Effects of Chronic Hypertension on the Energy Metabolism of Cerebral Cortex Mitochondria in Normotensive and in Spontaneously Hypertensive Rats During Aging.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-02-23 DOI:10.1007/s12017-023-08772-z
Roberto Federico Villa, Federica Ferrari, Antonella Gorini
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Abstract

In this study the subcellular modifications undergone by cerebral cortex mitochondrial metabolism in chronic hypertension during aging were evaluated. The catalytic properties of regulatory energy-linked enzymes of Tricarboxylic Acid Cycle (TCA), Electron Transport Chain (ETC) and glutamate metabolism were assayed on non-synaptic mitochondria (FM, located in post-synaptic compartment) and on intra-synaptic mitochondria of pre-synaptic compartment, furtherly divided in "light" (LM) and "heavy" (HM) mitochondria, purified form cerebral cortex of normotensive Wistar Kyoto Rats (WKY) versus Spontaneously Hypertensive Rats (SHR) at 6, 12 and 18 months. During physiological aging, the metabolic machinery was differently expressed in pre- and post-synaptic compartments: LM and above all HM were more affected by aging, displaying lower ETC activities. In SHR at 6 months, FM and LM showed an uncoupling between TCA and ETC, likely as initial adaptive response to hypertension. During pathological aging, HM were particularly affected at 12 months in SHR, as if the adaptive modifications in FM and LM at 6 months granted a mitochondrial functional balance, while at 18 months all the neuronal mitochondria displayed decreased metabolic fluxes versus WKY. This study describes the effects of chronic hypertension on cerebral mitochondrial energy metabolism during aging through functional proteomics of enzymes at subcellular levels, i.e. in neuronal soma and synapses. In addition, this represents the starting point to envisage an experimental physiopathological model which could be useful also for pharmacological studies, to assess drug actions during the development of age-related pathologies that could coexist and/or are provoked by chronic hypertension.

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慢性高血压对正常血压和自发性高血压大鼠衰老过程中大脑皮层线粒体能量代谢的影响
本研究评估了慢性高血压衰老过程中大脑皮层线粒体代谢所经历的亚细胞修饰。在非突触线粒体(FM,位于突触后区)和突触前区的突触内线粒体上检测了三羧酸循环(TCA)、电子传递链(ETC)和谷氨酸代谢中与能量有关的调节酶的催化特性、线粒体又分为 "轻 "线粒体(LM)和 "重 "线粒体(HM),分别纯化自正常血压的 Wistar Kyoto 大鼠(WKY)和自发性高血压大鼠(SHR)6、12 和 18 个月的大脑皮层。在生理衰老过程中,新陈代谢机制在突触前区和突触后区的表现不同:LM 尤其是 HM 受衰老的影响更大,其 ETC 活性更低。在 6 个月的 SHR 中,FM 和 LM 显示出 TCA 和 ETC 之间的解偶联,这可能是对高血压的最初适应性反应。在病理衰老过程中,SHR 的 HM 在 12 个月时受到的影响尤为明显,6 个月时 FM 和 LM 的适应性改变使线粒体功能达到平衡,而在 18 个月时,与 WKY 相比,所有神经元线粒体的代谢通量都有所下降。本研究通过对亚细胞水平(即神经元体和突触)酶的功能蛋白质组学研究,描述了慢性高血压在衰老过程中对大脑线粒体能量代谢的影响。此外,这也是设想一个实验生理病理模型的起点,该模型也可用于药理学研究,以评估药物在与年龄相关的病理发展过程中的作用,这些病理可能与慢性高血压并存和/或由慢性高血压引发。
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CiteScore
7.20
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4.30%
发文量
567
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