Parietin 对 SH-SY5Y 神经母细胞瘤细胞凋亡和细胞周期相关基因的潜在影响

Y. Dodurga, Mücahit Seçme, L. Elmas, G. Gündoğdu, Ayşe Çeki̇n, Nur Selvi Günel
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引用次数: 0

摘要

背景:多年来,从天然产品中提取的成分一直被用于癌症治疗。与化疗药物相比,天然产品的多样性和无毒性是它们受到青睐的主要原因。具有治疗癌症潜力的地衣由真菌和 1-2 种藻类组成。在地衣物质的名称下,许多地衣物质还被合成为特定物质。地衣中的次级代谢产物一般不溶于水,具有抗病毒、抗肿瘤、抗菌和抗氧化等多种生物活性;它们储存在真菌细胞或菌丝表面,只能用有机溶剂提取。 从地衣物种(如黄癣菌)中提取的 Parietin 是一种蒽醌色素,也是一种次级代谢产物。 在我们的研究中,研究了对叶素对神经母细胞瘤细胞的细胞毒性、基因表达、迁移、侵袭和集落形成的影响。对照组为 SH-SY5Y 神经母细胞瘤(NB),该细胞未使用派瑞汀处理。 研究方法使用 XTT 法测定派瑞汀的 IC50 值。使用 Tri-Reagent 试剂盒提取细胞总 RNA。使用 SYBR Green 染料在 Lightcycler 480(罗氏)上检测 BCL-XL、BCL-2、MMP2、MMP9、P21、CYCLIN D1、CASAPASE-3、CASAPASE-9、BAX、P53、PUMA 和 NOXA 基因的表达。对照组和剂量组细胞的迁移分析按照伤口愈合试验方案进行。侵袭活性用 "侵袭室"(BD Biosciences)方案测定。用水晶紫处理菌落试验,并在光学显微镜下观察细胞。 结果在对细胞进行 48 小时处理时,所使用的平皿素的 IC50 值被确定为 35 µM。结果发现,BCL-XL、BCL-2、MMP2、MMP9、P21 和 CYCLIN D1 mRNA 的表达水平下调,CASAPASE-3、CASAPASE-9、BAX、P53、PUMA 和 NOXA 的表达水平上调。研究发现,派瑞汀能抑制神经母细胞瘤细胞的侵袭、迁移和集落形成。 研究结论因此,在治疗神经母细胞瘤的过程中,派瑞汀有可能作为一种替代、补充和辅助药物与其他药物一起使用。不过,更多支持派瑞汀这些重要作用的综合研究将提高其应用潜力。
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Potential effects of parietin on apoptosis and cell cycle related genes in SH-SY5Y neuroblastoma cells
Background: Ingredients obtained from natural products have been used in cancer treatments for years. High diversity and non-toxicity compared to chemotherapeutic agents are the main reasons for their preference. Lichens having potential for treatment of cancer consist of fungus and 1-2 species of algae. Under the name of lichen substances, many of them have also been synthesized as specific substances. The secondary metabolites in lichens are generally insoluble in water, and have many biological activities such as antiviral, antitumor, antibacterial, and antioxidant; they store in the fungal cell or on the surface of the hyphae and can only be extracted with organic solvents. Parietin extracted from lichen species such as xanthoria parietina is an anthraquinone pigment and a secondary metabolite. In our study, the effects of parietin on cytotoxicity, gene expression, migration, invasion, and colony formation in neuroblastoma cells treated with parietin were investigated. The SH-SY5Y neuroblastoma (NB), which is not treated with parietin, was administered as a control group. Methods: The IC50 value of the parietin was determined using XTT assay. The total RNA extractions were performed from the cells using the Tri-Reagent kit. The expressions of BCL-XL, BCL-2, MMP2, MMP9, P21, CYCLIN D1, CASAPASE-3, CASAPASE-9, BAX, P53, PUMA, and NOXA genes were investigated by Lightcycler 480 (Roche) using SYBR Green dye. Migration analysis of the control and the dose group cells were performed in accordance with the Wound-healing assay protocol. Invasion activities were determined using the “Invasion Chamber” (BD Biosciences) protocol. The colony assay was treated with crystal violet and the cells were observed under the light microscope. Results: The IC50 value of the parietin used for 48-hour treatment on the cells was determined as 35 µM. It was found that the expression levels of BCL-XL, BCL-2, MMP2, MMP9, P21, and CYCLIN D1 mRNA were downregulated, and it was also shown the expression levels of CASAPASE-3, CASAPASE-9, BAX, P53, PUMA, and NOXA to be upregulated. It was determined that parietin suppressed both cell invasion and migration, and colony formation in the neuroblastoma cells. Conclusions: Thus, it can be possible parietin to be used as an alternative, complementary, and supportive agent together with the other drugs in the treatment of neuroblastoma. However, more comprehensive studies supporting these significant effects of parietin will increase its potential in the application.
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