Multifunctional approach with LHRH-mediated PLGA nanoconjugate for site-specific codelivery of curcumin and BCL2 siRNA in mice lung cancer

IF 3.4 Q2 PHARMACOLOGY & PHARMACY Future Journal of Pharmaceutical Sciences Pub Date : 2024-11-20 DOI:10.1186/s43094-024-00743-w

Madhuchandra Lahan, Trideep Saikia, Kalpajit Dutta, Rinku Baishya, Alakesh Bharali, Sunayana Baruah, Rituraj Bharadwaj, Subhash Medhi, Bhanu P. Sahu

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Abstract

Background

Lung cancer remains a leading cancer type, but current chemotherapy is limited by issues including poor drug delivery, toxicity, and resistance. To address these challenges, we developed a novel PLGA-PEG-LHRH (PPL) nanoconjugate system for improved drug delivery. Curcumin, known for its anticancer and P-gp inhibition properties, was co-loaded with bcl2siRNA (bclsR) to inhibit the bcl2 protein, thus overcoming both resistance mechanisms.

Results

The PPL conjugate was successfully synthesized and characterized using FTIR, ¹H NMR, XRD, XPS and BCA assay. Curcumin and bclsR-loaded PLGA nanoemulsions were prepared by double emulsion solvent evaporation method and characterized. The optimized nanoconjugate had size of 179 ± 16 nm, favorable zeta potential, high drug entrapment, and was confirmed via TEM. Controlled release studies indicated 83% drug release within 24 h. In vitro studies revealed significant cytotoxicity against A549 lung cancer cells, with the nanoconjugate showing IC50 of 8.24 µg/mL compared to 21.26 µg/mL for plain curcumin. Enhanced cellular uptake and effective targeting of A549 cells were observed. Molecular analyses demonstrated significant downregulation of MDR1 and Bcl2 RNA and protein expression, highlighting the nanoconjugates' ability to suppress resistance mechanisms. Pharmacokinetic studies in Wistar rats showed superior plasma drug concentrations, half-life, and AUC for the nanoconjugate versus pure drug suspension. Biodistribution studies showed increased drug accumulation in the lungs. In vivo efficacy studies in Balb/c mice demonstrated higher tumor inhibition ratios for CUR-siRNA PPL NPs (66.89%) and CUR-PPL NPs (59.84%) which was further confirmed with TNFα and p53 levels in blood. Histopathological studies showed good healing in the CUR-siRNA PPL NP- and CUR-PPL NP-treated mice compared to suspension.

Conclusion

From the study, it may be concluded that the PPL nanoconjugate system, loaded with curcumin and bcsR, can be potentially effective, multifunctional targeted approach for lung cancer therapy.

Graphical Abstract

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利用 LHRH 介导的 PLGA 纳米共轭物的多功能方法，在小鼠肺癌中进行姜黄素和 BCL2 siRNA 的位点特异性编码递送

背景肺癌仍然是一种主要的癌症类型，但目前的化疗受到了包括给药不良、毒性和耐药性等问题的限制。为了应对这些挑战，我们开发了一种新型的 PLGA-PEG-LHRH (PPL) 纳米共轭体系来改善药物的输送。姜黄素以其抗癌和抑制 P-gp 的特性而闻名，它与 bcl2siRNA（bclsR）共同负载，以抑制 bcl2 蛋白，从而克服了这两种抗药性机制。采用双乳液溶剂蒸发法制备了姜黄素和 bclsR 负载的 PLGA 纳米乳剂，并对其进行了表征。优化后的纳米共轭物尺寸为 179 ± 16 nm，具有良好的 ZETA 电位和较高的药物截留率，并通过 TEM 得到证实。体外研究显示，纳米共轭物对 A549 肺癌细胞具有显著的细胞毒性，其 IC50 为 8.24 µg/mL，而普通姜黄素的 IC50 为 21.26 µg/mL。观察到A549细胞的细胞摄取和靶向性增强。分子分析表明，MDR1 和 Bcl2 的 RNA 和蛋白质表达明显下调，突出了纳米共轭物抑制抗药性机制的能力。对 Wistar 大鼠进行的药代动力学研究表明，纳米共轭物的血浆药物浓度、半衰期和 AUC 均优于纯药物悬浮液。生物分布研究表明，药物在肺部的蓄积增加。Balb/c 小鼠体内疗效研究表明，CUR-siRNA PPL NPs（66.89%）和 CUR-PPL NPs（59.84%）的肿瘤抑制率更高，血液中 TNFα 和 p53 水平也进一步证实了这一点。组织病理学研究表明，与悬浮液相比，CUR-siRNA PPL NP 和 CUR-PPL NP 处理的小鼠愈合良好。

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来源期刊

Future Journal of Pharmaceutical Sciences PHARMACOLOGY & PHARMACY-

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0.00%

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审稿时长

23 weeks

期刊介绍： Future Journal of Pharmaceutical Sciences (FJPS) is the official journal of the Future University in Egypt. It is a peer-reviewed, open access journal which publishes original research articles, review articles and case studies on all aspects of pharmaceutical sciences and technologies, pharmacy practice and related clinical aspects, and pharmacy education. The journal publishes articles covering developments in drug absorption and metabolism, pharmacokinetics and dynamics, drug delivery systems, drug targeting and nano-technology. It also covers development of new systems, methods and techniques in pharmacy education and practice. The scope of the journal also extends to cover advancements in toxicology, cell and molecular biology, biomedical research, clinical and pharmaceutical microbiology, pharmaceutical biotechnology, medicinal chemistry, phytochemistry and nutraceuticals.