作为 PC3 癌细胞中有效氮氧化物供体和 ROS 诱导剂的呋喃香烷-哌拉汀混合物:设计、合成和生物学评价

IF 3.597 Q2 Pharmacology, Toxicology and Pharmaceutics
MedChemComm Pub Date : 2024-08-23 DOI:10.1039/D4MD00281D
Carolyne Brustolin Braga, Julio Cesar Milan, Matheus Andrade Meirelles, Bruno Zavan, Guilherme Álvaro Ferreira-Silva, Ester Siqueira Caixeta, Marisa Ionta and Ronaldo A. Pilli
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引用次数: 0

摘要

本文描述了天然产物哌拉汀(PPT,1)(一种强效细胞毒性化合物和 ROS 诱导剂)与二苯基磺酰基取代的呋喃基(即 3,4-双(苯磺酰基)-1,2,5-恶二唑-2-氧化物)(一种重要的氮氧化物供体)通过不同链长的醚连接体共轭的情况,并对其抗癌潜力进行了表征和筛选。在一组人类癌症细胞系(MCF-7、PC3 和 OVCAR-3)和两种非癌症人类细胞(MCF10A 和 PNT2)上评估了新杂交化合物的细胞毒性。总的来说,在上述癌细胞中,与呋喃类前体 4-6 和 PPT 相比,合成的混合物具有更强的细胞毒性和选择性。尤其是 PC3 细胞对混合物 7 和 9 最为敏感(IC50 值分别为 240 nM 和 50 nM),而对前列腺正常细胞的效力较低(IC50 = 17.8 μM 和 14.1 μM),选择性指数分别约为 75 和 280。PPT-呋喃化合物在 PC3 细胞中生成 NO 的结果已通过格里斯反应得到证实。此外,NO 清除剂羧基-PTIO 显著减弱了 9 对细胞生长的抑制作用。7 和 9 在细胞内产生的 ROS 也得到了验证,不同的检测方法表明,与抗氧化剂 N-乙酰-L-半胱氨酸(NAC)共同处理可防止 PPT 诱导的 ROS 生成。进一步的机理研究表明,7 和 9 具有很强的细胞毒性,可诱导 PC3 细胞凋亡,至少部分是通过释放 NO 和增加 ROS 生成来实现的。值得注意的是,9 诱导细胞凋亡的能力比 7 更强,这可能是由于 9 释放的 NO 水平更高。 化合物 7 和 9 调节了细胞周期关键调节因子(如 CDKN1A(p21)、c-MYC 和 CCND1(细胞周期蛋白 D1))的表达谱,并诱导了 DNA 损伤。总之,将呋喃唑酮的 NO 释放分子与细胞毒性天然产物 PPT 绑定在一起,对新型混合候选药物(尤其是 9 号)的潜在抗癌活性和选择性有重大影响,这是呋喃唑酮和 PPT 释放 NO、产生 ROS、诱导 DNA 损伤和引发细胞凋亡的能力产生协同效应的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Furoxan–piplartine hybrids as effective NO donors and ROS inducers in PC3 cancer cells: design, synthesis, and biological evaluation†

Furoxan–piplartine hybrids as effective NO donors and ROS inducers in PC3 cancer cells: design, synthesis, and biological evaluation†

Furoxan–piplartine hybrids as effective NO donors and ROS inducers in PC3 cancer cells: design, synthesis, and biological evaluation†

Conjugation of the naturally occurring product piplartine (PPT, 1), which is a potent cytotoxic compound and ROS inducer, with a diphenyl sulfonyl-substituted furoxan moiety (namely, 3,4-bis(phenylsulfonyl)-1,2,5-oxadiazole-2-oxide), an important type of NO donor, via an ether linker of different chain lengths is described, characterized and screened for the anticancer potential. The cytotoxicity of the new hybrids was evaluated on a panel of human cancer cell lines (MCF-7, PC3 and OVCAR-3) and two non-cancer human cells (MCF10A and PNT2). In general, the synthesized hybrids were more cytotoxic and selective compared to their furoxan precursors 4–6 and PPT in the above cancer cells. Particularly, PC3 cells are the most sensitive to hybrids 7 and 9 (IC50 values of 240 nM and 50 nM, respectively), while a lower potency was found for the prostate normal cells (IC50 = 17.8 μM and 14.1 μM, respectively), corresponding to selectivity indices of ca. 75 and 280, respectively. NO generation by the PPT–furoxan compounds in PC3 cells was confirmed using the Griess reaction. Furthermore, the cell growth inhibitory effect of 9 was significantly attenuated by the NO scavenger carboxy-PTIO. The intracellular ROS generation by 7 and 9 was also verified, and different assays showed that co-treatment with the antioxidant N-acetyl-L-cysteine (NAC) provided protection against PPT-induced ROS generation. Further mechanistic studies revealed that 7 and 9 had strong cytotoxicity to induce apoptosis in PC3 cells, being mediated, at least in part, by the NO-release and increase in ROS production. Notably, the ability of 9 to induce apoptosis was stronger than that of 7, which may be attributed to higher levels of NO released by 9. Compounds 7 and 9 modulated the expression profiles of critical regulators of cell cycle, such as CDKN1A (p21), c-MYC, and CCND1 (cyclin D1), as well as induced DNA damage. Overall, tethering the furoxan NO-releasing moiety to the cytotoxic natural product PPT had significant impact on the potential anticancer activity and selectivity of the novel hybrid drug candidates, especially 9, as a result of synergistic effects of both furoxan and PPT's ability to release NO, generate ROS, induce DNA damage, and trigger apoptosis.

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来源期刊
MedChemComm
MedChemComm BIOCHEMISTRY & MOLECULAR BIOLOGY-CHEMISTRY, MEDICINAL
CiteScore
4.70
自引率
0.00%
发文量
0
审稿时长
2.2 months
期刊介绍: Research and review articles in medicinal chemistry and related drug discovery science; the official journal of the European Federation for Medicinal Chemistry. In 2020, MedChemComm will change its name to RSC Medicinal Chemistry. Issue 12, 2019 will be the last issue as MedChemComm.
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