Revealing the anticancer potential of nano-encapsulated graviola extract on tongue carcinoma (SCC154) cell line: targeting the PI3K/AKT/mTOR pathway (in vitro study).

IF 3.4 2区医学 Q1 INTEGRATIVE & COMPLEMENTARY MEDICINE

BMC Complementary Medicine and Therapies Pub Date : 2025-10-02 DOI:10.1186/s12906-025-05113-4

Amany Hany Mohamed Kamel, Ahmed A Abd-Rabou, Ahmed Basuoni, Nermeen AbuBakr

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Abstract

Background: Graviola emerged as a promising anticancer agent, with nanotechnology enhancing drugs' therapeutic potential. The purpose of this work was to explore graviola extract and its nano-platform's effects on tongue carcinoma (SCC154 cells) in vitro model.

Methods: Graviola leaves extract (GLE) was isolated, and its phenolic content was identified. Three nano-formulations (F1-F3) were optimized for GLE delivery, with F1 chosen for its optimal size and stability to synthesize graviola nanoparticles (GNPs). SCC154 cells were split into three groups: group Ι (untreated SCC154 cells), group ΙΙ: SCC154 cells + ethanolic GLE, and group ΙΙΙ: SCC154 cells + GLE encapsulated in a nano-void delivery system (GNPs). In vitro tests assessed cell viability via MTT assay, cell cycle, and apoptosis by flow cytometry, DNA damage using comet assay, and gene expression of the key molecular markers (PI3K, AKT, mTOR, and GSK-3β) by quantitative real-time polymerase chain reaction. Transmission electron microscopic examination of cells was also performed.

Results: GLE and GNPs reduced SCC154 cells' proliferation compared to untreated cells, with GNPs showing significantly higher cytotoxicity. Both treatments also induced apoptosis, arrested the cell cycle, and caused DNA damage with a significant pronounced effect in the GNPs-treated group. Gene expression analysis revealed a substantial decline in PI3K, AKT, mTOR, and GSK-3β in both treated groups relative to the control group, with a significant downregulation in the GNPs-treated group. Ultrastructural examination revealed severe destruction in tongue carcinoma cells of both treated groups, with substantial damage in the GNPs-treated group.

Conclusion: GNPs showed a better impact than GLE in tongue carcinoma therapy, causing cytotoxicity and apoptosis, potentially through the PI3K/AKT/mTOR pathway.

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揭示纳米包封紫荆提取物对舌癌（SCC154）细胞系的抗癌潜力：靶向PI3K/AKT/mTOR通路（体外研究）。

背景：随着纳米技术增强药物的治疗潜力，格拉维奥拉成为一种很有前景的抗癌药物。本研究旨在探讨紫荆提取物及其纳米平台对体外舌癌（SCC154细胞）模型的影响。方法：分离荆芥叶提取物（GLE），对其酚类物质含量进行鉴定。对三种纳米配方（F1- f3）进行了GLE递送优化，其中F1因其最佳尺寸和稳定性而被选中用于合成grviola nanoparticles （GNPs）。SCC154细胞被分成三组：Ι组（未经处理的SCC154细胞），ΙΙ组：SCC154细胞+乙醇GLE， ΙΙΙ组：SCC154细胞+包裹在纳米空隙递送系统（GNPs）中的GLE。体外实验采用MTT法评估细胞活力，流式细胞术评估细胞周期和凋亡，comet法评估DNA损伤，实时定量聚合酶链反应评估关键分子标记（PI3K、AKT、mTOR和GSK-3β）的基因表达。细胞透射电镜检查。结果：与未处理的SCC154细胞相比，GLE和GNPs降低了SCC154细胞的增殖，GNPs表现出明显更高的细胞毒性。两种处理均诱导细胞凋亡，阻滞细胞周期，并引起DNA损伤，在gnps处理组中效果显著。基因表达分析显示，与对照组相比，治疗组的PI3K、AKT、mTOR和GSK-3β均显著下降，gnps治疗组的PI3K、AKT、mTOR和GSK-3β均显著下调。超微结构检查显示，两组舌癌细胞均出现严重破坏，gnps组舌癌细胞损伤明显。结论：GNPs在舌癌治疗中的作用优于GLE，可能通过PI3K/AKT/mTOR通路引起细胞毒性和细胞凋亡。

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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