Exploring neuroadaptive cellular pathways in chronic morphine exposure: An in-vitro analysis of cabergoline and Mdivi-1 co-treatment effects on the autophagy–apoptosis axis

IF 3 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of cellular biochemistry Pub Date : 2024-04-05 DOI:10.1002/jcb.30558
Mina Makvand, Seyed Davood Mirtorabi, Arezoo Campbell, Alireza Zali, Ghasem Ahangari
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Abstract

The complex impacts of prolonged morphine exposure continue to be a significant focus in the expanding area of addiction studies. This research investigates the effectiveness of a combined treatment using Cabergoline and Mdivi-1 to counteract the neuroadaptive changes caused by in vitro morphine treatment. The impact of Methadone, Cabergoline, and a combination of Cabergoline and Mdivi-1 on the cellular and molecular responses associated with Morphine-induced changes was studied in human Neuroblastoma (SK-N-MC) and Glioblastoma (U87-MG) cell lines that were exposed to prolong Morphine treatment. Cabergoline and Mdivi-1 combined treatment effectively influenced the molecular alterations associated with neuroadaptation in chronic morphine-exposed neural cells. This combination therapy normalized autophagy and reduced oxidative stress by enhancing total-antioxidant capacity, mitigating apoptosis, restoring BDNF expression, and balancing apoptotic elements. Our research outlines morphine's dual role in modulating mitochondrial dynamics via the dysregulation of the autophagy–apoptosis axis. This emphasizes the significant involvement of DRP1 activity in neurological adaptation processes, as well as disturbances in the dopaminergic pathway during in vitro chronic exposure to morphine in neural cells. This study proposes a novel approach by recommending the potential effectiveness of combining Cabergoline and Mdivi-1 to modulate the neuroadaptations caused by morphine. Additionally, we identified BDNF and PCNA in neural cells as potential neuroprotective markers for assessing the effectiveness of drugs against opioid toxicity, emphasizing the need for further validation. The study uncovers diverse effects observed in pretreated morphine glioblastoma cells under treatment with Cabergoline and methadone. This highlights the potential for new treatments in the DRD2 pathway and underscores the importance of investigating the interplay between autophagy and apoptosis to advance research in managing cancer-related pain. The study necessitates an in-depth investigation into the relationship between autophagy and apoptosis, with a specific emphasis on protein interactions and the dynamics of cell signaling.

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探索慢性吗啡暴露的神经适应性细胞通路:卡麦角林和 Mdivi-1 联合治疗对自噬-凋亡轴影响的体外分析
长期接触吗啡的复杂影响仍然是不断扩展的成瘾研究领域的一个重要焦点。本研究调查了使用卡麦角林和 Mdivi-1 的联合疗法抵消体外吗啡治疗引起的神经适应性变化的有效性。研究人员在暴露于长期吗啡处理的人类神经母细胞瘤(SK-N-MC)和胶质母细胞瘤(U87-MG)细胞系中,研究了美沙酮、卡麦角林以及卡麦角林和 Mdivi-1 的组合对与吗啡引起的变化相关的细胞和分子反应的影响。卡麦角林和 Mdivi-1 联合疗法有效地影响了长期暴露于吗啡的神经细胞中与神经适应相关的分子变化。这种联合疗法通过提高总抗氧化能力、减轻细胞凋亡、恢复 BDNF 表达和平衡细胞凋亡元素,使自噬正常化并减少氧化应激。我们的研究概述了吗啡通过自噬-凋亡轴的失调调节线粒体动力学的双重作用。这强调了 DRP1 活性在神经系统适应过程中的重要作用,以及神经细胞在体外长期暴露于吗啡时多巴胺能通路的紊乱。本研究提出了一种新方法,建议将卡贝戈林和 Mdivi-1 结合使用,以调节吗啡引起的神经适应。此外,我们还发现神经细胞中的 BDNF 和 PCNA 是潜在的神经保护标志物,可用于评估药物对阿片类药物毒性的有效性,强调了进一步验证的必要性。这项研究发现了在使用卡贝戈林和美沙酮治疗的吗啡预处理胶质母细胞瘤细胞中观察到的不同效应。这凸显了在 DRD2 通路中采用新疗法的潜力,并强调了研究自噬和细胞凋亡之间的相互作用对于推动癌症相关疼痛治疗研究的重要性。这项研究需要深入调查自噬与细胞凋亡之间的关系,特别强调蛋白质相互作用和细胞信号的动态变化。
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来源期刊
Journal of cellular biochemistry
Journal of cellular biochemistry 生物-生化与分子生物学
CiteScore
9.90
自引率
0.00%
发文量
164
审稿时长
1 months
期刊介绍: The Journal of Cellular Biochemistry publishes descriptions of original research in which complex cellular, pathogenic, clinical, or animal model systems are studied by biochemical, molecular, genetic, epigenetic or quantitative ultrastructural approaches. Submission of papers reporting genomic, proteomic, bioinformatics and systems biology approaches to identify and characterize parameters of biological control in a cellular context are encouraged. The areas covered include, but are not restricted to, conditions, agents, regulatory networks, or differentiation states that influence structure, cell cycle & growth control, structure-function relationships.
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