发现一种 6-氨基苯并[b]噻吩 1,1-二氧化物衍生物 (K2071),它具有信号转导和转录激活因子 3 抑制、抗嗜血杆菌和抗衰老治疗活性

IF 4.9 Q1 CHEMISTRY, MEDICINAL
Patrik Oleksak, David Rysanek, Marketa Vancurova, Pavla Vasicova, Alexandra Urbancokova, Josef Novak, Dominika Maurencova, Pavel Kashmel, Jana Houserova, Romana Mikyskova, Ondrej Novotny, Milan Reinis, Pavel Juda, Miroslav Hons, Jirina Kroupova, David Sedlak, Tetyana Sulimenko, Pavel Draber, Marketa Chlubnova, Eugenie Nepovimova, Kamil Kuca, Miroslav Lisa, Rudolf Andrys, Tereza Kobrlova, Ondrej Soukup, Jiri Janousek, Lukas Prchal, Jiri Bartek, Kamil Musilek* and Zdenek Hodny*, 
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引用次数: 0

摘要

6-硝基苯并[b]噻吩 1,1-二氧化物(Stattic)是一种强效的转录信号转导子和激活子 3(STAT3)抑制剂,最初开发用于抗癌治疗。然而,Stattic 具有几种与 STAT3 抑制无关的生物效应。为了改善 Stattic 的特性,我们制备了一系列由 6-氨基苯并[b]噻吩 1,1-二氧化物(一种直接从 Stattic 还原得到的化合物)衍生的类似物,其中包括一种甲氧基苄基氨基衍生物(K2071),该衍生物具有优化的理化特性,包括穿越血脑屏障的能力。除了抑制由酪氨酸 705 磷酸化介导的白细胞介素-6 刺激的 STAT3 活性外,K2071 还对一组人类胶质母细胞瘤衍生细胞系显示出细胞毒性。与核心化合物不同的是,K2071 的部分细胞毒性反映了 STAT3 抑制作用对有丝分裂前期进展的阻碍,影响了有丝分裂纺锤体的形成,这表明 K2071 还具有有丝分裂毒物的作用。与 Stattic 相比,K2071 的硫醇反应性明显降低。此外,K2071 还能影响细胞迁移,抑制肿瘤球体中细胞的增殖,对胶质母细胞瘤替莫唑胺诱导的衰老细胞具有细胞毒性,并能抑制衰老细胞中促炎细胞因子单核细胞趋化蛋白 1(MCP-1)的分泌。重要的是,K2071 对小鼠的耐受性良好,没有急性毒性表现。对 K2071 分子的结构-活性关系分析表明,对位取代的甲氧基苯基基团对其衍生物的抗沉迷活性(而非整体细胞毒性活性)是必需的。总之,这些结果表明化合物 K2071 是一种新型 Stattic 衍生 STAT3 抑制剂和有丝分裂毒物,具有抗癌和衰老治疗特性,对胶质母细胞瘤细胞有效,可进一步开发为胶质母细胞瘤治疗药物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Discovery of a 6-Aminobenzo[b]thiophene 1,1-Dioxide Derivative (K2071) with a Signal Transducer and Activator of Transcription 3 Inhibitory, Antimitotic, and Senotherapeutic Activities

Discovery of a 6-Aminobenzo[b]thiophene 1,1-Dioxide Derivative (K2071) with a Signal Transducer and Activator of Transcription 3 Inhibitory, Antimitotic, and Senotherapeutic Activities

6-Nitrobenzo[b]thiophene 1,1-dioxide (Stattic) is a potent signal transducer and activator of the transcription 3 (STAT3) inhibitor developed originally for anticancer therapy. However, Stattic harbors several STAT3 inhibition-independent biological effects. To improve the properties of Stattic, we prepared a series of analogues derived from 6-aminobenzo[b]thiophene 1,1-dioxide, a compound directly obtained from the reduction of Stattic, that includes a methoxybenzylamino derivative (K2071) with optimized physicochemical characteristics, including the ability to cross the blood–brain barrier. Besides inhibiting the interleukin-6-stimulated activity of STAT3 mediated by tyrosine 705 phosphorylation, K2071 also showed cytotoxicity against a set of human glioblastoma-derived cell lines. In contrast to the core compound, a part of K2071 cytotoxicity reflected a STAT3 inhibition-independent block of mitotic progression in the prophase, affecting mitotic spindle formation, indicating that K2071 also acts as a mitotic poison. Compared to Stattic, K2071 was significantly less thiol-reactive. In addition, K2071 affected cell migration, suppressed cell proliferation in tumor spheroids, exerted cytotoxicity for glioblastoma temozolomide-induced senescent cells, and inhibited the secretion of the proinflammatory cytokine monocyte chemoattractant protein 1 (MCP-1) in senescent cells. Importantly, K2071 was well tolerated in mice, lacking manifestations of acute toxicity. The structure–activity relationship analysis of the K2071 molecule revealed the necessity of the para-substituted methoxyphenyl motif for antimitotic but not overall cytotoxic activity of its derivatives. Altogether, these results indicate that compound K2071 is a novel Stattic-derived STAT3 inhibitor and a mitotic poison with anticancer and senotherapeutic properties that is effective on glioblastoma cells and may be further developed as an agent for glioblastoma therapy.

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来源期刊
ACS Pharmacology and Translational Science
ACS Pharmacology and Translational Science Medicine-Pharmacology (medical)
CiteScore
10.00
自引率
3.30%
发文量
133
期刊介绍: ACS Pharmacology & Translational Science publishes high quality, innovative, and impactful research across the broad spectrum of biological sciences, covering basic and molecular sciences through to translational preclinical studies. Clinical studies that address novel mechanisms of action, and methodological papers that provide innovation, and advance translation, will also be considered. We give priority to studies that fully integrate basic pharmacological and/or biochemical findings into physiological processes that have translational potential in a broad range of biomedical disciplines. Therefore, studies that employ a complementary blend of in vitro and in vivo systems are of particular interest to the journal. Nonetheless, all innovative and impactful research that has an articulated translational relevance will be considered. ACS Pharmacology & Translational Science does not publish research on biological extracts that have unknown concentration or unknown chemical composition. Authors are encouraged to use the pre-submission inquiry mechanism to ensure relevance and appropriateness of research.
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