Oxidative stress-related cellular aging causes dysfunction of the Kv3.1/KCNC1 channel reverted by melatonin

IF 7.8 1区 医学 Q1 Biochemistry, Genetics and Molecular Biology Aging Cell Pub Date : 2024-05-09 DOI:10.1111/acel.14185
Sara Spinelli, Alessia Remigante, Raffaella Liuni, Gianluca Mantegna, Giuseppe Legname, Angela Marino, Rossana Morabito, Silvia Dossena
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Abstract

The voltage-gated Kv3.1/KCNC1 channel is abundantly expressed in fast-spiking principal neurons and GABAergic inhibitory interneurons throughout the ascending auditory pathway and in various brain regions. Inactivating mutations in the KCNC1 gene lead to forms of epilepsy and a decline in the expression of the Kv3.1 channel is involved in age-related hearing loss. As oxidative stress plays a fundamental role in the pathogenesis of epilepsy and age-related hearing loss, we hypothesized that an oxidative insult might affect the function of this channel. To verify this hypothesis, the activity and expression of endogenous and ectopic Kv3.1 were measured in models of oxidative stress-related aging represented by cell lines exposed to 100 mM d-galactose. In these models, intracellular reactive oxygen species, thiobarbituric acid reactive substances, sulfhydryl groups of cellular proteins, and the activity of catalase and superoxide dismutase were dysregulated, while the current density of Kv3.1 was significantly reduced. Importantly, the antioxidant melatonin reverted all these effects. The reduction of function of Kv3.1 was not determined by direct oxidation of amino acid side chains of the protein channel or reduction of transcript or total protein levels but was linked to reduced trafficking to the cell surface associated with Src phosphorylation as well as metabolic and endoplasmic reticulum stress. The data presented here specify Kv3.1 as a novel target of oxidative stress and suggest that Kv3.1 dysfunction might contribute to age-related hearing loss and increased prevalence of epilepsy during aging. The pharmacological use of the antioxidant melatonin can be protective in this setting.

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氧化应激相关的细胞衰老会导致 Kv3.1/KCNC1 通道功能失调,而褪黑激素能逆转这种失调。
电压门控 Kv3.1/KCNC1 通道在整个听觉上升通路和不同脑区的快速尖峰主神经元和 GABA 能抑制性中间神经元中大量表达。KCNC1 基因的失活突变会导致各种形式的癫痫,而 Kv3.1 通道表达的下降则与老年性听力损失有关。由于氧化应激在癫痫和老年性听力损失的发病机制中扮演着重要角色,我们假设氧化损伤可能会影响该通道的功能。为了验证这一假设,我们在暴露于 100 mM d-半乳糖的细胞系所代表的氧化应激相关衰老模型中测量了内源性和异位 Kv3.1 的活性和表达。在这些模型中,细胞内活性氧、硫代巴比妥酸活性物质、细胞蛋白的巯基以及过氧化氢酶和超氧化物歧化酶的活性都发生了失调,而 Kv3.1 的电流密度则显著降低。重要的是,抗氧化剂褪黑素能逆转所有这些影响。Kv3.1 功能的降低并不是由蛋白通道氨基酸侧链的直接氧化或转录本或总蛋白水平的降低决定的,而是与 Src 磷酸化以及新陈代谢和内质网应激相关的向细胞表面的贩运减少有关。本文提供的数据明确指出 Kv3.1 是氧化应激的一个新靶点,并表明 Kv3.1 功能障碍可能会导致与年龄相关的听力损失以及老龄化过程中癫痫发病率的增加。在这种情况下,抗氧化剂褪黑素的药理作用可以起到保护作用。
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来源期刊
Aging Cell
Aging Cell 生物-老年医学
CiteScore
14.40
自引率
2.60%
发文量
212
审稿时长
8 weeks
期刊介绍: Aging Cell, an Open Access journal, delves into fundamental aspects of aging biology. It comprehensively explores geroscience, emphasizing research on the mechanisms underlying the aging process and the connections between aging and age-related diseases.
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