Second-generation piperazine derivatives as promising radiation countermeasures†

IF 3.597 Q2 Pharmacology, Toxicology and Pharmaceutics MedChemComm Pub Date : 2024-07-11 DOI:10.1039/D4MD00311J
Vojtěch Chmil, Natálie Živná, Marcela Milanová, Alžběta Filipová, Jaroslav Pejchal, Lukáš Prchal, Darina Muthná, Vít Řeháček, Martina Řezáčová, Jan Marek, Aleš Tichý and Radim Havelek
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Abstract

The increasing threat of nuclear incidents and the widespread use of ionizing radiation (IR) in medical treatments underscore the urgent need for effective radiation countermeasures. Despite the availability of compounds such as amifostine, their clinical utility is significantly limited by adverse side effects and logistical challenges in administration. This study focuses on the synthesis and evaluation of novel piperazine derivatives as potential radioprotective agents, with the aim of overcoming the limitations associated with current countermeasures. We designed, synthesized, and evaluated a series of 1-(2-hydroxyethyl)piperazine derivatives. The compounds were assessed for cytotoxicity across a panel of human cell lines, and for their radioprotective effects in the MOLT-4 lymphoblastic leukemia cell line and in peripheral blood mononuclear cells (PBMCs) exposed to gamma radiation. The radioprotective efficacy was further quantified using the dicentric chromosome assay (DCA) to measure DNA damage mitigation. Among the synthesized derivatives, compound 6 demonstrated the most significant radioprotective effects in vitro, with minimal cytotoxicity across the tested cell lines. Compound 3 also showed notable efficacy, particularly in reducing dicentric chromosomes, thus indicating its potential to mitigate DNA damage from IR. Both compounds exhibited superior safety profiles and effectiveness compared to amifostine, suggesting their potential as more viable radioprotective agents. This study highlights the development of novel piperazine derivatives with promising radioprotective properties. Compound 6 emerged as the leading candidate, offering an optimal balance between efficacy and safety, with compound 3 also displaying significant potential. These findings support the further development and clinical evaluation of these compounds as safer, and more effective radiation countermeasures.

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第二代哌嗪衍生物有望成为辐射防护手段
核事故的威胁与日俱增,电离辐射(IR)在医疗中的广泛应用凸显了对有效辐射防护措施的迫切需求。尽管存在阿米福斯汀等化合物,但由于其不良副作用和给药方面的后勤挑战,它们的临床实用性受到很大限制。本研究的重点是合成和评估新型哌嗪衍生物,将其作为潜在的辐射防护剂,目的是克服现有对策的局限性。我们设计、合成并评估了一系列 1-(2-羟乙基)哌嗪衍生物。我们评估了这些化合物对一系列人类细胞系的细胞毒性,以及它们对暴露于伽马射线的 MOLT-4 淋巴细胞白血病细胞系和外周血单核细胞(PBMCs)的辐射防护作用。利用双中心染色体测定法(DCA)测量 DNA 损伤缓解情况,进一步量化了辐射防护功效。在合成的衍生物中,化合物 6 在体外表现出了最显著的辐射防护效果,对所有受试细胞株的细胞毒性最小。化合物 3 也显示出显著的功效,尤其是在减少双中心染色体方面,从而表明它具有减轻红外对 DNA 损伤的潜力。与阿米福斯汀相比,这两种化合物的安全性和有效性都更胜一筹,表明它们有可能成为更可行的辐射保护剂。这项研究强调了具有良好放射保护特性的新型哌嗪衍生物的开发。化合物 6 是最主要的候选化合物,在有效性和安全性之间实现了最佳平衡,化合物 3 也显示出巨大的潜力。这些发现支持进一步开发和临床评估这些化合物,使其成为更安全、更有效的辐射防护措施。
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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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