PIASA, A Novel Peptide, Prevents SH-SY5Y Neuroblastoma Cells against Rotenone-induced Toxicity.

IF 2.4 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Current molecular pharmacology Pub Date : 2023-01-01 DOI:10.2174/1874467215666220427103045

Ahmed Sha Sulthana, Rengasamy Balakrishnan, Mani Renuka, Thangavel Mohankumar, Dharmar Manimaran, Kuppamuthu Arulkumar, Elangovan Namasivayam

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引用次数: 2

Abstract

Background and objective: This investigation explores the neuroprotective effect of PIASA, a newly designed peptide, VCSVY, in in-silico and in opposition to rotenone stimulated oxidative stress, mitochondrial dysfunction, and apoptosis in an SH-SY5Y cellular model.

Methods: Docking and visualization of the PIASA and rotenone were progressed against mitochondrial respiratory complex I (MCI). The in-silico analysis showed PIASA to have interaction with the binding sites of rotenone, which may reduce the rotenone interaction and its toxicity too. The SH-SY5Y cells were segregated into four experimental groups: Group I: untreated control cells; Group II: rotenone-only (100 nM) treated cells; Group III: PIASA (5 μM) + rotenone (100 nM) treated cells; and Group IV: PIASA-only (5 μM) treated cells.

Results: We evaluated the cell viability, mitochondrial membrane potential (MMP), reactive oxygen species (ROS), apoptosis (dual staining technique), nuclear morphological changes (Hoechst staining technique), the expressions of BAX, Bcl-2, cyt c, pro-caspase 3, and caspase 3, -6, -8, -9, and cleaved caspase 3 by western blot analysis. In SH-SY5Y cells, we further observed the cytotoxicity, oxidative stress and mitochondrial dysfunction in rotenone-only treated cells, whereas pretreatment of PIASA attenuated the rotenone-mediated toxicity. Moreover, rotenone toxicity is caused by complex I inhibition, which leads to mitochondrial dysfunction, increased BAX expression, while downregulating the Bcl-2 expression and cyt c release, and then finally, caspases activation. PIASA pretreatment prevented the cytotoxic effects via the normalization of apoptotic marker expressions influenced by rotenone. In addition, pre-clinical studies are acceptable in rodents to make use of PIASA as a revitalizing remedial agent, especially for PD in the future.

Conclusion: Collectively, our results propose that PIASA mitigated rotenone-stimulated oxidative stress, mitochondrial dysfunction, and apoptosis in rotenone-induced SH-SY5Y cells.

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PIASA，一种新的肽，阻止SH-SY5Y神经母细胞瘤细胞对抗鱼藤酮诱导的毒性。

背景与目的:在SH-SY5Y细胞模型中，本研究探讨了PIASA(一种新设计的肽)VCSVY的神经保护作用，以及它对鱼藤酮刺激的氧化应激、线粒体功能障碍和凋亡的抑制作用。方法:对线粒体呼吸复合体I (MCI)进行PIASA和鱼藤酮的对接和可视化。结果表明，PIASA与鱼藤酮的结合位点存在相互作用，从而降低了鱼藤酮的相互作用和毒性。SH-SY5Y细胞分为4个实验组:第一组:未经处理的对照细胞;II组:仅鱼藤酮(100 nM)处理的细胞;III组:PIASA (5 μM) +鱼藤酮(100 nM)处理细胞;IV组:仅piasa (5 μM)处理的细胞。结果:采用western blot检测细胞活力、线粒体膜电位(MMP)、活性氧(ROS)、细胞凋亡(双染色技术)、细胞核形态学变化(Hoechst染色技术)、BAX、Bcl-2、cyt -c、caspase 3、caspase 3、-6、-8、-9和cleaved caspase 3的表达。在SH-SY5Y细胞中，我们进一步观察了鱼藤酮单独处理细胞的细胞毒性、氧化应激和线粒体功能障碍，而PIASA预处理则减弱了鱼藤酮介导的毒性。此外，鱼烯酮毒性是由复合物I抑制引起的，导致线粒体功能障碍，BAX表达增加，Bcl-2表达和cyt - c释放下调，最终导致caspases激活。PIASA预处理通过使鱼藤酮影响的凋亡标志物表达正常化来阻止细胞毒性作用。此外，临床前研究可以接受在啮齿类动物中使用PIASA作为一种活化治疗剂，特别是在未来的PD。结论:总的来说，我们的研究结果表明PIASA减轻了鱼藤酮刺激的氧化应激、线粒体功能障碍和鱼藤酮诱导的SH-SY5Y细胞凋亡。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Current molecular pharmacology Pharmacology, Toxicology and Pharmaceutics-Drug Discovery

CiteScore

4.90

自引率

3.70%

发文量

112

期刊介绍： Current Molecular Pharmacology aims to publish the latest developments in cellular and molecular pharmacology with a major emphasis on the mechanism of action of novel drugs under development, innovative pharmacological technologies, cell signaling, transduction pathway analysis, genomics, proteomics, and metabonomics applications to drug action. An additional focus will be the way in which normal biological function is illuminated by knowledge of the action of drugs at the cellular and molecular level. The journal publishes full-length/mini reviews, original research articles and thematic issues on molecular pharmacology. Current Molecular Pharmacology is an essential journal for every scientist who is involved in drug design and discovery, target identification, target validation, preclinical and clinical development of drugs therapeutically useful in human disease.