Annonacin and Squamocin Conjugation with Nanodiamond Alters Metastatic Marker Expression in Breast Cancer Cell Line

Q3 Agricultural and Biological Sciences

HAYATI Journal of Biosciences Pub Date : 2023-11-07 DOI:10.4308/hjb.31.2.211-220

Firli Rahmah, Primula Dewi, Sri Puji Astuti Wahyuningsih, Adelah Putri, Milenia Sari, Umidah Nur Alfiah, Vuanghao Lim, U. Zubaidah, Alfiah Hayati

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引用次数: 0

Abstract

Breast cancer can perform metastasis to distant organs and cause more than 90% of malignancy-related deaths. The anti-metastasis potency of nanodiamond-conjugated annonacin and squamocin against MCF-7 cells is currently studied. First, IC50 determination of both free annonacin and squamocin to evaluate their potency as cytotoxic agents. Upon getting the IC50 value, both compounds are conjugated into nanodiamonds. Drug loading efficiencies of nanodiamond-conjugated annonacin and squamocin are 88.9% and 89.1%, respectively. Meanwhile, the ND-annonacin and ND-squamocin complex size is 150-300 nm based on SEM imaging. Subsequently, cell viability assessment of MCF-7 was performed with six cohort designs, namely, K (control cell), AN (annonacin), SQ (squamocin), NDAN (nanodiamond-conjugated annonacin), and NDSQ (nanodiamond-conjugated squamocin). Both IC50 and cell viability are assessed by MTT assay after 24 h incubation. All cohorts also underwent gene expression analysis subject to the metastasis markers CTNND1 (catenin delta 1), NOTCH4, and C-JUN. Here, the IC50 of both free annonacin (4.52 µg/ml) and squamocin (10.03 µg/ml) are more than IC50 of potent anticancer (< 4 µg/ml) for pure compounds. However, nanodiamond conjugation to both compounds can decrease cell viability better than free compounds. Compared to K, nanodiamond-conjugated annonacin and squamocin significantly decreases cell viability after 24 h incubation. Bioinformatics analysis confirmed significant pro-metastasis (C-JUN and NOTCH4) upregulation and anti-metastasis (CTNND1) downregulation in tumors compared to normal. Recent findings demonstrated that nanodiamond-conjugated annonacin can significantly upregulate CTNND1 and significantly downregulate C-JUN and NOTCH4. Even so, nanodiamond-conjugated squamocin upregulate CTNND1 but not significantly and significantly downregulate C-JUN and NOTCH4.

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与纳米金刚石共轭的安乃近和角叉菜毒素会改变乳腺癌细胞系中转移标记物的表达

乳腺癌会向远处器官转移，并导致 90% 以上的恶性肿瘤相关死亡。目前正在研究纳米金刚石结合的annonacin和squamocin对MCF-7细胞的抗转移效力。首先，测定游离安诺那新和角叉菜毒素的 IC50 值，以评估它们作为细胞毒剂的效力。得出 IC50 值后，将这两种化合物共轭到纳米金刚石中。纳米金刚石共轭的安诺那新和角鲨烯的载药效率分别为 88.9% 和 89.1%。同时，根据扫描电镜成像，ND-annonacin 和 ND-squamocin 复合物的尺寸为 150-300 nm。随后，采用六种队列设计对 MCF-7 进行了细胞活力评估，即 K（对照细胞）、AN（安那新）、SQ（番木鳖素）、NDAN（纳米金刚石共轭安那新）和 NDSQ（纳米金刚石共轭番木鳖素）。孵育 24 小时后，通过 MTT 检测法评估 IC50 和细胞活力。所有组群还进行了转移标记 CTNND1（catenin delta 1）、NOTCH4 和 C-JUN 的基因表达分析。在这里，游离annonacin（4.52 µg/ml）和squamocin（10.03 µg/ml）的IC50都超过了纯化合物的强效抗癌IC50（< 4 µg/ml）。然而，与这两种化合物共轭的纳米金刚石能比游离化合物更好地降低细胞活力。与 K 相比，纳米金刚石共轭的安诺那新和壁虎素在孵育 24 小时后会显著降低细胞活力。生物信息学分析证实，与正常人相比，纳米金刚石在肿瘤中具有明显的促转移（C-JUN 和 NOTCH4）上调和抗转移（CTNND1）下调的作用。最近的研究结果表明，纳米金刚石结合的安诺那新可显著上调 CTNND1，显著下调 C-JUN 和 NOTCH4。尽管如此，纳米金刚石结合的番木鳖碱能上调 CTNND1，但对 C-JUN 和 NOTCH4 的下调作用不明显。

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来源期刊

HAYATI Journal of Biosciences Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

1.10

自引率

0.00%

发文量

审稿时长

24 weeks

期刊介绍： HAYATI Journal of Biosciences (HAYATI J Biosci) is an international peer-reviewed and open access journal that publishes significant and important research from all area of biosciences fields such as biodiversity, biosystematics, ecology, physiology, behavior, genetics and biotechnology. All life forms, ranging from microbes, fungi, plants, animals, and human, including virus, are covered by HAYATI J Biosci. HAYATI J Biosci published by Department of Biology, Bogor Agricultural University, Indonesia and the Indonesian Society for Biology. We accept submission from all over the world. Our Editorial Board members are prominent and active international researchers in biosciences fields who ensure efficient, fair, and constructive peer-review process. All accepted articles will be published on payment of an article-processing charge, and will be freely available to all readers with worldwide visibility and coverage.