We sought to characterize the effects of PON2 deficiency on behavior in mice, with an emphasis on locomotion, and evaluate transcriptional changes with RNA-Seq. Behavioral endpoints included home-cage behavior (Noldus PhenoTyper), motor coordination (Rotarod) and various gait metrics (Noldus CatWalk). Home-cage behavior analysis showed PON2 deficient mice had increased activity at night compared to wildtype controls and spent more time in the center of the cage, displaying a possible anxiolytic phenotype. PON2 deficient mice had significantly shorter latency to fall when tested on the rotarod, suggesting impaired motor coordination. Minimal gait alterations were observed, with decreased girdle support posture noted as the only significant change in gait with PON2 deficiency. Beyond one home-cage metric, no significant sex-based behavioral differences were found in this study. Finally, A subset of samples were utilized for RNA-Seq analysis, looking at three discrete brain regions: cerebral cortex, striatum, and cerebellum. Highly regional- and sex-specific changes in RNA expression were found when comparing PON2 deficient and wildtype mice, suggesting PON2 may play distinct regional roles in the brain in a sex-specific manner. Taken together, these findings demonstrates that PON2 deficiency significantly alters the brain on both a biochemical and phenotypic level, with a specific impact on motor function. These data have implications for future gene-environment toxicological studies and warrants further investigation of the role of PON2 in the brain. •Paraoxonase 2 deficiency causes motor deficits in mice as tested by the Rotarod•Home-cage behavior and gait metrics largely unaffected by paraoxonase 2 deficiency•Paraoxonase 2 deficient mice display regional- and sex-specific changes in transcript expression in the brain•RNA-Seq analysis demonstrates previously unknown pathways to be affected by paraoxonase 2 deficiency in the brain
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Minimal gait alterations were observed, with decreased girdle support posture noted as the only significant change in gait with PON2 deficiency. Beyond one home-cage metric, no significant sex-based behavioral differences were found in this study. Finally, A subset of samples were utilized for RNA-Seq analysis, looking at three discrete brain regions: cerebral cortex, striatum, and cerebellum. Highly regional- and sex-specific changes in RNA expression were found when comparing PON2 deficient and wildtype mice, suggesting PON2 may play distinct regional roles in the brain in a sex-specific manner. Taken together, these findings demonstrates that PON2 deficiency significantly alters the brain on both a biochemical and phenotypic level, with a specific impact on motor function. 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ispartof Neurotoxicology and teratology, 2021-09, Vol.87, p.107010-107010, Article 107010
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language eng
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source MEDLINE; Elsevier ScienceDirect Journals Complete
subjects Animals
Aryldialkylphosphatase - deficiency
Aryldialkylphosphatase - genetics
Behavior
Behavior, Animal - physiology
Brain
Brain - metabolism
Corpus Striatum - metabolism
Female
Male
Mice
Motor Activity - genetics
Motor Activity - physiology
Mouse
Oxidative Stress - genetics
Oxidative Stress - physiology
Paraoxonase 2
PON2
RNA-Seq
Sex Characteristics
title Paraoxonase 2 deficiency in mice alters motor behavior and causes region-specific transcript changes in the brain
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