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本文引用的文献

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FDA-approved heterocyclic molecules for cancer treatment: Synthesis, dosage, mechanism of action and their adverse effect.美国食品药品监督管理局(FDA)批准的用于癌症治疗的杂环分子:合成、剂量、作用机制及其不良反应。
Heliyon. 2023 Dec 5;10(1):e23172. doi: 10.1016/j.heliyon.2023.e23172. eCollection 2024 Jan 15.
2
Imidazopyridine-based kinase inhibitors as potential anticancer agents: A review.基于咪唑并吡啶的激酶抑制剂作为潜在的抗癌药物:综述。
Bioorg Chem. 2023 Nov;140:106831. doi: 10.1016/j.bioorg.2023.106831. Epub 2023 Sep 3.
3
Recent Advances in Oral Squamous Cell Carcinoma.口腔鳞状细胞癌的最新进展
J Clin Med. 2022 Oct 29;11(21):6406. doi: 10.3390/jcm11216406.
4
Oral Cancer Prevalence, Mortality, and Costs in Medicaid and Commercial Insurance Claims Data.医疗保险和商业保险理赔数据中的口腔癌患病率、死亡率和费用。
Cancer Epidemiol Biomarkers Prev. 2022 Sep 2;31(9):1849-1857. doi: 10.1158/1055-9965.EPI-22-0114.
5
Programmed cell death detection methods: a systematic review and a categorical comparison.程序性细胞死亡检测方法:系统评价和分类比较。
Apoptosis. 2022 Aug;27(7-8):482-508. doi: 10.1007/s10495-022-01735-y. Epub 2022 Jun 17.
6
Prescribed drugs containing nitrogen heterocycles: an overview.含氮杂环的处方药:概述
RSC Adv. 2020 Dec 15;10(72):44247-44311. doi: 10.1039/d0ra09198g. eCollection 2020 Dec 9.
7
New quinoxaline-based VEGFR-2 inhibitors: design, synthesis, and antiproliferative evaluation with docking, ADMET, toxicity, and DFT studies.新型基于喹喔啉的血管内皮生长因子受体-2(VEGFR-2)抑制剂:设计、合成以及通过对接、药物代谢动力学、毒性和密度泛函理论研究进行的抗增殖评估
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8
Novel imidazopyrimidines-based molecules induce tetramerization of tumor pyruvate kinase M2 and exhibit potent antiproliferative profile.新型基于咪唑并嘧啶的分子诱导肿瘤丙酮酸激酶 M2 的四聚化,并表现出有效的抗增殖特性。
Eur J Pharm Sci. 2022 Mar 1;170:106112. doi: 10.1016/j.ejps.2021.106112. Epub 2021 Dec 28.
9
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嘧啶连接的喹喔啉衍生物对口腔鳞状细胞癌的靶向抑制作用

Targeted suppression of oral squamous cell carcinoma by pyrimidine-tethered quinoxaline derivatives.

作者信息

Choithramani Asmita, Das Rudradip, Bothra Gourav, Patel Vatsa Priyanka, Muthukumar Venkatesh, Bhuvana Bombothu Kavya Sai, Kapoor Saumya, Moola Deepshika, Chowdhury Moumita Ghosh, Mandoli Amit, Shard Amit

机构信息

Department of Medicinal Chemistry, National Institute of Pharmaceutical Education and Research-Ahmedabad (NIPER-A) Opposite Airforce Station, Palaj Gandhinagar Gujarat - 382355 India

Department of Biotechnology, National Institute of Pharmaceutical Education and Research-Ahmedabad (NIPER-A) Opposite Airforce Station, Palaj Gandhinagar Gujarat - 382355 India.

出版信息

RSC Med Chem. 2024 May 24;15(8):2729-2744. doi: 10.1039/d4md00042k. eCollection 2024 Aug 14.

DOI:10.1039/d4md00042k
PMID:39149105
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11324040/
Abstract

Oral cancer (OC) stands as a prominent cause of global mortality. Despite numerous efforts in recent decades, the efficacy of novel therapies to extend the lifespan of OC patients remains disappointingly low. Consequently, the demand for innovative therapeutic agents has become all the more pressing. In this context, we present our work on the design and synthesis of twenty-five novel quinoxaline-tethered imidazopyri(mi)dine derivatives. This was followed by comprehensive investigations into the impact of these molecules on the OC cell line. The cytotoxicity studies performed in CAL-27 and normal oral epithelial (NOE) cell lines revealed that some of the synthesized molecules like 12d have potent antiproliferative activity specifically towards OC cells with an IC of 0.79 μM and show negligible cytotoxicity over NOE cells. Further, 12d arrested cell growth in the S phase of the cell cycle and induced cell death by early apoptosis. The studies validated that 12d binds to the activator binding site on pyruvate kinase M2 (PKM2) overexpressed in OC while the lactate dehydrogenase (LDH)-coupled enzyme assay established 12d as a potent PKM2 activator with an AC of 0.6 nM. Hence, this study provides fruitful evidence for the designed compounds as anticancer agents against OC.

摘要

口腔癌(OC)是全球死亡的一个主要原因。尽管近几十年来人们付出了诸多努力,但新型疗法延长OC患者寿命的疗效仍然低得令人失望。因此,对创新治疗药物的需求变得更加迫切。在此背景下,我们展示了我们关于设计和合成25种新型喹喔啉连接的咪唑并吡啶(咪)啶衍生物的工作。随后对这些分子对OC细胞系的影响进行了全面研究。在CAL-27和正常口腔上皮(NOE)细胞系中进行的细胞毒性研究表明,一些合成分子,如12d,对OC细胞具有强大的抗增殖活性,IC为0.79 μM,而对NOE细胞的细胞毒性可忽略不计。此外,12d使细胞周期的S期细胞生长停滞,并通过早期凋亡诱导细胞死亡。研究证实,12d与OC中过表达的丙酮酸激酶M2(PKM2)上的激活剂结合位点结合,而乳酸脱氢酶(LDH)偶联酶测定确定12d为一种有效的PKM2激活剂,AC为0.6 nM。因此,本研究为所设计的化合物作为抗OC抗癌药物提供了丰富的证据。