Upregulation of apoptotic genes and downregulation of target genes of Sonic Hedgehog signaling pathway in DAOY medulloblastoma cell line treated with arsenic trioxide.

IF 1.9 4区医学 Q3 INFECTIOUS DISEASES Journal of Chemotherapy Pub Date : 2024-10-01 Epub Date: 2023-12-22 DOI:10.1080/1120009X.2023.2294574

Mehrdad Ghorbanlou, Fatemeh Moradi, Ronak Shabani, Mehdi Mehdizadeh

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Abstract

Sonic hedgehog (SHH) medulloblastoma etiology is associated with the SHH molecular pathway activation at different levels. We investigated the effect of arsenic trioxide as a downstream-level inhibitor of the SHH signaling pathway on morphology, cytotoxicity, migration, and SHH-related and apoptotic gene expression of DAOY cells. Cells were treated at various arsenic trioxide (ATO)concentrations (1, 2, 3, 5, and 10 μM) for different times (24 and 48 hr). Following treatments, the morphology of the cells was investigated at ×20 and ×40 magnification by an inverted microscope. Then, cytotoxicity was investigated by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) and trypan blue assays. Cell migration was analyzed through the wound-healing assay. Furthermore, the expression of SHH-related (GLI1, GLI2, SMO, and MYCN) and apoptotic genes (BAX, BCL2, and TP53) was assessed by real-time quantitative polymerase chain reaction (qPCR). Finally, GLI1, SMO, and MYCN markers were analyzed through immunocytochemistry. Data were analyzed by SPSS (version 16) and P≤0.05 was considered significant. Morphological changes were seen at 3 and 2 μM in 24 and 48 hr of treatment, respectively. The MTT assay showed a dose-dependent cytotoxicity indicating an IC50 value of 3.39±0.35 and 2.05±0.64 μM in 24 and 48hr treatment, respectively. In addition, the trypan blue assay showed higher IC50 values of 4.29±0.25 and 3.92±0.22 μM in 24 and 48 hr treatment, respectively. The wound-healing assay indicated a dose-dependent reduction of cell migration speed showing a 50% reduction at 2.89±0.26 μM. Significant downregulation of GLI1 and GLI2, as well as the upregulation of BAX, BAX/BCL2 ratio, and TP53 were evident. Significant increases in GLI1 and MYCN markers were also evident in immunocytochemistry. ATO, as a downstream effective inhibitor of the SHH pathway, substantially leads to cell death, cell migration inhibition, apoptosis upregulation, and downregulation of SHH target genes in DAOY medulloblastoma. Since ATO is a toxic chemotherapeutic agent, it must be used at low concentrations (2 μM) in order not to damage healthy cells.

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用三氧化二砷处理的 DAOY 髓母细胞瘤细胞系中凋亡基因的上调和 Sonic Hedgehog 信号通路靶基因的下调。

音速刺猬（SHH）髓母细胞瘤的病因与不同水平的SHH分子通路激活有关。我们研究了作为 SHH 信号通路下游水平抑制剂的三氧化二砷对 DAOY 细胞形态、细胞毒性、迁移、SHH 相关基因和凋亡基因表达的影响。用不同浓度（1、2、3、5 和 10 μM）的三氧化二砷（ATO）处理细胞不同时间（24 和 48 小时）。处理后，用倒置显微镜以 ×20 和 ×40 倍率观察细胞形态。然后用 3-(4,5-二甲基噻唑-2-基)-2,5-二苯基溴化四唑（MTT）和胰蓝试验检测细胞毒性。通过伤口愈合试验分析了细胞迁移。此外，还通过实时定量聚合酶链反应（qPCR）评估了 SHH 相关基因（GLI1、GLI2、SMO 和 MYCN）和凋亡基因（BAX、BCL2 和 TP53）的表达。最后，通过免疫细胞化学分析了 GLI1、SMO 和 MYCN 标记。数据采用 SPSS（16 版）分析，P≤0.05 为差异有显著性。在 3 μM 和 2 μM 处理下，分别在 24 小时和 48 小时内出现了形态学变化。MTT 试验显示了剂量依赖性细胞毒性，24 小时和 48 小时处理的 IC50 值分别为 3.39±0.35 和 2.05±0.64 μM。此外，胰蓝试验表明，24 小时和 48 小时处理的 IC50 值分别为 4.29±0.25 和 3.92±0.22 μM。伤口愈合试验表明，细胞迁移速度的降低呈剂量依赖性，在 2.89±0.26 μM 时降低 50%。GLI1 和 GLI2 明显下调，BAX、BAX/BCL2 比值和 TP53 上调。在免疫细胞化学中，GLI1 和 MYCN 标记也明显增加。ATO作为SHH通路的下游有效抑制剂，可显著导致DAOY髓母细胞瘤的细胞死亡、细胞迁移抑制、细胞凋亡上调和SHH靶基因下调。由于 ATO 是一种有毒的化疗药物，因此必须以低浓度（2 μM）使用，以免损害健康细胞。

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

Journal of Chemotherapy 医学-药学

CiteScore

3.70

自引率

0.00%

发文量

144

审稿时长

6-12 weeks

期刊介绍： The Journal of Chemotherapy is an international multidisciplinary journal committed to the rapid publication of high quality, peer-reviewed, original research on all aspects of antimicrobial and antitumor chemotherapy. The Journal publishes original experimental and clinical research articles, state-of-the-art reviews, brief communications and letters on all aspects of chemotherapy, providing coverage of the pathogenesis, diagnosis, treatment, and control of infection, as well as the use of anticancer and immunomodulating drugs. Specific areas of focus include, but are not limited to: · Antibacterial, antiviral, antifungal, antiparasitic, and antiprotozoal agents; · Anticancer classical and targeted chemotherapeutic agents, biological agents, hormonal drugs, immunomodulatory drugs, cell therapy and gene therapy; · Pharmacokinetic and pharmacodynamic properties of antimicrobial and anticancer agents; · The efficacy, safety and toxicology profiles of antimicrobial and anticancer drugs; · Drug interactions in single or combined applications; · Drug resistance to antimicrobial and anticancer drugs; · Research and development of novel antimicrobial and anticancer drugs, including preclinical, translational and clinical research; · Biomarkers of sensitivity and/or resistance for antimicrobial and anticancer drugs; · Pharmacogenetics and pharmacogenomics; · Precision medicine in infectious disease therapy and in cancer therapy; · Pharmacoeconomics of antimicrobial and anticancer therapies and the implications to patients, health services, and the pharmaceutical industry.