植物醇和α-双羟基苯酚协同作用诱导 A549 细胞自噬和凋亡以及通过纳米 LC-MS/MS 进行蛋白质组综合分析获得的其他分子见解

IF 2.6 4区 医学 Q3 CHEMISTRY, MEDICINAL
Chandramohan Kiruthiga, Kambati Niharika, Kasi Pandima Devi
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引用次数: 0

摘要

背景:非小细胞肺癌(NSCLC非小细胞肺癌(NSCLC)是一种发病率高、侵袭性强的恶性肿瘤,给治疗干预带来了巨大挑战。自噬和细胞凋亡是两个错综复杂的细胞过程,是 NSCLC 病理生理学不可或缺的组成部分,两者通过共享的信号通路相互影响。植物醇(Phy)和α -双羟基苯酚(Bis)已显示出作为潜在抗癌剂的前景,但它们在NSCLC中的联合作用尚未得到广泛研究:本研究旨在考察 Phy 和 Bis 对 NSCLC 细胞的协同作用,尤其是在自噬调节方面,并利用 LCMS/ MS 分析法阐明由此产生的不同蛋白质表达:方法:将 A549 细胞系置于专利有效浓度的 Phy 和 Bis 中,然后利用 MTT 检测法评估细胞的存活率。本研究利用实时 PCR 分析评估了关键凋亡基因(特别是 Bcl-2、Bax 和 Caspase-9)以及自噬相关基因(包括 Beclin-1、SQSTM1、Ulk1 和 LC3B)的表达水平。自噬标志物(Beclin-1、LC3B)和自噬调节蛋白 SQSTM1 的表达是通过 Western 印迹分析确认的。通过 LC-MS/MS 分析发现了不同表达的蛋白质:结果:Phy 和 Bis 的组合能显著抑制 NSCLC 细胞的生长,表明它们具有协同作用。实时 PCR 分析显示,Bcl-2 下调,Bax 和 Caspase-9 上调,表明细胞向凋亡方向转变。与自噬调控相关的基因,包括 Beclin-1、SQSTM1 (p62)、Ulk1 和 LC3B,都出现了显著的上调,表明可能会诱导自噬。Western 印迹分析证实 Beclin-1 和 LC3B 等自噬标记物的表达增加,而自噬调节蛋白 SQSTM1 的表达则明显减少。LC-MS/MS 分析显示了 861 种蛋白质的不同表达,反映了细胞过程的调节。蛋白-蛋白相互作用网络分析突出了参与凋亡和自噬通路的关键蛋白,包括 STOML2、YWHAB、POX2、B2M、CDA、CAPN2、TXN、ECHS1、PEBP1、PFN1、CDC42、TUBB1、HSPB1、PXN、FGF2 和 BAG3,强调了它们的关键作用。此外,PANTHER通路分析发现了与差异表达蛋白相关的富集通路,揭示了它们参与了多种生物过程,包括细胞信号传导、新陈代谢和细胞应激反应:结论:Phy和Bis联合治疗可通过细胞凋亡和自噬的相互作用对NSCLC细胞的生长产生协同抑制作用。观察到的蛋白质表达差异以及鉴定出的蛋白质和丰富的通路为了解潜在的分子机制提供了宝贵的信息。这些发现为进一步探索 Phy 和 Bis 在治疗 NSCLC 方面的治疗潜力奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Phytol and α-Bisabolol Synergy Induces Autophagy and Apoptosis in A549 Cells and Additional Molecular Insights through Comprehensive Proteome Analysis via Nano LC-MS/MS.

Background: Non-Small Cell Lung Cancer (NSCLC) is a malignancy with a significant prevalence and aggressive nature, posing a considerable challenge in terms of therapeutic interventions. Autophagy and apoptosis, two intricate cellular processes, are integral to NSCLC pathophysiology, each affecting the other through shared signaling pathways. Phytol (Phy) and α-bisabolol (Bis) have shown promise as potential anticancer agents individually, but their combined effects in NSCLC have not been extensively investigated.

Objective: The present study was to examine the synergistic impact of Phy and Bis on NSCLC cells, particularly in the context of autophagy modulation, and to elucidate the resulting differential protein expression using LCMS/ MS analysis.

Methods: The A549 cell lines were subjected to the patented effective concentration of Phy and Bis, and subsequently, the viability of the cells was evaluated utilizing the MTT assay. The present study utilized real-time PCR analysis to assess the expression levels of crucial apoptotic genes, specifically Bcl-2, Bax, and Caspase-9, as well as autophagy-related genes, including Beclin-1, SQSTM1, Ulk1, and LC3B. The confirmation of autophagy marker expression (Beclin-1, LC3B) and the autophagy-regulating protein SQSTM1 was achieved through the utilization of Western blot analysis. Differentially expressed proteins were found using LC-MS/MS analysis.

Results: The combination of Phy and Bis demonstrated significant inhibition of NSCLC cell growth, indicating their synergistic effect. Real-time PCR analysis revealed a shift towards apoptosis, with downregulation of Bcl-2 and upregulation of Bax and Caspase-9, suggesting a shift towards apoptosis. Genes associated with autophagy regulation, including Beclin-1, SQSTM1 (p62), Ulk1, and LC3B, showed significant upregulation, indicating potential induction of autophagy. Western blot analysis confirmed increased expression of autophagy markers, such as Beclin-1 and LC3B, while the autophagy-regulating protein SQSTM1 exhibited a significant decrease. LC-MS/MS analysis revealed differential expression of 861 proteins, reflecting the modulation of cellular processes. Protein-protein interaction network analysis highlighted key proteins involved in apoptotic and autophagic pathways, including STOML2, YWHAB, POX2, B2M, CDA, CAPN2, TXN, ECHS1, PEBP1, PFN1, CDC42, TUBB1, HSPB1, PXN, FGF2, and BAG3, emphasizing their crucial roles. Additionally, PANTHER pathway analysis uncovered enriched pathways associated with the differentially expressed proteins, revealing their involvement in a diverse range of biological processes, encompassing cell signaling, metabolism, and cellular stress responses.

Conclusion: The combined treatment of Phy and Bis exerts a synergistic inhibitory effect on NSCLC cell growth, mediated through the interplay of apoptosis and autophagy. The differential protein expression observed, along with the identified proteins and enriched pathways, provides valuable insights into the underlying molecular mechanisms. These findings offer a foundation for further exploration of the therapeutic potential of Phy and Bis in the management of NSCLC.

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来源期刊
Anti-cancer agents in medicinal chemistry
Anti-cancer agents in medicinal chemistry ONCOLOGY-CHEMISTRY, MEDICINAL
CiteScore
5.10
自引率
3.60%
发文量
323
审稿时长
4-8 weeks
期刊介绍: Formerly: Current Medicinal Chemistry - Anti-Cancer Agents. Anti-Cancer Agents in Medicinal Chemistry aims to cover all the latest and outstanding developments in medicinal chemistry and rational drug design for the discovery of anti-cancer agents. Each issue contains a series of timely in-depth reviews and guest edited issues written by leaders in the field covering a range of current topics in cancer medicinal chemistry. The journal only considers high quality research papers for publication. Anti-Cancer Agents in Medicinal Chemistry is an essential journal for every medicinal chemist who wishes to be kept informed and up-to-date with the latest and most important developments in cancer drug discovery.
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