Polyvinylpyrrolidone-functionalized graphene oxide as a nanocarrier for dual-drug delivery of quercetin and curcumin against HeLa cancer cells

IF 3.8 4区 工程技术 Q2 CHEMISTRY, APPLIED Journal of Vinyl & Additive Technology Pub Date : 2024-05-13 DOI:10.1002/vnl.22115
Anita Rana, Monika Matiyani, Pushpa Bhakuni Negi, Himani Tiwari, Kamal Garwal, Souvik Basak, Nanda Gopal Sahoo
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Abstract

This study is to develop a nanocarrier based on polyvinylpyrrolidone (PVP)-functionalized graphene oxide (GO–PVP), loaded with both curcumin (CUR) and quercetin (QSR), and then its performance compared with nanocarriers carrying the drugs separately. The study also aimed to investigate the cytotoxic effects of these nanocarriers on HeLa cancer cells. To achieve this, GO was synthesized using a modified version of Hummer's method and subsequently functionalized with PVP. Drug loading onto the GO and GO–PVP nanocarriers was achieved through hydrophobic interactions. Furthermore, the ability of the nanocarriers to accommodate a single drug or a combination of drugs was examined. In our study, combined system shows higher drug loading, that is, 28.1% of QSR and 24.34% of CUR onto GO–PVP–QSR–CUR nanocarrier in comparison to single drug nanocarrier systems GO–PVP–QSR and GO–PVP–CUR which loaded 22.5% of QSR and 18.73% of CUR, respectively. Notably, the synthesized nanocarrier exhibited a pH-sensitive drug release pattern. These results collectively suggest that GO–PVP–CUR–QSR displayed significantly higher cytotoxicity against HeLa cancer cells compared to both single-drug nanocarrier systems at the specified concentrations. In addition, future pre-clinical and clinical studies to evaluate the safety and efficacy of GO–PVP–CUR–QSR for cancer treatment are strongly recommended.

Highlights

  • Developed nanocarrier based on polyvinylpyrrolidone functionalized GO (GO–PVP).
  • The GO–PVP nanocarrier was loaded with both curcumin (CUR) and quercetin (QSR).
  • GO–PVP displays a higher loading capacity for both QSR and CUR compared to GO.
  • QSR- and CUR-loaded GO–PVP nanocarriers exhibited higher cytotoxic effects.
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聚乙烯吡咯烷酮功能化氧化石墨烯作为一种纳米载体,用于对 HeLa 癌细胞进行槲皮素和姜黄素双重给药
本研究旨在开发一种基于聚乙烯吡咯烷酮(PVP)功能化氧化石墨烯(GO-PVP)的纳米载体,载入姜黄素(CUR)和槲皮素(QSR),然后将其性能与分别载入这两种药物的纳米载体进行比较。研究还旨在探讨这些纳米载体对 HeLa 癌细胞的细胞毒性作用。为此,研究人员采用改进版的 Hummer 方法合成了 GO,随后用 PVP 对其进行了功能化。药物通过疏水作用负载到 GO 和 GO-PVP 纳米载体上。此外,还考察了纳米载体容纳单一药物或药物组合的能力。在我们的研究中,GO-PVP-QSR-CUR 纳米载体与单一药物纳米载体系统 GO-PVP-QSR 和 GO-PVP-CUR 相比,组合系统显示出更高的药物负载量,即在 GO-PVP-QSR-CUR 纳米载体上分别负载了 28.1% 的 QSR 和 24.34% 的 CUR,而在单一药物纳米载体系统 GO-PVP-QSR 和 GO-PVP-CUR 上分别负载了 22.5% 的 QSR 和 18.73% 的 CUR。值得注意的是,合成的纳米载体表现出对 pH 值敏感的药物释放模式。这些结果共同表明,在特定浓度下,GO-PVP-CUR-QSR 对 HeLa 癌细胞的细胞毒性明显高于两种单药纳米载体系统。此外,我们强烈建议在未来开展临床前和临床研究,以评估 GO-PVP-CUR-QSR 治疗癌症的安全性和有效性。该 GO-PVP 纳米载体同时负载姜黄素(CUR)和槲皮素(QSR)。与 GO 相比,GO-PVP 对 QSR 和 CUR 的负载能力更强。负载了 QSR 和 CUR 的 GO-PVP 纳米载体具有更高的细胞毒性效应。
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来源期刊
Journal of Vinyl & Additive Technology
Journal of Vinyl & Additive Technology 工程技术-材料科学:纺织
CiteScore
5.40
自引率
14.80%
发文量
73
审稿时长
>12 weeks
期刊介绍: Journal of Vinyl and Additive Technology is a peer-reviewed technical publication for new work in the fields of polymer modifiers and additives, vinyl polymers and selected review papers. Over half of all papers in JVAT are based on technology of additives and modifiers for all classes of polymers: thermoset polymers and both condensation and addition thermoplastics. Papers on vinyl technology include PVC additives.
期刊最新文献
Issue Information An experimental study on jute/banana fiber reinforced poly(vinyl alcohol) composites with nanofiller Synthesis of flexible magneto-electric polyvinyl alcohol composites using hybrid filler particles of carbon quantum dots and cobalt nano for electromagnetic interference shielding application Issue Information DL-Isoborneol esters as nontoxic main plasticizers for polyvinyl chloride with improved processability, thermal stability, and mechanical performance
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