Hepatic Acyl CoA Oxidase1 Inhibition Modifies Brain Lipids and Electrical Properties of Dentate Gyrus.

IF 1.7 3区 农林科学 Q2 FORESTRY Canadian Journal of Forest Research Pub Date : 2023-09-01 DOI:10.32598/bcn.2021.3500.1
Shahrbanoo Rafiei, Fariba Khodagholi, Hamid Gholami Pourbadie, Leila Dargahi, Fereshteh Motamedi
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Abstract

Introduction: Peroxisomes are essential organelles in lipid metabolism. They contain enzymes for β-oxidation of very long-chain fatty acids (VLCFA) that cannot be broken down in mitochondria. Reduced expression in hepatic acyl-CoA oxidase 1 (ACOX1), a peroxisome β-oxidation enzyme, followed by modification of the brain fatty acid profile has been observed in aged rodents. These studies have suggested a potential role for peroxisome β-oxidation in brain aging. This study was designed to examine the effect of hepatic ACOX1 inhibition on brain fatty acid composition and neuronal cell activities of young rats (200-250 g).

Methods: A specific ACOX1 inhibitor, 10, 12- tricosadiynoic acid (TDYA), 100 μg/kg (in olive oil) was administered by daily gavage for 25 days in male Wistar rats. The brain fatty acid composition and electrophysiological properties of dentate gyrus granule cells were determined using gas chromatography and whole-cell patch-clamp, respectively.

Results: A significant increase in C20, C22, C18:1, C20:1, and a decrease of C18, C24, C20:3n6, and C22:6n3 were found in 10, 12- tricosadiynoic acid (TDYA) treated rats compared to the control group. The results showed that ACOX1 inhibition changes fatty acid composition similar to old rats. ACOX1 inhibition caused hyperpolarization of resting membrane potential, and also reduction of input resistance, action potential duration, and spike firing. Moreover, ACOX1 inhibition increased rheobase current and afterhyperpolarization amplitude in granule cells.

Conclusion: The results indicated that systemic inhibition of ACOX1 causes hypo-excitability of neuronal cells. These results provide new evidence on the involvement of peroxisome function and hepatic ACOX1 activity in brain fatty acid profile and the electrophysiological properties of dentate gyrus cells.

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肝酰基CoA氧化酶1抑制可改变脑脂质和齿状回的电特性
简介过氧物酶体是脂质代谢中必不可少的细胞器。它们含有对线粒体中无法分解的超长链脂肪酸(VLCFA)进行β氧化的酶。在老龄啮齿动物体内观察到,肝脏酰基-CoA 氧化酶 1(ACOX1)(一种过氧化物酶体 β-氧化酶)的表达量减少,随后脑脂肪酸谱发生改变。这些研究表明,过氧化物酶体 β 氧化在大脑衰老过程中可能发挥作用。本研究旨在探讨肝脏 ACOX1 抑制对年轻大鼠(200-250 克)脑脂肪酸组成和神经细胞活性的影响:方法:对雄性 Wistar 大鼠每天灌胃 100 μg/kg(在橄榄油中)的特异性 ACOX1 抑制剂--10,12- 三缩二壬酸(TDYA),持续 25 天。采用气相色谱法和全细胞膜片钳法分别测定了大鼠脑脂肪酸组成和齿状回颗粒细胞的电生理特性:结果:与对照组相比,10, 12-三苯二酸(TDYA)处理组大鼠的 C20、C22、C18:1、C20:1 明显增加,而 C18、C24、C20:3n6 和 C22:6n3 则明显减少。结果表明,抑制 ACOX1 会改变脂肪酸组成,与老龄大鼠相似。抑制 ACOX1 可使静息膜电位超极化,并降低输入阻抗、动作电位持续时间和尖峰发射。此外,ACOX1抑制还能增加颗粒细胞的流变基电流和超极化后振幅:结论:研究结果表明,系统性抑制 ACOX1 会导致神经元细胞兴奋性降低。这些结果为过氧化物酶体功能和肝脏 ACOX1 活性参与脑脂肪酸谱和齿状回细胞电生理特性提供了新的证据。
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来源期刊
CiteScore
4.20
自引率
9.10%
发文量
109
审稿时长
3 months
期刊介绍: Published since 1971, the Canadian Journal of Forest Research is a monthly journal that features articles, reviews, notes and concept papers on a broad spectrum of forest sciences, including biometrics, conservation, disturbances, ecology, economics, entomology, genetics, hydrology, management, nutrient cycling, pathology, physiology, remote sensing, silviculture, social sciences, soils, stand dynamics, and wood science, all in relation to the understanding or management of ecosystem services. It also publishes special issues dedicated to a topic of current interest.
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