The Potential of Nanotechnology to Replace Cancer Stem Cells.

IF 2.1 4区 医学 Q4 CELL & TISSUE ENGINEERING
Muhammad Ammar Amanat, Anum Farrukh, Muhammad Umer Bin Muhammad Ishaq, Binyameen Bin Shafqat, Saqib Hussain Haidri, Rehab Amin, Rafia Sameen, Tahira Kamal, Muhammad Naeem Riaz, Waleed Quresh, Rabia Ikram, Ghulam Muhammad Ali, Sania Begum, Sajid Ali Khan Bangash, Imdad Kaleem, Shahid Bashir, Sahir Hameed Khattak
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Abstract

Stem cells, which were initially identified in the 1900s, are distinct cells with the potential to replenish themselves as well as differentiate into specialised cells with certain forms and functions. Cancer stem cells play a significant role in the growth and recurrence of the tumours and, similar to normal stem cells, are capable of proliferating and differentiating. Traditional cancer treatments are ineffective against cancer stem cells, which leads to tumour regrowth. Cancer stem cells are thought to emerge as a result of epithelial-to-mesenchymal transition pathways. Brain, prostate, pancreatic, blood, ovarian, lung, liver, melanomas, AML, and breast cancer stem cells are among the most prevalent cancer forms. This review aims to comprehend the possibility of using specific forms of nanotechnology to replace cancer stem cells. In terms of nanotechnology, magnetic nanoparticles can deliver medications, especially to the target region without harming healthy cells, and they are biocompatible. In order to kill glioma cancer stem cells, the gold nanoparticles bond with DNA and function as radio sensitizers. In contrast, liposomes can circulate and traverse biological membranes and exhibit high therapeutic efficacy, precise targeting, and better drug release. Similar to carbon nanotubes, grapheme, and grapheme oxide, these substances can be delivered specifically when utilized in photothermal therapy. Recent treatments including signaling pathways and indicators targeted by nanoparticles are being researched. Future research in nanotechnology aims to develop more effective and targeted medicinal approaches. The results of the current investigation also showed that this technology's utilization will improve medical therapy and treatment.

纳米技术取代癌症干细胞的潜力。
干细胞是一种独特的细胞,具有自我补充和分化成具有特定形态和功能的特化细胞的潜能。癌症干细胞在肿瘤的生长和复发中起着重要作用,与正常干细胞类似,它能够增殖和分化。传统的癌症治疗方法对癌症干细胞无效,从而导致肿瘤再生。癌症干细胞被认为是上皮细胞向间质转化途径的结果。脑癌、前列腺癌、胰腺癌、血癌、卵巢癌、肺癌、肝癌、黑色素瘤、急性髓细胞白血病和乳腺癌干细胞是最常见的癌症形式。本综述旨在了解利用特定形式的纳米技术取代癌症干细胞的可能性。在纳米技术方面,磁性纳米粒子可以在不伤害健康细胞的情况下将药物特别是药物输送到目标区域,而且具有生物相容性。为了杀死神经胶质瘤癌症干细胞,金纳米粒子与DNA结合,起到放射增敏剂的作用。相比之下,脂质体可以循环和穿越生物膜,具有疗效高、靶向精确和药物释放更佳等特点。与碳纳米管、石墨烯和氧化石墨烯类似,这些物质在光热疗法中使用时也能进行特异性递送。目前正在研究的最新疗法包括以纳米粒子为靶标的信号通路和指标。未来纳米技术研究的目标是开发更有效、更有针对性的医疗方法。目前的调查结果表明,这项技术的应用将改善医疗和治疗。
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 stem cell research & therapy
Current stem cell research & therapy CELL & TISSUE ENGINEERING-CELL BIOLOGY
CiteScore
4.20
自引率
3.70%
发文量
197
审稿时长
>12 weeks
期刊介绍: Current Stem Cell Research & Therapy publishes high quality frontier reviews, drug clinical trial studies and guest edited issues on all aspects of basic research on stem cells and their uses in clinical therapy. The journal is essential reading for all researchers and clinicians involved in stem cells research.
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