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探索利用细胞内螯合作用和非铁金属调控铁死亡用于抗癌应用。

Exploring the Use of Intracellular Chelation and Non-Iron Metals to Program Ferroptosis for Anticancer Application.

作者信息

Claudio-Ares Oscar, Luciano-Rodríguez Jeileen, Del Valle-González Yolmarie L, Schiavone-Chamorro Selene L, Pastor Alex J, Rivera-Reyes Javier O, Metzler Carmen L, Domínguez-Orona Lizandra M, Vargas-Pérez Brenda Lee, Skouta Rachid, Tinoco Arthur D

机构信息

Department of Chemistry, University of Puerto Rico, Río Piedras Campus, San Juan, PR 00925, USA.

Department of Science and Technology, Interamerican University of Puerto Rico, Arecibo, PR 00614, USA.

出版信息

Inorganics (Basel). 2024 Jan;12(1). doi: 10.3390/inorganics12010026. Epub 2024 Jan 8.

DOI:10.3390/inorganics12010026
PMID:39380574
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11460773/
Abstract

The discovery of regulated cell death (RCD) revolutionized chemotherapy. With caspase-dependent apoptosis initially being thought to be the only form of RCD, many drug development strategies aimed to synthesize compounds that turn on this kind of cell death. While yielding a variety of drugs, this approach is limited, given the acquired resistance of cancers to these drugs and the lack of specificity of the drugs for targeting cancer cells alone. The discovery of non-apoptotic forms of RCD is leading to new avenues for drug design. Evidence shows that ferroptosis, a relatively recently discovered iron-based cell death pathway, has therapeutic potential for anticancer application. Recent studies point to the interrelationship between iron and other essential metals, copper and zinc, and the disturbance of their respective homeostasis as critical to the onset of ferroptosis. Other studies reveal that several coordination complexes of non-iron metals have the capacity to induce ferroptosis. This collective knowledge will be assessed to determine how chelation approaches and coordination chemistry can be engineered to program ferroptosis in chemotherapy.

摘要

程序性细胞死亡(RCD)的发现彻底改变了化疗。由于最初认为半胱天冬酶依赖性凋亡是RCD的唯一形式,许多药物开发策略旨在合成能够引发这种细胞死亡的化合物。虽然产生了多种药物,但鉴于癌症对这些药物产生的获得性耐药性以及这些药物仅针对癌细胞缺乏特异性,这种方法存在局限性。非凋亡形式的RCD的发现为药物设计开辟了新途径。有证据表明,铁死亡是一种相对较新发现的基于铁的细胞死亡途径,具有抗癌应用的治疗潜力。最近的研究指出,铁与其他必需金属(铜和锌)之间的相互关系以及它们各自体内平衡的紊乱对于铁死亡的发生至关重要。其他研究表明,几种非铁金属的配位络合物具有诱导铁死亡的能力。将评估这些综合知识,以确定如何设计螯合方法和配位化学来在化疗中调控铁死亡。

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Therapeutic inhibition of ferroptosis in neurodegenerative disease.神经退行性疾病中铁死亡的治疗性抑制
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Co-exposure to Fe, Zn, and Cu induced neuronal ferroptosis with associated lipid metabolism disorder via the ERK/cPLA2/AA pathway.铁、锌、铜共同暴露通过 ERK/cPLA2/AA 通路诱导神经元铁死亡及相关脂质代谢紊乱。
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